ERDDAP - institution

Easy Access to PMEL Scientific Data
The Pacific Marine Environmental Laboratory's ERDDAP data server for public access to scientific data

NOAA OAR PMEL

Subset	tabledap	Make A Graph	files	Title	Summary	FGDC	ISO 19115	Info	Background Info	RSS	Email	Institution	Dataset ID
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ACEASIA_RHBrown_chemistry.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ACEASIA_RHBrown_chemistry	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ACEASIA_RHBrown_chemistry.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_ACEASIA_RHBrown_chemistry/	PMEL Atmospheric Chemistry ACEASIA Aerosol Chemistry data	The third Aerosol Characterization Experiment (ACE) focused on Asia (ACE-Asia) to study the effects of the aerosol emanating from this region on atmospheric chemistry and climate. The experiment was conducted during the spring (mid-March to mid-April of 2001) to capture outbreaks of Asian dust associated with frontal systems moving eastward through the dust-producing regions. The dust is routinely transported to Korea and Japan, out over the North Pacific, and occasionally as far east as North America. En route over China and coastal regions, the dust aerosol mixes with aerosol derived from industrial, combustion, volcanic, and natural sources. Hence by the time the Asian aerosol has reached the western margin of the Pacific Ocean it is a complex mixture of dust, organics, elemental carbon, sulfates, nitrate, sea salt, and liquid water. \n\nFor ACE -Asia, the Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry Group made measurements onboard the NOAA R/V Ronald H. Brown (RHB). The RHB left left Honolulu, Hawaii on 15 March and headed to the ACE-Asia study region. During the transit across the Pacific, marine air with little influence from continental sources was sampled. Eleven days later on 26 March and 2000 km from the east coast of Japan, RHB encountered continentally influenced air. For the rest of the cruise, air masses heavily impacted by Asian emissions were sampled.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nmid_time (midpoint Datetime UTC, seconds since 1970-01-01T00:00:00Z)\nend_time (endpoint Datetime UTC, seconds since 1970-01-01T00:00:00Z)\nIC_MSA_sub1 (Particulate MSA Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_MSA_super1 (Particulate MSA Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Cl_sub1 (Particulate Cl Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_Cl_super1 (Particulate Cl Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\n... (31 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_ACEASIA_RHBrown_chemistry_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_ACEASIA_RHBrown_chemistry_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_ACEASIA_RHBrown_chemistry/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_ACEASIA_RHBrown_chemistry.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_ACEASIA_RHBrown_chemistry&showErrors=false&email=	NOAA	ACG_ACEASIA_RHBrown_chemistry
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ACEASIA_RHBrown_main.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ACEASIA_RHBrown_main	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ACEASIA_RHBrown_main.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_ACEASIA_RHBrown_main/	PMEL Atmospheric Chemistry ACEASIA Aerosol Main Data, 1 min data	Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry ACEASIA Aerosol Main Data - 1 min data. The third Aerosol Characterization Experiment (ACE) focused on Asia (ACE-Asia) to study the effects of the aerosol emanating from this region on atmospheric chemistry and climate. The experiment was conducted during the spring (mid-March to mid-April of 2001) to capture outbreaks of Asian dust associated with frontal systems moving eastward through the dust-producing regions. The dust is routinely transported to Korea and Japan, out over the North Pacific, and occasionally as far east as North America. En route over China and coastal regions, the dust aerosol mixes with aerosol derived from industrial, combustion, volcanic, and natural sources. Hence by the time the Asian aerosol has reached the western margin of the Pacific Ocean it is a complex mixture of dust, organics, elemental carbon, sulfates, nitrate, sea salt, and liquid water. \n\nFor ACE -Asia, the PMEL Atmospheric Chemistry Group made measurements onboard the NOAA R/V Ronald H. Brown (RHB). The RHB left left Honolulu, Hawaii on 15 March and headed to the ACE-Asia study region. During the transit across the Pacific, marine air with little influence from continental sources was sampled. Eleven days later on 26 March and 2000 km from the east coast of Japan, RHB encountered continentally influenced air. For the rest of the cruise, air masses heavily impacted by Asian emissions were sampled.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nship_speed (Ship Speed over Ground, knots)\nship_course (Ship Course over Ground, degree)\nair_temp (Air Temperature, degree_C)\nrh (Relative Humidity, percent)\nbaro_pressure (Barometric Pressure, hPa)\n... (25 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_ACEASIA_RHBrown_main_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_ACEASIA_RHBrown_main_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_ACEASIA_RHBrown_main/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_ACEASIA_RHBrown_main.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_ACEASIA_RHBrown_main&showErrors=false&email=	NOAA	ACG_ACEASIA_RHBrown_main
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ACEASIA_RHBrown_aerosol_sizedist_aps.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ACEASIA_RHBrown_aerosol_sizedist_aps	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ACEASIA_RHBrown_aerosol_sizedist_aps.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_ACEASIA_RHBrown_aerosol_sizedist_aps/	PMEL Atmospheric Chemistry ACEASIA Aerosol Size Distribution (APS) data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (13 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_ACEASIA_RHBrown_aerosol_sizedist_aps_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_ACEASIA_RHBrown_aerosol_sizedist_aps_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_ACEASIA_RHBrown_aerosol_sizedist_aps/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_ACEASIA_RHBrown_aerosol_sizedist_aps.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_ACEASIA_RHBrown_aerosol_sizedist_aps&showErrors=false&email=	NOAA	ACG_ACEASIA_RHBrown_aerosol_sizedist_aps
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ACEASIA_RHBrown_aerosol_sizedist_dmps.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ACEASIA_RHBrown_aerosol_sizedist_dmps	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ACEASIA_RHBrown_aerosol_sizedist_dmps.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_ACEASIA_RHBrown_aerosol_sizedist_dmps/	PMEL Atmospheric Chemistry ACEASIA Aerosol Size Distribution (DMPS) data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (13 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_ACEASIA_RHBrown_aerosol_sizedist_dmps_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_ACEASIA_RHBrown_aerosol_sizedist_dmps_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_ACEASIA_RHBrown_aerosol_sizedist_dmps/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_ACEASIA_RHBrown_aerosol_sizedist_dmps.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_ACEASIA_RHBrown_aerosol_sizedist_dmps&showErrors=false&email=	NOAA	ACG_ACEASIA_RHBrown_aerosol_sizedist_dmps
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ACEASIA_RHBrown_aerosol_sizedist.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ACEASIA_RHBrown_aerosol_sizedist	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ACEASIA_RHBrown_aerosol_sizedist.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_ACEASIA_RHBrown_aerosol_sizedist/	PMEL Atmospheric Chemistry ACEASIA Aerosol Size Distribution data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (16 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_ACEASIA_RHBrown_aerosol_sizedist_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_ACEASIA_RHBrown_aerosol_sizedist_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_ACEASIA_RHBrown_aerosol_sizedist/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_ACEASIA_RHBrown_aerosol_sizedist.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_ACEASIA_RHBrown_aerosol_sizedist&showErrors=false&email=	NOAA	ACG_ACEASIA_RHBrown_aerosol_sizedist
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ACEASIA_RHBrown_aod4080.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ACEASIA_RHBrown_aod4080	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ACEASIA_RHBrown_aod4080.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_ACEASIA_RHBrown_aod4080/	PMEL Atmospheric Chemistry ACEASIA AOD(4080) data	The third Aerosol Characterization Experiment (ACE) focused on Asia (ACE-Asia) to study the effects of the aerosol emanating from this region on atmospheric chemistry and climate. The experiment was conducted during the spring (mid-March to mid-April of 2001) to capture outbreaks of Asian dust associated with frontal systems moving eastward through the dust-producing regions. The dust is routinely transported to Korea and Japan, out over the North Pacific, and occasionally as far east as North America. En route over China and coastal regions, the dust aerosol mixes with aerosol derived from industrial, combustion, volcanic, and natural sources. Hence by the time the Asian aerosol has reached the western margin of the Pacific Ocean it is a complex mixture of dust, organics, elemental carbon, sulfates, nitrate, sea salt, and liquid water. \n\nFor ACE -Asia, the Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry Group made measurements onboard the NOAA R/V Ronald H. Brown (RHB). The RHB left left Honolulu, Hawaii on 15 March and headed to the ACE-Asia study region. During the transit across the Pacific, marine air with little influence from continental sources was sampled. Eleven days later on 26 March and 2000 km from the east coast of Japan, RHB encountered continentally influenced air. For the rest of the cruise, air masses heavily impacted by Asian emissions were sampled.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\naod_380 (Aerosol Optical Depth at 380nm)\naod_440 (Aerosol Optical Depth at 440nm)\naod_500 (Aerosol Optical Depth at 500nm)\naod_675 (Aerosol Optical Depth at 675nm)\naod_870 (Aerosol Optical Depth at 870nm)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_ACEASIA_RHBrown_aod4080_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_ACEASIA_RHBrown_aod4080_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_ACEASIA_RHBrown_aod4080/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_ACEASIA_RHBrown_aod4080.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_ACEASIA_RHBrown_aod4080&showErrors=false&email=	NOAA	ACG_ACEASIA_RHBrown_aod4080
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ACEASIA_RHBrown_carbon_chemistry.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ACEASIA_RHBrown_carbon_chemistry	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ACEASIA_RHBrown_carbon_chemistry.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_ACEASIA_RHBrown_carbon_chemistry/	PMEL Atmospheric Chemistry ACEASIA Carbon Chemistry data	The third Aerosol Characterization Experiment (ACE) focused on Asia (ACE-Asia) to study the effects of the aerosol emanating from this region on atmospheric chemistry and climate. The experiment was conducted during the spring (mid-March to mid-April of 2001) to capture outbreaks of Asian dust associated with frontal systems moving eastward through the dust-producing regions. The dust is routinely transported to Korea and Japan, out over the North Pacific, and occasionally as far east as North America. En route over China and coastal regions, the dust aerosol mixes with aerosol derived from industrial, combustion, volcanic, and natural sources. Hence by the time the Asian aerosol has reached the western margin of the Pacific Ocean it is a complex mixture of dust, organics, elemental carbon, sulfates, nitrate, sea salt, and liquid water. \n\nFor ACE -Asia, the Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry Group made measurements onboard the NOAA R/V Ronald H. Brown (RHB). The RHB left left Honolulu, Hawaii on 15 March and headed to the ACE-Asia study region. During the transit across the Pacific, marine air with little influence from continental sources was sampled. Eleven days later on 26 March and 2000 km from the east coast of Japan, RHB encountered continentally influenced air. For the rest of the cruise, air masses heavily impacted by Asian emissions were sampled.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nmid_time (midpoint Datetime UTC, seconds since 1970-01-01T00:00:00Z)\nend_time (endpoint Datetime UTC, seconds since 1970-01-01T00:00:00Z)\nOC_sub1 (Particulate Organic Carbon Concentration for Dp < 1.1 um, micrograms m-3)\nOC_super1 (Particulate Organic Carbon Concentration for 1.1 um < Dp < 10 um, micrograms m-3)\nEC_sub1 (Particulate Elemental Carbon Concentration for Dp < 1.1 um, micrograms m-3)\nEC_super1 (Particulate Elemental Carbon Concentration for 1.1 um < Dp < 10 um, micrograms m-3)\nEC_sub10 (Particulate Elemental Carbon Concentration for Dp < 10 um, micrograms m-3)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_ACEASIA_RHBrown_carbon_chemistry_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_ACEASIA_RHBrown_carbon_chemistry_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_ACEASIA_RHBrown_carbon_chemistry/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_ACEASIA_RHBrown_carbon_chemistry.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_ACEASIA_RHBrown_carbon_chemistry&showErrors=false&email=	NOAA	ACG_ACEASIA_RHBrown_carbon_chemistry
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ACEASIA_RHBrown_dms.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ACEASIA_RHBrown_dms	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ACEASIA_RHBrown_dms.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_ACEASIA_RHBrown_dms/	PMEL Atmospheric Chemistry ACEASIA DMS data	The third Aerosol Characterization Experiment (ACE) focused on Asia (ACE-Asia) to study the effects of the aerosol emanating from this region on atmospheric chemistry and climate. The experiment was conducted during the spring (mid-March to mid-April of 2001) to capture outbreaks of Asian dust associated with frontal systems moving eastward through the dust-producing regions. The dust is routinely transported to Korea and Japan, out over the North Pacific, and occasionally as far east as North America. En route over China and coastal regions, the dust aerosol mixes with aerosol derived from industrial, combustion, volcanic, and natural sources. Hence by the time the Asian aerosol has reached the western margin of the Pacific Ocean it is a complex mixture of dust, organics, elemental carbon, sulfates, nitrate, sea salt, and liquid water. \n\nFor ACE -Asia, the Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry Group made measurements onboard the NOAA R/V Ronald H. Brown (RHB). The RHB left left Honolulu, Hawaii on 15 March and headed to the ACE-Asia study region. During the transit across the Pacific, marine air with little influence from continental sources was sampled. Eleven days later on 26 March and 2000 km from the east coast of Japan, RHB encountered continentally influenced air. For the rest of the cruise, air masses heavily impacted by Asian emissions were sampled.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\ndms_seawater (Seawater DMS concentration, nmol L-1)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_ACEASIA_RHBrown_dms_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_ACEASIA_RHBrown_dms_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_ACEASIA_RHBrown_dms/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_ACEASIA_RHBrown_dms.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_ACEASIA_RHBrown_dms&showErrors=false&email=	NOAA	ACG_ACEASIA_RHBrown_dms
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ATOMIC_RHBrown_chemistry.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ATOMIC_RHBrown_chemistry	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ATOMIC_RHBrown_chemistry.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_ATOMIC_RHBrown_chemistry/	PMEL Atmospheric Chemistry ATOMIC Aerosol Chemistry data	From early January through mid-February 2020, NOAA is partnering with several universities and other programs to lead the Atlantic Tradewind Ocean-Atmosphere Mesoscale Interaction Campaign (ATOMIC). The field study will take place in the tropical North Atlantic east of Barbados and investigate cloud and air-sea interaction processes with the goal of advancing understanding and prediction of U.S. weather and climate. ATOMIC is the U.S. complement to the European field campaign called EUREC4A. This collaborative effort involves a unique combination of ships, piloted and remotely-controlled aircraft, and remotely-controlled ocean vehicles to characterize ocean and atmospheric properties. A suite of instruments will be deployed from NOAA's research ship Ronald H. Brown and WP-3D Orion \"Hurricane Hunter\" aircraft, and on land.\n\nThe focus area of ATOMIC is in the heart of the trade winds and representative of other regions across the global ocean with shallow convective clouds. Some of the Earth's largest ocean eddies (circular currents) also shed into this region from the Amazon and Orinoco Rivers. Conducting the study during winter allows researchers to observe the ocean, air, and clouds in near isolation from hurricane impacts, and to gain better insight into the ocean's involvement in making clouds that affect larger weather and climate patterns.\n\nImproved understanding of air-sea interactions in this region will help advance representations of these processes in NOAA's model forecast systems. This effort will also improve the numerical guidance used to predict weather and climate extremes.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nmid_time (midpoint Datetime UTC, seconds since 1970-01-01T00:00:00Z)\nend_time (endpoint Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (28 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_ATOMIC_RHBrown_chemistry_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_ATOMIC_RHBrown_chemistry_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_ATOMIC_RHBrown_chemistry/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_ATOMIC_RHBrown_chemistry.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_ATOMIC_RHBrown_chemistry&showErrors=false&email=	NOAA	ACG_ATOMIC_RHBrown_chemistry
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ATOMIC_RHBrown_main.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ATOMIC_RHBrown_main	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ATOMIC_RHBrown_main.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_ATOMIC_RHBrown_main/	PMEL Atmospheric Chemistry ATOMIC Aerosol Main Data, 1 min data	Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry ATOMIC Aerosol Main Data - 1 min data. From early January through mid-February 2020, NOAA is partnering with several universities and other programs to lead the Atlantic Tradewind Ocean-Atmosphere Mesoscale Interaction Campaign (ATOMIC). The field study will take place in the tropical North Atlantic east of Barbados and investigate cloud and air-sea interaction processes with the goal of advancing understanding and prediction of U.S. weather and climate. ATOMIC is the U.S. complement to the European field campaign called EUREC4A. This collaborative effort involves a unique combination of ships, piloted and remotely-controlled aircraft, and remotely-controlled ocean vehicles to characterize ocean and atmospheric properties. A suite of instruments will be deployed from NOAA's research ship Ronald H. Brown and WP-3D Orion \"Hurricane Hunter\" aircraft, and on land.\n\nThe focus area of ATOMIC is in the heart of the trade winds and representative of other regions across the global ocean with shallow convective clouds. Some of the Earth's largest ocean eddies (circular currents) also shed into this region from the Amazon and Orinoco Rivers. Conducting the study during winter allows researchers to observe the ocean, air, and clouds in near isolation from hurricane impacts, and to gain better insight into the ocean's involvement in making clouds that affect larger weather and climate patterns.\n\nImproved understanding of air-sea interactions in this region will help advance representations of these processes in NOAA's model forecast systems. This effort will also improve the numerical guidance used to predict weather and climate extremes.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nship_speed (Ship Speed over Ground, knots)\n... (46 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_ATOMIC_RHBrown_main_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_ATOMIC_RHBrown_main_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_ATOMIC_RHBrown_main/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_ATOMIC_RHBrown_main.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_ATOMIC_RHBrown_main&showErrors=false&email=	NOAA	ACG_ATOMIC_RHBrown_main
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ATOMIC_RHBrown_aerosol_sizedist_aps.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ATOMIC_RHBrown_aerosol_sizedist_aps	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ATOMIC_RHBrown_aerosol_sizedist_aps.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_ATOMIC_RHBrown_aerosol_sizedist_aps/	PMEL Atmospheric Chemistry ATOMIC Aerosol Size Distribution (APS) data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (13 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_ATOMIC_RHBrown_aerosol_sizedist_aps_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_ATOMIC_RHBrown_aerosol_sizedist_aps_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_ATOMIC_RHBrown_aerosol_sizedist_aps/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_ATOMIC_RHBrown_aerosol_sizedist_aps.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_ATOMIC_RHBrown_aerosol_sizedist_aps&showErrors=false&email=	NOAA	ACG_ATOMIC_RHBrown_aerosol_sizedist_aps
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ATOMIC_RHBrown_aerosol_sizedist_dmps.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ATOMIC_RHBrown_aerosol_sizedist_dmps	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ATOMIC_RHBrown_aerosol_sizedist_dmps.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_ATOMIC_RHBrown_aerosol_sizedist_dmps/	PMEL Atmospheric Chemistry ATOMIC Aerosol Size Distribution (DMPS) data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (13 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_ATOMIC_RHBrown_aerosol_sizedist_dmps_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_ATOMIC_RHBrown_aerosol_sizedist_dmps_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_ATOMIC_RHBrown_aerosol_sizedist_dmps/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_ATOMIC_RHBrown_aerosol_sizedist_dmps.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_ATOMIC_RHBrown_aerosol_sizedist_dmps&showErrors=false&email=	NOAA	ACG_ATOMIC_RHBrown_aerosol_sizedist_dmps
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ATOMIC_RHBrown_aerosol_sizedist.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ATOMIC_RHBrown_aerosol_sizedist	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ATOMIC_RHBrown_aerosol_sizedist.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_ATOMIC_RHBrown_aerosol_sizedist/	PMEL Atmospheric Chemistry ATOMIC Aerosol Size Distribution data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (16 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_ATOMIC_RHBrown_aerosol_sizedist_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_ATOMIC_RHBrown_aerosol_sizedist_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_ATOMIC_RHBrown_aerosol_sizedist/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_ATOMIC_RHBrown_aerosol_sizedist.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_ATOMIC_RHBrown_aerosol_sizedist&showErrors=false&email=	NOAA	ACG_ATOMIC_RHBrown_aerosol_sizedist
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ATOMIC_RHBrown_aod.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ATOMIC_RHBrown_aod	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ATOMIC_RHBrown_aod.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_ATOMIC_RHBrown_aod/	PMEL Atmospheric Chemistry ATOMIC AOD data	From early January through mid-February 2020, NOAA is partnering with several universities and other programs to lead the Atlantic Tradewind Ocean-Atmosphere Mesoscale Interaction Campaign (ATOMIC). The field study will take place in the tropical North Atlantic east of Barbados and investigate cloud and air-sea interaction processes with the goal of advancing understanding and prediction of U.S. weather and climate. ATOMIC is the U.S. complement to the European field campaign called EUREC4A. This collaborative effort involves a unique combination of ships, piloted and remotely-controlled aircraft, and remotely-controlled ocean vehicles to characterize ocean and atmospheric properties. A suite of instruments will be deployed from NOAA's research ship Ronald H. Brown and WP-3D Orion \"Hurricane Hunter\" aircraft, and on land.\n\nThe focus area of ATOMIC is in the heart of the trade winds and representative of other regions across the global ocean with shallow convective clouds. Some of the Earth's largest ocean eddies (circular currents) also shed into this region from the Amazon and Orinoco Rivers. Conducting the study during winter allows researchers to observe the ocean, air, and clouds in near isolation from hurricane impacts, and to gain better insight into the ocean's involvement in making clouds that affect larger weather and climate patterns.\n\nImproved understanding of air-sea interactions in this region will help advance representations of these processes in NOAA's model forecast systems. This effort will also improve the numerical guidance used to predict weather and climate extremes.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\naod_380 (Aerosol Optical Depth at 380nm)\naod_440 (Aerosol Optical Depth at 440nm)\n... (4 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_ATOMIC_RHBrown_aod_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_ATOMIC_RHBrown_aod_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_ATOMIC_RHBrown_aod/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_ATOMIC_RHBrown_aod.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_ATOMIC_RHBrown_aod&showErrors=false&email=	NOAA	ACG_ATOMIC_RHBrown_aod
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ATOMIC_RHBrown_ccn.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ATOMIC_RHBrown_ccn	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ATOMIC_RHBrown_ccn.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_ATOMIC_RHBrown_ccn/	PMEL Atmospheric Chemistry ATOMIC CCN data	From early January through mid-February 2020, NOAA is partnering with several universities and other programs to lead the Atlantic Tradewind Ocean-Atmosphere Mesoscale Interaction Campaign (ATOMIC). The field study will take place in the tropical North Atlantic east of Barbados and investigate cloud and air-sea interaction processes with the goal of advancing understanding and prediction of U.S. weather and climate. ATOMIC is the U.S. complement to the European field campaign called EUREC4A. This collaborative effort involves a unique combination of ships, piloted and remotely-controlled aircraft, and remotely-controlled ocean vehicles to characterize ocean and atmospheric properties. A suite of instruments will be deployed from NOAA's research ship Ronald H. Brown and WP-3D Orion \"Hurricane Hunter\" aircraft, and on land.\n\nThe focus area of ATOMIC is in the heart of the trade winds and representative of other regions across the global ocean with shallow convective clouds. Some of the Earth's largest ocean eddies (circular currents) also shed into this region from the Amazon and Orinoco Rivers. Conducting the study during winter allows researchers to observe the ocean, air, and clouds in near isolation from hurricane impacts, and to gain better insight into the ocean's involvement in making clouds that affect larger weather and climate patterns.\n\nImproved understanding of air-sea interactions in this region will help advance representations of these processes in NOAA's model forecast systems. This effort will also improve the numerical guidance used to predict weather and climate extremes.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nccn_ss (Supersaturation of CCN measurement, percent)\nccn (Cloud Condensation Nuclei Concentration at ccn_ss, cm-3)\nccn_cn_ratio (Ratio of CCN to CN)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_ATOMIC_RHBrown_ccn_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_ATOMIC_RHBrown_ccn_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_ATOMIC_RHBrown_ccn/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_ATOMIC_RHBrown_ccn.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_ATOMIC_RHBrown_ccn&showErrors=false&email=	NOAA	ACG_ATOMIC_RHBrown_ccn
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ATOMIC_RHBrown_radon.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ATOMIC_RHBrown_radon	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ATOMIC_RHBrown_radon.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_ATOMIC_RHBrown_radon/	PMEL Atmospheric Chemistry ATOMIC Radon data	From early January through mid-February 2020, NOAA is partnering with several universities and other programs to lead the Atlantic Tradewind Ocean-Atmosphere Mesoscale Interaction Campaign (ATOMIC). The field study will take place in the tropical North Atlantic east of Barbados and investigate cloud and air-sea interaction processes with the goal of advancing understanding and prediction of U.S. weather and climate. ATOMIC is the U.S. complement to the European field campaign called EUREC4A. This collaborative effort involves a unique combination of ships, piloted and remotely-controlled aircraft, and remotely-controlled ocean vehicles to characterize ocean and atmospheric properties. A suite of instruments will be deployed from NOAA's research ship Ronald H. Brown and WP-3D Orion \"Hurricane Hunter\" aircraft, and on land.\n\nThe focus area of ATOMIC is in the heart of the trade winds and representative of other regions across the global ocean with shallow convective clouds. Some of the Earth's largest ocean eddies (circular currents) also shed into this region from the Amazon and Orinoco Rivers. Conducting the study during winter allows researchers to observe the ocean, air, and clouds in near isolation from hurricane impacts, and to gain better insight into the ocean's involvement in making clouds that affect larger weather and climate patterns.\n\nImproved understanding of air-sea interactions in this region will help advance representations of these processes in NOAA's model forecast systems. This effort will also improve the numerical guidance used to predict weather and climate extremes.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nradon (mBq m-3)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_ATOMIC_RHBrown_radon_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_ATOMIC_RHBrown_radon_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_ATOMIC_RHBrown_radon/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_ATOMIC_RHBrown_radon.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_ATOMIC_RHBrown_radon&showErrors=false&email=	NOAA	ACG_ATOMIC_RHBrown_radon
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_CalNex_Atlantis_chemistry.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_CalNex_Atlantis_chemistry	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_CalNex_Atlantis_chemistry.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_CalNex_Atlantis_chemistry/	PMEL Atmospheric Chemistry CalNex Aerosol Chemistry data	CalNex was a joint project of The California Air Resources Board (CARB), the National Oceanic and Atmospheric Administration (NOAA) and the California Energy Commission (CEC). This project was a joint field study of atmospheric processes over California and the eastern Pacific coastal region in 2010. The Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry Group made Aerosol chemical, physical, and optical measurements aboard the R/V Atlantis from May 14 through June 8, 2010.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nmid_time (midpoint Datetime UTC, seconds since 1970-01-01T00:00:00Z)\nend_time (endpoint Datetime UTC, seconds since 1970-01-01T00:00:00Z)\nIC_MSA_sub1 (Particulate MSA Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_MSA_super1 (Particulate MSA Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Cl_sub1 (Particulate Cl Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_Cl_super1 (Particulate Cl Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Br_sub1 (Particulate Br Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_Br_super1 (Particulate Br Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_NO3_sub1 (Particulate NO3 Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_NO3_super1 (Particulate NO3 Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_SO4_sub1 (Particulate SO4 Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_SO4_super1 (Particulate SO4 Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Oxalate_sub1 (Particulate Oxalate Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_Oxalate_super1 (Particulate Oxalate Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Na_sub1 (Particulate Na Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_Na_super1 (Particulate Na Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\n... (11 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_CalNex_Atlantis_chemistry_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_CalNex_Atlantis_chemistry_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_CalNex_Atlantis_chemistry/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_CalNex_Atlantis_chemistry.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_CalNex_Atlantis_chemistry&showErrors=false&email=	NOAA	ACG_CalNex_Atlantis_chemistry
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_CalNex_Atlantis_main.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_CalNex_Atlantis_main	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_CalNex_Atlantis_main.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_CalNex_Atlantis_main/	PMEL Atmospheric Chemistry CalNex Aerosol Main Data, 1 min data	Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry CalNex Aerosol Main Data - 1 min data. CalNex was a joint project of The California Air Resources Board (CARB), the National Oceanic and Atmospheric Administration (NOAA) and the California Energy Commission (CEC). This project was a joint field study of atmospheric processes over California and the eastern Pacific coastal region in 2010. The PMEL Atmospheric Chemistry Group made Aerosol chemical, physical, and optical measurements aboard the R/V Atlantis from May 14 through June 8, 2010.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nship_speed (Ship Speed over Ground, knots)\nship_course (Ship Course over Ground, degree)\nship_heading (degree)\nair_temp (Air Temperature, degree_C)\nrh (Relative Humidity, percent)\nbaro_pressure (Barometric Pressure, hPa)\ninsolation (Shortwave Flux, W m-2)\nrain_rate (MM' 'Hour-1)\nwind_speed (m s-1)\nwind_direction (degree)\nwind_u (east component of the wind, m s-1)\nwind_v (north component of the wind, m s-1)\nrelative_wind_speed (Wind Speed Relative to Ship, m s-1)\nrelative_wind_direction (Wind Direction Relative to Ship, degree)\ncn (Particle number concentration, cm-3)\nufcn (Ultrafine particle number concentration, cm-3)\n... (36 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_CalNex_Atlantis_main_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_CalNex_Atlantis_main_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_CalNex_Atlantis_main/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_CalNex_Atlantis_main.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_CalNex_Atlantis_main&showErrors=false&email=	NOAA	ACG_CalNex_Atlantis_main
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_CalNex_Atlantis_aerosol_sizedist_aps.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_CalNex_Atlantis_aerosol_sizedist_aps	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_CalNex_Atlantis_aerosol_sizedist_aps.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_CalNex_Atlantis_aerosol_sizedist_aps/	PMEL Atmospheric Chemistry CalNex Aerosol Size Distribution (APS) data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (16 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_CalNex_Atlantis_aerosol_sizedist_aps_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_CalNex_Atlantis_aerosol_sizedist_aps_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_CalNex_Atlantis_aerosol_sizedist_aps/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_CalNex_Atlantis_aerosol_sizedist_aps.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_CalNex_Atlantis_aerosol_sizedist_aps&showErrors=false&email=	NOAA	ACG_CalNex_Atlantis_aerosol_sizedist_aps
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_CalNex_Atlantis_aerosol_sizedist_dmps.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_CalNex_Atlantis_aerosol_sizedist_dmps	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_CalNex_Atlantis_aerosol_sizedist_dmps.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_CalNex_Atlantis_aerosol_sizedist_dmps/	PMEL Atmospheric Chemistry CalNex Aerosol Size Distribution (DMPS) data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (16 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_CalNex_Atlantis_aerosol_sizedist_dmps_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_CalNex_Atlantis_aerosol_sizedist_dmps_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_CalNex_Atlantis_aerosol_sizedist_dmps/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_CalNex_Atlantis_aerosol_sizedist_dmps.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_CalNex_Atlantis_aerosol_sizedist_dmps&showErrors=false&email=	NOAA	ACG_CalNex_Atlantis_aerosol_sizedist_dmps
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_CalNex_Atlantis_aerosol_sizedist.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_CalNex_Atlantis_aerosol_sizedist	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_CalNex_Atlantis_aerosol_sizedist.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_CalNex_Atlantis_aerosol_sizedist/	PMEL Atmospheric Chemistry CalNex Aerosol Size Distribution data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (25 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_CalNex_Atlantis_aerosol_sizedist_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_CalNex_Atlantis_aerosol_sizedist_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_CalNex_Atlantis_aerosol_sizedist/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_CalNex_Atlantis_aerosol_sizedist.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_CalNex_Atlantis_aerosol_sizedist&showErrors=false&email=	NOAA	ACG_CalNex_Atlantis_aerosol_sizedist
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_CalNex_Atlantis_aod.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_CalNex_Atlantis_aod	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_CalNex_Atlantis_aod.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_CalNex_Atlantis_aod/	PMEL Atmospheric Chemistry CalNex AOD data	CalNex was a joint project of The California Air Resources Board (CARB), the National Oceanic and Atmospheric Administration (NOAA) and the California Energy Commission (CEC). This project was a joint field study of atmospheric processes over California and the eastern Pacific coastal region in 2010. The Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry Group made Aerosol chemical, physical, and optical measurements aboard the R/V Atlantis from May 14 through June 8, 2010.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\naod_380 (Aerosol Optical Depth at 380nm)\naod_440 (Aerosol Optical Depth at 440nm)\naod_500 (Aerosol Optical Depth at 500nm)\naod_675 (Aerosol Optical Depth at 675nm)\naod_870 (Aerosol Optical Depth at 870nm)\nair_mass (Integrated Air Density Along Solar Ray Path, atm)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_CalNex_Atlantis_aod_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_CalNex_Atlantis_aod_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_CalNex_Atlantis_aod/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_CalNex_Atlantis_aod.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_CalNex_Atlantis_aod&showErrors=false&email=	NOAA	ACG_CalNex_Atlantis_aod
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_CalNex_Atlantis_ccn.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_CalNex_Atlantis_ccn	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_CalNex_Atlantis_ccn.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_CalNex_Atlantis_ccn/	PMEL Atmospheric Chemistry CalNex CCN data	CalNex was a joint project of The California Air Resources Board (CARB), the National Oceanic and Atmospheric Administration (NOAA) and the California Energy Commission (CEC). This project was a joint field study of atmospheric processes over California and the eastern Pacific coastal region in 2010. The Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry Group made Aerosol chemical, physical, and optical measurements aboard the R/V Atlantis from May 14 through June 8, 2010.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nccn_ss (Supersaturation of CCN measurement, percent)\nccn (Cloud Condensation Nuclei Concentration at ccn_ss, cm-3)\nccn_cn_ratio (Ratio of CCN to CN)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_CalNex_Atlantis_ccn_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_CalNex_Atlantis_ccn_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_CalNex_Atlantis_ccn/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_CalNex_Atlantis_ccn.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_CalNex_Atlantis_ccn&showErrors=false&email=	NOAA	ACG_CalNex_Atlantis_ccn
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_CalNex_Atlantis_dms.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_CalNex_Atlantis_dms	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_CalNex_Atlantis_dms.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_CalNex_Atlantis_dms/	PMEL Atmospheric Chemistry CalNex DMS data	CalNex was a joint project of The California Air Resources Board (CARB), the National Oceanic and Atmospheric Administration (NOAA) and the California Energy Commission (CEC). This project was a joint field study of atmospheric processes over California and the eastern Pacific coastal region in 2010. The Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry Group made Aerosol chemical, physical, and optical measurements aboard the R/V Atlantis from May 14 through June 8, 2010.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\ndms_seawater (Seawater DMS concentration, nmol L-1)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_CalNex_Atlantis_dms_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_CalNex_Atlantis_dms_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_CalNex_Atlantis_dms/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_CalNex_Atlantis_dms.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_CalNex_Atlantis_dms&showErrors=false&email=	NOAA	ACG_CalNex_Atlantis_dms
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_CalNex_Atlantis_radon.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_CalNex_Atlantis_radon	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_CalNex_Atlantis_radon.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_CalNex_Atlantis_radon/	PMEL Atmospheric Chemistry CalNex Radon data	CalNex was a joint project of The California Air Resources Board (CARB), the National Oceanic and Atmospheric Administration (NOAA) and the California Energy Commission (CEC). This project was a joint field study of atmospheric processes over California and the eastern Pacific coastal region in 2010. The Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry Group made Aerosol chemical, physical, and optical measurements aboard the R/V Atlantis from May 14 through June 8, 2010.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nradon (mBq m-3)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_CalNex_Atlantis_radon_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_CalNex_Atlantis_radon_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_CalNex_Atlantis_radon/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_CalNex_Atlantis_radon.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_CalNex_Atlantis_radon&showErrors=false&email=	NOAA	ACG_CalNex_Atlantis_radon
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_DYNAMO_Revelle_chemistry.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_DYNAMO_Revelle_chemistry	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_DYNAMO_Revelle_chemistry.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_DYNAMO_Revelle_chemistry/	PMEL Atmospheric Chemistry DYNAMO Aerosol Chemistry data	The Dynamics of the Madden-Julian Oscillation (DYNAMO) field campaign took place in conjunction with the international Cooperative Indian Ocean Experiment on Intraseasonal Variability in the equatorial Indian Ocean during the boreal fall and winter of 2011/2012. As part of this project the Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry Group made measurements of aerosol properties in the atmosphere over in the Indian Ocean from September 29 to December 8, 2011.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nmid_time (midpoint Datetime UTC, seconds since 1970-01-01T00:00:00Z)\nend_time (endpoint Datetime UTC, seconds since 1970-01-01T00:00:00Z)\nIC_MSA_sub1 (Particulate MSA Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_MSA_super1 (Particulate MSA Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Cl_sub1 (Particulate Cl Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_Cl_super1 (Particulate Cl Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_NO3_sub1 (Particulate NO3 Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_NO3_super1 (Particulate NO3 Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_SO4_sub1 (Particulate SO4 Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_SO4_super1 (Particulate SO4 Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Oxalate_sub1 (Particulate Oxalate Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_Oxalate_super1 (Particulate Oxalate Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Na_sub1 (Particulate Na Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_Na_super1 (Particulate Na Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_NH4_sub1 (Particulate NH4 Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_NH4_super1 (Particulate NH4 Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\n... (6 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_DYNAMO_Revelle_chemistry_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_DYNAMO_Revelle_chemistry_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_DYNAMO_Revelle_chemistry/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_DYNAMO_Revelle_chemistry.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_DYNAMO_Revelle_chemistry&showErrors=false&email=	NOAA	ACG_DYNAMO_Revelle_chemistry
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_DYNAMO_Revelle_main.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_DYNAMO_Revelle_main	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_DYNAMO_Revelle_main.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_DYNAMO_Revelle_main/	PMEL Atmospheric Chemistry DYNAMO Aerosol Main Data, 1 min data	Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry DYNAMO Aerosol Main Data - 1 min data. The Dynamics of the Madden-Julian Oscillation (DYNAMO) field campaign took place in conjunction with the international Cooperative Indian Ocean Experiment on Intraseasonal Variability in the equatorial Indian Ocean during the boreal fall and winter of 2011/2012. As part of this project the PMEL Atmospheric Chemistry Group made measurements of aerosol properties in the atmosphere over in the Indian Ocean from September 29 to December 8, 2011.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nship_speed (Ship Speed over Ground, knots)\nship_course (Ship Course over Ground, degree)\nship_heading (degree)\nair_temp (Air Temperature, degree_C)\nrh (Relative Humidity, percent)\nbaro_pressure (Barometric Pressure, hPa)\ninsolation (Shortwave Flux, W m-2)\nrain_rate (MM' 'Hour-1)\nwind_speed (m s-1)\nwind_direction (degree)\nwind_u (east component of the wind, m s-1)\nwind_v (north component of the wind, m s-1)\nrelative_wind_speed (Wind Speed Relative to Ship, m s-1)\nrelative_wind_direction (Wind Direction Relative to Ship, degree)\ncn (Particle number concentration, cm-3)\nufcn (Ultrafine particle number concentration, cm-3)\n... (34 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_DYNAMO_Revelle_main_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_DYNAMO_Revelle_main_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_DYNAMO_Revelle_main/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_DYNAMO_Revelle_main.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_DYNAMO_Revelle_main&showErrors=false&email=	NOAA	ACG_DYNAMO_Revelle_main
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_DYNAMO_Revelle_aerosol_sizedist_aps.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_DYNAMO_Revelle_aerosol_sizedist_aps	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_DYNAMO_Revelle_aerosol_sizedist_aps.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_DYNAMO_Revelle_aerosol_sizedist_aps/	PMEL Atmospheric Chemistry DYNAMO Aerosol Size Distribution (APS) data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (16 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_DYNAMO_Revelle_aerosol_sizedist_aps_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_DYNAMO_Revelle_aerosol_sizedist_aps_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_DYNAMO_Revelle_aerosol_sizedist_aps/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_DYNAMO_Revelle_aerosol_sizedist_aps.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_DYNAMO_Revelle_aerosol_sizedist_aps&showErrors=false&email=	NOAA	ACG_DYNAMO_Revelle_aerosol_sizedist_aps
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_DYNAMO_Revelle_aerosol_sizedist_dmps.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_DYNAMO_Revelle_aerosol_sizedist_dmps	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_DYNAMO_Revelle_aerosol_sizedist_dmps.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_DYNAMO_Revelle_aerosol_sizedist_dmps/	PMEL Atmospheric Chemistry DYNAMO Aerosol Size Distribution (DMPS) data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (16 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_DYNAMO_Revelle_aerosol_sizedist_dmps_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_DYNAMO_Revelle_aerosol_sizedist_dmps_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_DYNAMO_Revelle_aerosol_sizedist_dmps/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_DYNAMO_Revelle_aerosol_sizedist_dmps.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_DYNAMO_Revelle_aerosol_sizedist_dmps&showErrors=false&email=	NOAA	ACG_DYNAMO_Revelle_aerosol_sizedist_dmps
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_DYNAMO_Revelle_aerosol_sizedist.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_DYNAMO_Revelle_aerosol_sizedist	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_DYNAMO_Revelle_aerosol_sizedist.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_DYNAMO_Revelle_aerosol_sizedist/	PMEL Atmospheric Chemistry DYNAMO Aerosol Size Distribution data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (19 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_DYNAMO_Revelle_aerosol_sizedist_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_DYNAMO_Revelle_aerosol_sizedist_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_DYNAMO_Revelle_aerosol_sizedist/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_DYNAMO_Revelle_aerosol_sizedist.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_DYNAMO_Revelle_aerosol_sizedist&showErrors=false&email=	NOAA	ACG_DYNAMO_Revelle_aerosol_sizedist
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_DYNAMO_Revelle_aod.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_DYNAMO_Revelle_aod	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_DYNAMO_Revelle_aod.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_DYNAMO_Revelle_aod/	PMEL Atmospheric Chemistry DYNAMO AOD data	The Dynamics of the Madden-Julian Oscillation (DYNAMO) field campaign took place in conjunction with the international Cooperative Indian Ocean Experiment on Intraseasonal Variability in the equatorial Indian Ocean during the boreal fall and winter of 2011/2012. As part of this project the Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry Group made measurements of aerosol properties in the atmosphere over in the Indian Ocean from September 29 to December 8, 2011.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\naod_380 (Aerosol Optical Depth at 380nm)\naod_440 (Aerosol Optical Depth at 440nm)\naod_500 (Aerosol Optical Depth at 500nm)\naod_675 (Aerosol Optical Depth at 675nm)\naod_870 (Aerosol Optical Depth at 870nm)\nair_mass (Integrated Air Density Along Solar Ray Path, atm)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_DYNAMO_Revelle_aod_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_DYNAMO_Revelle_aod_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_DYNAMO_Revelle_aod/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_DYNAMO_Revelle_aod.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_DYNAMO_Revelle_aod&showErrors=false&email=	NOAA	ACG_DYNAMO_Revelle_aod
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ICEALOT_Knorr_chemistry.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ICEALOT_Knorr_chemistry	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ICEALOT_Knorr_chemistry.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_ICEALOT_Knorr_chemistry/	PMEL Atmospheric Chemistry ICEALOT Aerosol Chemistry data	A NOAA Contribution for the International Polar Year 2008.\n\nThe International Chemistry Experiment in the Arctic Lower Troposphere (ICEALOT) was conducted in the North Atlantic and Arctic Oceans in March and April 2008 as part of the larger POLARCAT program. Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry Group made Aerosol chemical, physical, and optical measurements from March 19 to April 24 aboard the R/V Knorr during this project.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nmid_time (midpoint Datetime UTC, seconds since 1970-01-01T00:00:00Z)\nend_time (endpoint Datetime UTC, seconds since 1970-01-01T00:00:00Z)\nIC_MSA_sub1 (Particulate MSA Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_MSA_super1 (Particulate MSA Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Cl_sub1 (Particulate Cl Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_Cl_super1 (Particulate Cl Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Br_sub1 (Particulate Br Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_Br_super1 (Particulate Br Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_NO3_sub1 (Particulate NO3 Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_NO3_super1 (Particulate NO3 Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_SO4_sub1 (Particulate SO4 Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_SO4_super1 (Particulate SO4 Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Oxalate_sub1 (Particulate Oxalate Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_Oxalate_super1 (Particulate Oxalate Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Na_sub1 (Particulate Na Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\n... (11 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_ICEALOT_Knorr_chemistry_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_ICEALOT_Knorr_chemistry_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_ICEALOT_Knorr_chemistry/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_ICEALOT_Knorr_chemistry.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_ICEALOT_Knorr_chemistry&showErrors=false&email=	NOAA	ACG_ICEALOT_Knorr_chemistry
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ICEALOT_Knorr_main.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ICEALOT_Knorr_main	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ICEALOT_Knorr_main.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_ICEALOT_Knorr_main/	PMEL Atmospheric Chemistry ICEALOT Aerosol Main Data, 1 min data	Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry ICEALOT Aerosol Main Data - 1 min data. A NOAA Contribution for the International Polar Year 2008.\n\nThe International Chemistry Experiment in the Arctic Lower Troposphere (ICEALOT) was conducted in the North Atlantic and Arctic Oceans in March and April 2008 as part of the larger POLARCAT program. PMEL Atmospheric Chemistry Group made Aerosol chemical, physical, and optical measurements from March 19 to April 24 aboard the R/V Knorr during this project.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nship_speed (Ship Speed over Ground, knots)\nship_course (Ship Course over Ground, degree)\nship_heading (degree)\nair_temp (Air Temperature, degree_C)\nrh (Relative Humidity, percent)\nbaro_pressure (Barometric Pressure, hPa)\ninsolation (Shortwave Flux, W m-2)\nrain_rate (MM' 'Hour-1)\nwind_speed (m s-1)\nwind_direction (degree)\nwind_u (east component of the wind, m s-1)\nwind_v (north component of the wind, m s-1)\nrelative_wind_speed (Wind Speed Relative to Ship, m s-1)\nrelative_wind_direction (Wind Direction Relative to Ship, degree)\ncn (Particle number concentration, cm-3)\n... (33 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_ICEALOT_Knorr_main_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_ICEALOT_Knorr_main_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_ICEALOT_Knorr_main/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_ICEALOT_Knorr_main.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_ICEALOT_Knorr_main&showErrors=false&email=	NOAA	ACG_ICEALOT_Knorr_main
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ICEALOT_Knorr_aerosol_sizedist_aps.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ICEALOT_Knorr_aerosol_sizedist_aps	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ICEALOT_Knorr_aerosol_sizedist_aps.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_ICEALOT_Knorr_aerosol_sizedist_aps/	PMEL Atmospheric Chemistry ICEALOT Aerosol Size Distribution (APS) data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (16 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_ICEALOT_Knorr_aerosol_sizedist_aps_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_ICEALOT_Knorr_aerosol_sizedist_aps_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_ICEALOT_Knorr_aerosol_sizedist_aps/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_ICEALOT_Knorr_aerosol_sizedist_aps.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_ICEALOT_Knorr_aerosol_sizedist_aps&showErrors=false&email=	NOAA	ACG_ICEALOT_Knorr_aerosol_sizedist_aps
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ICEALOT_Knorr_aerosol_sizedist_dmps.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ICEALOT_Knorr_aerosol_sizedist_dmps	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ICEALOT_Knorr_aerosol_sizedist_dmps.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_ICEALOT_Knorr_aerosol_sizedist_dmps/	PMEL Atmospheric Chemistry ICEALOT Aerosol Size Distribution (DMPS) data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (16 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_ICEALOT_Knorr_aerosol_sizedist_dmps_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_ICEALOT_Knorr_aerosol_sizedist_dmps_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_ICEALOT_Knorr_aerosol_sizedist_dmps/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_ICEALOT_Knorr_aerosol_sizedist_dmps.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_ICEALOT_Knorr_aerosol_sizedist_dmps&showErrors=false&email=	NOAA	ACG_ICEALOT_Knorr_aerosol_sizedist_dmps
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ICEALOT_Knorr_aerosol_sizedist.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ICEALOT_Knorr_aerosol_sizedist	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ICEALOT_Knorr_aerosol_sizedist.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_ICEALOT_Knorr_aerosol_sizedist/	PMEL Atmospheric Chemistry ICEALOT Aerosol Size Distribution data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (25 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_ICEALOT_Knorr_aerosol_sizedist_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_ICEALOT_Knorr_aerosol_sizedist_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_ICEALOT_Knorr_aerosol_sizedist/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_ICEALOT_Knorr_aerosol_sizedist.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_ICEALOT_Knorr_aerosol_sizedist&showErrors=false&email=	NOAA	ACG_ICEALOT_Knorr_aerosol_sizedist
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ICEALOT_Knorr_aod3774.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ICEALOT_Knorr_aod3774	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ICEALOT_Knorr_aod3774.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_ICEALOT_Knorr_aod3774/	PMEL Atmospheric Chemistry ICEALOT AOD(3774) data	A NOAA Contribution for the International Polar Year 2008.\n\nThe International Chemistry Experiment in the Arctic Lower Troposphere (ICEALOT) was conducted in the North Atlantic and Arctic Oceans in March and April 2008 as part of the larger POLARCAT program. Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry Group made Aerosol chemical, physical, and optical measurements from March 19 to April 24 aboard the R/V Knorr during this project.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\naod_380 (Aerosol Optical Depth at 380nm)\naod_440 (Aerosol Optical Depth at 440nm)\naod_500 (Aerosol Optical Depth at 500nm)\naod_675 (Aerosol Optical Depth at 675nm)\nair_mass (Integrated Air Density Along Solar Ray Path, atm)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_ICEALOT_Knorr_aod3774_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_ICEALOT_Knorr_aod3774_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_ICEALOT_Knorr_aod3774/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_ICEALOT_Knorr_aod3774.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_ICEALOT_Knorr_aod3774&showErrors=false&email=	NOAA	ACG_ICEALOT_Knorr_aod3774
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ICEALOT_Knorr_aod3803.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ICEALOT_Knorr_aod3803	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ICEALOT_Knorr_aod3803.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_ICEALOT_Knorr_aod3803/	PMEL Atmospheric Chemistry ICEALOT AOD(3803) data	A NOAA Contribution for the International Polar Year 2008.\n\nThe International Chemistry Experiment in the Arctic Lower Troposphere (ICEALOT) was conducted in the North Atlantic and Arctic Oceans in March and April 2008 as part of the larger POLARCAT program. Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry Group made Aerosol chemical, physical, and optical measurements from March 19 to April 24 aboard the R/V Knorr during this project.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\naod_380 (Aerosol Optical Depth at 380nm)\naod_440 (Aerosol Optical Depth at 440nm)\naod_500 (Aerosol Optical Depth at 500nm)\naod_675 (Aerosol Optical Depth at 675nm)\naod_870 (Aerosol Optical Depth at 870nm)\nair_mass (Integrated Air Density Along Solar Ray Path, atm)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_ICEALOT_Knorr_aod3803_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_ICEALOT_Knorr_aod3803_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_ICEALOT_Knorr_aod3803/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_ICEALOT_Knorr_aod3803.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_ICEALOT_Knorr_aod3803&showErrors=false&email=	NOAA	ACG_ICEALOT_Knorr_aod3803
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ICEALOT_Knorr_aod4080.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ICEALOT_Knorr_aod4080	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ICEALOT_Knorr_aod4080.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_ICEALOT_Knorr_aod4080/	PMEL Atmospheric Chemistry ICEALOT AOD(4080) data	A NOAA Contribution for the International Polar Year 2008.\n\nThe International Chemistry Experiment in the Arctic Lower Troposphere (ICEALOT) was conducted in the North Atlantic and Arctic Oceans in March and April 2008 as part of the larger POLARCAT program. Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry Group made Aerosol chemical, physical, and optical measurements from March 19 to April 24 aboard the R/V Knorr during this project.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\naod_380 (Aerosol Optical Depth at 380nm)\naod_440 (Aerosol Optical Depth at 440nm)\naod_500 (Aerosol Optical Depth at 500nm)\naod_675 (Aerosol Optical Depth at 675nm)\naod_870 (Aerosol Optical Depth at 870nm)\nair_mass (Integrated Air Density Along Solar Ray Path, atm)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_ICEALOT_Knorr_aod4080_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_ICEALOT_Knorr_aod4080_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_ICEALOT_Knorr_aod4080/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_ICEALOT_Knorr_aod4080.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_ICEALOT_Knorr_aod4080&showErrors=false&email=	NOAA	ACG_ICEALOT_Knorr_aod4080
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ICEALOT_Knorr_ccn.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ICEALOT_Knorr_ccn	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ICEALOT_Knorr_ccn.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_ICEALOT_Knorr_ccn/	PMEL Atmospheric Chemistry ICEALOT CCN data	A NOAA Contribution for the International Polar Year 2008.\n\nThe International Chemistry Experiment in the Arctic Lower Troposphere (ICEALOT) was conducted in the North Atlantic and Arctic Oceans in March and April 2008 as part of the larger POLARCAT program. Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry Group made Aerosol chemical, physical, and optical measurements from March 19 to April 24 aboard the R/V Knorr during this project.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nccn_ss (Supersaturation of CCN measurement, percent)\nccn (Cloud Condensation Nuclei Concentration at ccn_ss, cm-3)\nccn_cn_ratio (Ratio of CCN to CN)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_ICEALOT_Knorr_ccn_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_ICEALOT_Knorr_ccn_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_ICEALOT_Knorr_ccn/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_ICEALOT_Knorr_ccn.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_ICEALOT_Knorr_ccn&showErrors=false&email=	NOAA	ACG_ICEALOT_Knorr_ccn
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ICEALOT_Knorr_dms.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ICEALOT_Knorr_dms	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ICEALOT_Knorr_dms.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_ICEALOT_Knorr_dms/	PMEL Atmospheric Chemistry ICEALOT DMS data	A NOAA Contribution for the International Polar Year 2008.\n\nThe International Chemistry Experiment in the Arctic Lower Troposphere (ICEALOT) was conducted in the North Atlantic and Arctic Oceans in March and April 2008 as part of the larger POLARCAT program. Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry Group made Aerosol chemical, physical, and optical measurements from March 19 to April 24 aboard the R/V Knorr during this project.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\ndms_seawater (Seawater DMS concentration, nmol L-1)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_ICEALOT_Knorr_dms_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_ICEALOT_Knorr_dms_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_ICEALOT_Knorr_dms/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_ICEALOT_Knorr_dms.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_ICEALOT_Knorr_dms&showErrors=false&email=	NOAA	ACG_ICEALOT_Knorr_dms
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ICEALOT_Knorr_radon.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ICEALOT_Knorr_radon	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_ICEALOT_Knorr_radon.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_ICEALOT_Knorr_radon/	PMEL Atmospheric Chemistry ICEALOT Radon data	A NOAA Contribution for the International Polar Year 2008.\n\nThe International Chemistry Experiment in the Arctic Lower Troposphere (ICEALOT) was conducted in the North Atlantic and Arctic Oceans in March and April 2008 as part of the larger POLARCAT program. Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry Group made Aerosol chemical, physical, and optical measurements from March 19 to April 24 aboard the R/V Knorr during this project.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nradon (mBq m-3)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_ICEALOT_Knorr_radon_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_ICEALOT_Knorr_radon_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_ICEALOT_Knorr_radon/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_ICEALOT_Knorr_radon.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_ICEALOT_Knorr_radon&showErrors=false&email=	NOAA	ACG_ICEALOT_Knorr_radon
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-1_Atlantis_chemistry.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-1_Atlantis_chemistry	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-1_Atlantis_chemistry.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NAAMES-1_Atlantis_chemistry/	PMEL Atmospheric Chemistry NAAMES-1 Aerosol Chemistry data	The North Atlantic Aerosols and Marine Ecosystems Study (NAAMES) is an interdisciplinary investigation resolving key processes controlling marine ecosystems and aerosols that are essential to our understanding of Earth system function and future change.\n\nNAAMES is a five year investigation to resolve key processes controlling ocean system function, their influences on atmospheric aerosols and clouds and their implications for climate. Observations obtained during four, targeted ship and aircraft measurement campaigns, combined with the continuous satellite and in situ ocean sensor records, will enable improved predictive capabilities of Earth system processes and will inform ocean management and assessment of ecosystem change.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nmid_time (midpoint Datetime UTC, seconds since 1970-01-01T00:00:00Z)\nend_time (endpoint Datetime UTC, seconds since 1970-01-01T00:00:00Z)\nIC_Cl_sub1 (Particulate Cl Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_Cl_super1 (Particulate Cl Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_NO3_sub1 (Particulate NO3 Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_NO3_super1 (Particulate NO3 Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_SO4_sub1 (Particulate SO4 Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_SO4_super1 (Particulate SO4 Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Na_sub1 (Particulate Na Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_Na_super1 (Particulate Na Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_NH4_sub1 (Particulate NH4 Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_NH4_super1 (Particulate NH4 Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\n... (9 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NAAMES-1_Atlantis_chemistry_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NAAMES-1_Atlantis_chemistry_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NAAMES-1_Atlantis_chemistry/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NAAMES-1_Atlantis_chemistry.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NAAMES-1_Atlantis_chemistry&showErrors=false&email=	NOAA	ACG_NAAMES-1_Atlantis_chemistry
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-1_Atlantis_main.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-1_Atlantis_main	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-1_Atlantis_main.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NAAMES-1_Atlantis_main/	PMEL Atmospheric Chemistry NAAMES-1 Aerosol Main Data, 1 min data	Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry NAAMES-1 Aerosol Main Data - 1 min data. The North Atlantic Aerosols and Marine Ecosystems Study (NAAMES) is an interdisciplinary investigation resolving key processes controlling marine ecosystems and aerosols that are essential to our understanding of Earth system function and future change.\n\nNAAMES is a five year investigation to resolve key processes controlling ocean system function, their influences on atmospheric aerosols and clouds and their implications for climate. Observations obtained during four, targeted ship and aircraft measurement campaigns, combined with the continuous satellite and in situ ocean sensor records, will enable improved predictive capabilities of Earth system processes and will inform ocean management and assessment of ecosystem change.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nship_speed (Ship Speed over Ground, knots)\nship_course (Ship Course over Ground, degree)\nship_heading (degree)\nair_temp (Air Temperature, degree_C)\nrh (Relative Humidity, percent)\nbaro_pressure (Barometric Pressure, hPa)\ninsolation (Shortwave Flux, W m-2)\nrain_rate (MM' 'Hour-1)\nwind_speed (m s-1)\nwind_direction (degree)\nwind_u (east component of the wind, m s-1)\n... (21 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NAAMES-1_Atlantis_main_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NAAMES-1_Atlantis_main_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NAAMES-1_Atlantis_main/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NAAMES-1_Atlantis_main.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NAAMES-1_Atlantis_main&showErrors=false&email=	NOAA	ACG_NAAMES-1_Atlantis_main
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-1_Atlantis_aerosol_sizedist_aps_dry.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-1_Atlantis_aerosol_sizedist_aps_dry	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-1_Atlantis_aerosol_sizedist_aps_dry.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NAAMES-1_Atlantis_aerosol_sizedist_aps_dry/	PMEL Atmospheric Chemistry NAAMES-1 Aerosol Size Distribution (APS), DRY data	Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry NAAMES-1 Aerosol Size Distribution (APS) - DRY data\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ndiameter_aero (midpoint Diameter(aerodynamic), micrometers)\ntrajectory_id\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\ndNdlogDp (Normalized particle number size distribution (Log-normal), micrometer-1 cm-3)\ndlogDp (diameter bin width, micrometer)\ndN (Particle number size distribution, cm-3)\ndSdlogDp (Normalized particle surface area distribution (Log-normal), micrometer2 micrometer-1 cm-3)\ndS (Particle surface area size distribution, micrometer2 cm-3)\ndVdlogDp (Normalized Particle volume distribution (Log-normal), micrometer3 micrometer-1 cm-3)\ndV (Particle volume size distribution, micrometer3 cm-3)\nduration (second)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NAAMES-1_Atlantis_aerosol_sizedist_aps_dry_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NAAMES-1_Atlantis_aerosol_sizedist_aps_dry_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NAAMES-1_Atlantis_aerosol_sizedist_aps_dry/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NAAMES-1_Atlantis_aerosol_sizedist_aps_dry.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NAAMES-1_Atlantis_aerosol_sizedist_aps_dry&showErrors=false&email=	NOAA	ACG_NAAMES-1_Atlantis_aerosol_sizedist_aps_dry
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-1_Atlantis_aerosol_sizedist_aps.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-1_Atlantis_aerosol_sizedist_aps	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-1_Atlantis_aerosol_sizedist_aps.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NAAMES-1_Atlantis_aerosol_sizedist_aps/	PMEL Atmospheric Chemistry NAAMES-1 Aerosol Size Distribution (APS), RH60 data	Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry NAAMES-1 Aerosol Size Distribution (APS) - RH60 data. PMEL Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (13 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NAAMES-1_Atlantis_aerosol_sizedist_aps_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NAAMES-1_Atlantis_aerosol_sizedist_aps_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NAAMES-1_Atlantis_aerosol_sizedist_aps/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NAAMES-1_Atlantis_aerosol_sizedist_aps.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NAAMES-1_Atlantis_aerosol_sizedist_aps&showErrors=false&email=	NOAA	ACG_NAAMES-1_Atlantis_aerosol_sizedist_aps
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-1_Atlantis_aerosol_sizedist_dmps_dry.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-1_Atlantis_aerosol_sizedist_dmps_dry	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-1_Atlantis_aerosol_sizedist_dmps_dry.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NAAMES-1_Atlantis_aerosol_sizedist_dmps_dry/	PMEL Atmospheric Chemistry NAAMES-1 Aerosol Size Distribution (DMPS), DRY data	Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry NAAMES-1 Aerosol Size Distribution (DMPS) - DRY data\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ndiameter (midpoint Diameter(Stokes), micrometers)\ntrajectory_id\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\ndNdlogDp (Normalized particle number size distribution (Log-normal), micrometer-1 cm-3)\ndlogDp (diameter bin width, micrometer)\ndN (Particle number size distribution, cm-3)\ndSdlogDp (Normalized particle surface area distribution (Log-normal), micrometer2 micrometer-1 cm-3)\ndS (Particle surface area size distribution, micrometer2 cm-3)\ndVdlogDp (Normalized Particle volume distribution (Log-normal), micrometer3 micrometer-1 cm-3)\ndV (Particle volume size distribution, micrometer3 cm-3)\nduration (second)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NAAMES-1_Atlantis_aerosol_sizedist_dmps_dry_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NAAMES-1_Atlantis_aerosol_sizedist_dmps_dry_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NAAMES-1_Atlantis_aerosol_sizedist_dmps_dry/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NAAMES-1_Atlantis_aerosol_sizedist_dmps_dry.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NAAMES-1_Atlantis_aerosol_sizedist_dmps_dry&showErrors=false&email=	NOAA	ACG_NAAMES-1_Atlantis_aerosol_sizedist_dmps_dry
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-1_Atlantis_aerosol_sizedist_dmps.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-1_Atlantis_aerosol_sizedist_dmps	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-1_Atlantis_aerosol_sizedist_dmps.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NAAMES-1_Atlantis_aerosol_sizedist_dmps/	PMEL Atmospheric Chemistry NAAMES-1 Aerosol Size Distribution (DMPS), RH60 data	Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry NAAMES-1 Aerosol Size Distribution (DMPS) - RH60 data. PMEL Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (13 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NAAMES-1_Atlantis_aerosol_sizedist_dmps_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NAAMES-1_Atlantis_aerosol_sizedist_dmps_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NAAMES-1_Atlantis_aerosol_sizedist_dmps/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NAAMES-1_Atlantis_aerosol_sizedist_dmps.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NAAMES-1_Atlantis_aerosol_sizedist_dmps&showErrors=false&email=	NOAA	ACG_NAAMES-1_Atlantis_aerosol_sizedist_dmps
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-1_Atlantis_aerosol_sizedist_dry.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-1_Atlantis_aerosol_sizedist_dry	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-1_Atlantis_aerosol_sizedist_dry.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NAAMES-1_Atlantis_aerosol_sizedist_dry/	PMEL Atmospheric Chemistry NAAMES-1 Aerosol Size Distribution, DRY data	Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry NAAMES-1 Aerosol Size Distribution - DRY data\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ndiameter (midpoint Diameter(Stokes), micrometers)\ntrajectory_id\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\ndNdlogDp (Normalized particle number size distribution (Log-normal), micrometer-1 cm-3)\ndlogDp (diameter bin width, micrometer)\ndN (Particle number size distribution, cm-3)\ndSdlogDp (Normalized particle surface area distribution (Log-normal), micrometer2 micrometer-1 cm-3)\ndS (Particle surface area size distribution, micrometer2 cm-3)\ndVdlogDp (Normalized Particle volume distribution (Log-normal), micrometer3 micrometer-1 cm-3)\ndV (Particle volume size distribution, micrometer3 cm-3)\nintN (Integral Number Concentration, cm-3)\nintS (Integral Surface Area Concentration, micrometer2 cm-3)\nintV (Integral Volume Concentration, micrometer3 cm-3)\nduration (second)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NAAMES-1_Atlantis_aerosol_sizedist_dry_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NAAMES-1_Atlantis_aerosol_sizedist_dry_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NAAMES-1_Atlantis_aerosol_sizedist_dry/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NAAMES-1_Atlantis_aerosol_sizedist_dry.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NAAMES-1_Atlantis_aerosol_sizedist_dry&showErrors=false&email=	NOAA	ACG_NAAMES-1_Atlantis_aerosol_sizedist_dry
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-1_Atlantis_aerosol_sizedist.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-1_Atlantis_aerosol_sizedist	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-1_Atlantis_aerosol_sizedist.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NAAMES-1_Atlantis_aerosol_sizedist/	PMEL Atmospheric Chemistry NAAMES-1 Aerosol Size Distribution, RH60 data	Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry NAAMES-1 Aerosol Size Distribution - RH60 data. PMEL Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (16 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NAAMES-1_Atlantis_aerosol_sizedist_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NAAMES-1_Atlantis_aerosol_sizedist_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NAAMES-1_Atlantis_aerosol_sizedist/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NAAMES-1_Atlantis_aerosol_sizedist.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NAAMES-1_Atlantis_aerosol_sizedist&showErrors=false&email=	NOAA	ACG_NAAMES-1_Atlantis_aerosol_sizedist
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-1_Atlantis_ccn.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-1_Atlantis_ccn	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-1_Atlantis_ccn.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NAAMES-1_Atlantis_ccn/	PMEL Atmospheric Chemistry NAAMES-1 CCN data	The North Atlantic Aerosols and Marine Ecosystems Study (NAAMES) is an interdisciplinary investigation resolving key processes controlling marine ecosystems and aerosols that are essential to our understanding of Earth system function and future change.\n\nNAAMES is a five year investigation to resolve key processes controlling ocean system function, their influences on atmospheric aerosols and clouds and their implications for climate. Observations obtained during four, targeted ship and aircraft measurement campaigns, combined with the continuous satellite and in situ ocean sensor records, will enable improved predictive capabilities of Earth system processes and will inform ocean management and assessment of ecosystem change.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nccn_ss (Supersaturation of CCN measurement, percent)\nccn (Cloud Condensation Nuclei Concentration at ccn_ss, cm-3)\nccn_cn_ratio (Ratio of CCN to CN)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NAAMES-1_Atlantis_ccn_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NAAMES-1_Atlantis_ccn_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NAAMES-1_Atlantis_ccn/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NAAMES-1_Atlantis_ccn.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NAAMES-1_Atlantis_ccn&showErrors=false&email=	NOAA	ACG_NAAMES-1_Atlantis_ccn
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-1_Atlantis_radon.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-1_Atlantis_radon	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-1_Atlantis_radon.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NAAMES-1_Atlantis_radon/	PMEL Atmospheric Chemistry NAAMES-1 Radon data	The North Atlantic Aerosols and Marine Ecosystems Study (NAAMES) is an interdisciplinary investigation resolving key processes controlling marine ecosystems and aerosols that are essential to our understanding of Earth system function and future change.\n\nNAAMES is a five year investigation to resolve key processes controlling ocean system function, their influences on atmospheric aerosols and clouds and their implications for climate. Observations obtained during four, targeted ship and aircraft measurement campaigns, combined with the continuous satellite and in situ ocean sensor records, will enable improved predictive capabilities of Earth system processes and will inform ocean management and assessment of ecosystem change.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nradon (mBq m-3)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NAAMES-1_Atlantis_radon_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NAAMES-1_Atlantis_radon_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NAAMES-1_Atlantis_radon/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NAAMES-1_Atlantis_radon.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NAAMES-1_Atlantis_radon&showErrors=false&email=	NOAA	ACG_NAAMES-1_Atlantis_radon
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-2_Atlantis_chemistry.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-2_Atlantis_chemistry	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-2_Atlantis_chemistry.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NAAMES-2_Atlantis_chemistry/	PMEL Atmospheric Chemistry NAAMES-2 Aerosol Chemistry data	The North Atlantic Aerosols and Marine Ecosystems Study (NAAMES) is an interdisciplinary investigation resolving key processes controlling marine ecosystems and aerosols that are essential to our understanding of Earth system function and future change.\n\nNAAMES is a five year investigation to resolve key processes controlling ocean system function, their influences on atmospheric aerosols and clouds and their implications for climate. Observations obtained during four, targeted ship and aircraft measurement campaigns, combined with the continuous satellite and in situ ocean sensor records, will enable improved predictive capabilities of Earth system processes and will inform ocean management and assessment of ecosystem change.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nmid_time (midpoint Datetime UTC, seconds since 1970-01-01T00:00:00Z)\nend_time (endpoint Datetime UTC, seconds since 1970-01-01T00:00:00Z)\nIC_MSA_sub1 (Particulate MSA Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_MSA_super1 (Particulate MSA Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Cl_sub1 (Particulate Cl Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_Cl_super1 (Particulate Cl Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Br_sub1 (Particulate Br Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_Br_super1 (Particulate Br Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_NO3_sub1 (Particulate NO3 Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_NO3_super1 (Particulate NO3 Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_SO4_sub1 (Particulate SO4 Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_SO4_super1 (Particulate SO4 Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\n... (13 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NAAMES-2_Atlantis_chemistry_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NAAMES-2_Atlantis_chemistry_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NAAMES-2_Atlantis_chemistry/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NAAMES-2_Atlantis_chemistry.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NAAMES-2_Atlantis_chemistry&showErrors=false&email=	NOAA	ACG_NAAMES-2_Atlantis_chemistry
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-2_Atlantis_main.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-2_Atlantis_main	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-2_Atlantis_main.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NAAMES-2_Atlantis_main/	PMEL Atmospheric Chemistry NAAMES-2 Aerosol Main Data, 1 min data	Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry NAAMES-2 Aerosol Main Data - 1 min data. The North Atlantic Aerosols and Marine Ecosystems Study (NAAMES) is an interdisciplinary investigation resolving key processes controlling marine ecosystems and aerosols that are essential to our understanding of Earth system function and future change.\n\nNAAMES is a five year investigation to resolve key processes controlling ocean system function, their influences on atmospheric aerosols and clouds and their implications for climate. Observations obtained during four, targeted ship and aircraft measurement campaigns, combined with the continuous satellite and in situ ocean sensor records, will enable improved predictive capabilities of Earth system processes and will inform ocean management and assessment of ecosystem change.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nship_speed (Ship Speed over Ground, knots)\nship_course (Ship Course over Ground, degree)\nship_heading (degree)\nair_temp (Air Temperature, degree_C)\nrh (Relative Humidity, percent)\nbaro_pressure (Barometric Pressure, hPa)\ninsolation (Shortwave Flux, W m-2)\nrain_rate (MM' 'Hour-1)\nwind_speed (m s-1)\nwind_direction (degree)\nwind_u (east component of the wind, m s-1)\n... (22 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NAAMES-2_Atlantis_main_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NAAMES-2_Atlantis_main_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NAAMES-2_Atlantis_main/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NAAMES-2_Atlantis_main.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NAAMES-2_Atlantis_main&showErrors=false&email=	NOAA	ACG_NAAMES-2_Atlantis_main
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-2_Atlantis_aerosol_sizedist_aps.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-2_Atlantis_aerosol_sizedist_aps	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-2_Atlantis_aerosol_sizedist_aps.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NAAMES-2_Atlantis_aerosol_sizedist_aps/	PMEL Atmospheric Chemistry NAAMES-2 Aerosol Size Distribution (APS) data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (13 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NAAMES-2_Atlantis_aerosol_sizedist_aps_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NAAMES-2_Atlantis_aerosol_sizedist_aps_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NAAMES-2_Atlantis_aerosol_sizedist_aps/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NAAMES-2_Atlantis_aerosol_sizedist_aps.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NAAMES-2_Atlantis_aerosol_sizedist_aps&showErrors=false&email=	NOAA	ACG_NAAMES-2_Atlantis_aerosol_sizedist_aps
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-2_Atlantis_aerosol_sizedist_dmps.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-2_Atlantis_aerosol_sizedist_dmps	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-2_Atlantis_aerosol_sizedist_dmps.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NAAMES-2_Atlantis_aerosol_sizedist_dmps/	PMEL Atmospheric Chemistry NAAMES-2 Aerosol Size Distribution (DMPS) data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (13 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NAAMES-2_Atlantis_aerosol_sizedist_dmps_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NAAMES-2_Atlantis_aerosol_sizedist_dmps_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NAAMES-2_Atlantis_aerosol_sizedist_dmps/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NAAMES-2_Atlantis_aerosol_sizedist_dmps.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NAAMES-2_Atlantis_aerosol_sizedist_dmps&showErrors=false&email=	NOAA	ACG_NAAMES-2_Atlantis_aerosol_sizedist_dmps
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-2_Atlantis_aerosol_sizedist.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-2_Atlantis_aerosol_sizedist	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-2_Atlantis_aerosol_sizedist.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NAAMES-2_Atlantis_aerosol_sizedist/	PMEL Atmospheric Chemistry NAAMES-2 Aerosol Size Distribution data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (16 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NAAMES-2_Atlantis_aerosol_sizedist_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NAAMES-2_Atlantis_aerosol_sizedist_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NAAMES-2_Atlantis_aerosol_sizedist/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NAAMES-2_Atlantis_aerosol_sizedist.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NAAMES-2_Atlantis_aerosol_sizedist&showErrors=false&email=	NOAA	ACG_NAAMES-2_Atlantis_aerosol_sizedist
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-2_Atlantis_ccn.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-2_Atlantis_ccn	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-2_Atlantis_ccn.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NAAMES-2_Atlantis_ccn/	PMEL Atmospheric Chemistry NAAMES-2 CCN data	The North Atlantic Aerosols and Marine Ecosystems Study (NAAMES) is an interdisciplinary investigation resolving key processes controlling marine ecosystems and aerosols that are essential to our understanding of Earth system function and future change.\n\nNAAMES is a five year investigation to resolve key processes controlling ocean system function, their influences on atmospheric aerosols and clouds and their implications for climate. Observations obtained during four, targeted ship and aircraft measurement campaigns, combined with the continuous satellite and in situ ocean sensor records, will enable improved predictive capabilities of Earth system processes and will inform ocean management and assessment of ecosystem change.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nccn_ss (Supersaturation of CCN measurement, percent)\nccn (Cloud Condensation Nuclei Concentration at ccn_ss, cm-3)\nccn_cn_ratio (Ratio of CCN to CN)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NAAMES-2_Atlantis_ccn_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NAAMES-2_Atlantis_ccn_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NAAMES-2_Atlantis_ccn/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NAAMES-2_Atlantis_ccn.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NAAMES-2_Atlantis_ccn&showErrors=false&email=	NOAA	ACG_NAAMES-2_Atlantis_ccn
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-2_Atlantis_radon.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-2_Atlantis_radon	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-2_Atlantis_radon.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NAAMES-2_Atlantis_radon/	PMEL Atmospheric Chemistry NAAMES-2 Radon data	The North Atlantic Aerosols and Marine Ecosystems Study (NAAMES) is an interdisciplinary investigation resolving key processes controlling marine ecosystems and aerosols that are essential to our understanding of Earth system function and future change.\n\nNAAMES is a five year investigation to resolve key processes controlling ocean system function, their influences on atmospheric aerosols and clouds and their implications for climate. Observations obtained during four, targeted ship and aircraft measurement campaigns, combined with the continuous satellite and in situ ocean sensor records, will enable improved predictive capabilities of Earth system processes and will inform ocean management and assessment of ecosystem change.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nradon (mBq m-3)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NAAMES-2_Atlantis_radon_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NAAMES-2_Atlantis_radon_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NAAMES-2_Atlantis_radon/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NAAMES-2_Atlantis_radon.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NAAMES-2_Atlantis_radon&showErrors=false&email=	NOAA	ACG_NAAMES-2_Atlantis_radon
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-3_Atlantis_chemistry.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-3_Atlantis_chemistry	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-3_Atlantis_chemistry.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NAAMES-3_Atlantis_chemistry/	PMEL Atmospheric Chemistry NAAMES-3 Aerosol Chemistry data	The North Atlantic Aerosols and Marine Ecosystems Study (NAAMES) is an interdisciplinary investigation resolving key processes controlling marine ecosystems and aerosols that are essential to our understanding of Earth system function and future change.\n\nNAAMES is a five year investigation to resolve key processes controlling ocean system function, their influences on atmospheric aerosols and clouds and their implications for climate. Observations obtained during four, targeted ship and aircraft measurement campaigns, combined with the continuous satellite and in situ ocean sensor records, will enable improved predictive capabilities of Earth system processes and will inform ocean management and assessment of ecosystem change.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nmid_time (midpoint Datetime UTC, seconds since 1970-01-01T00:00:00Z)\nend_time (endpoint Datetime UTC, seconds since 1970-01-01T00:00:00Z)\nIC_MSA_sub1 (Particulate MSA Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_MSA_super1 (Particulate MSA Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Cl_sub1 (Particulate Cl Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_Cl_super1 (Particulate Cl Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Br_sub1 (Particulate Br Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_Br_super1 (Particulate Br Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_NO3_sub1 (Particulate NO3 Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_NO3_super1 (Particulate NO3 Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_SO4_sub1 (Particulate SO4 Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_SO4_super1 (Particulate SO4 Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\n... (13 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NAAMES-3_Atlantis_chemistry_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NAAMES-3_Atlantis_chemistry_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NAAMES-3_Atlantis_chemistry/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NAAMES-3_Atlantis_chemistry.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NAAMES-3_Atlantis_chemistry&showErrors=false&email=	NOAA	ACG_NAAMES-3_Atlantis_chemistry
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-3_Atlantis_main.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-3_Atlantis_main	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-3_Atlantis_main.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NAAMES-3_Atlantis_main/	PMEL Atmospheric Chemistry NAAMES-3 Aerosol Main Data, 1 min data	Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry NAAMES-3 Aerosol Main Data - 1 min data. The North Atlantic Aerosols and Marine Ecosystems Study (NAAMES) is an interdisciplinary investigation resolving key processes controlling marine ecosystems and aerosols that are essential to our understanding of Earth system function and future change.\n\nNAAMES is a five year investigation to resolve key processes controlling ocean system function, their influences on atmospheric aerosols and clouds and their implications for climate. Observations obtained during four, targeted ship and aircraft measurement campaigns, combined with the continuous satellite and in situ ocean sensor records, will enable improved predictive capabilities of Earth system processes and will inform ocean management and assessment of ecosystem change.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nship_speed (Ship Speed over Ground, knots)\nship_course (Ship Course over Ground, degree)\nship_heading (degree)\nair_temp (Air Temperature, degree_C)\nrh (Relative Humidity, percent)\nbaro_pressure (Barometric Pressure, hPa)\ninsolation (Shortwave Flux, W m-2)\nrain_rate (MM' 'Hour-1)\nwind_speed (m s-1)\nwind_direction (degree)\nwind_u (east component of the wind, m s-1)\n... (22 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NAAMES-3_Atlantis_main_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NAAMES-3_Atlantis_main_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NAAMES-3_Atlantis_main/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NAAMES-3_Atlantis_main.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NAAMES-3_Atlantis_main&showErrors=false&email=	NOAA	ACG_NAAMES-3_Atlantis_main
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-3_Atlantis_aerosol_sizedist_aps.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-3_Atlantis_aerosol_sizedist_aps	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-3_Atlantis_aerosol_sizedist_aps.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NAAMES-3_Atlantis_aerosol_sizedist_aps/	PMEL Atmospheric Chemistry NAAMES-3 Aerosol Size Distribution (APS) data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (13 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NAAMES-3_Atlantis_aerosol_sizedist_aps_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NAAMES-3_Atlantis_aerosol_sizedist_aps_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NAAMES-3_Atlantis_aerosol_sizedist_aps/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NAAMES-3_Atlantis_aerosol_sizedist_aps.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NAAMES-3_Atlantis_aerosol_sizedist_aps&showErrors=false&email=	NOAA	ACG_NAAMES-3_Atlantis_aerosol_sizedist_aps
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-3_Atlantis_aerosol_sizedist_dmps.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-3_Atlantis_aerosol_sizedist_dmps	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-3_Atlantis_aerosol_sizedist_dmps.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NAAMES-3_Atlantis_aerosol_sizedist_dmps/	PMEL Atmospheric Chemistry NAAMES-3 Aerosol Size Distribution (DMPS) data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (13 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NAAMES-3_Atlantis_aerosol_sizedist_dmps_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NAAMES-3_Atlantis_aerosol_sizedist_dmps_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NAAMES-3_Atlantis_aerosol_sizedist_dmps/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NAAMES-3_Atlantis_aerosol_sizedist_dmps.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NAAMES-3_Atlantis_aerosol_sizedist_dmps&showErrors=false&email=	NOAA	ACG_NAAMES-3_Atlantis_aerosol_sizedist_dmps
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-3_Atlantis_aerosol_sizedist.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-3_Atlantis_aerosol_sizedist	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-3_Atlantis_aerosol_sizedist.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NAAMES-3_Atlantis_aerosol_sizedist/	PMEL Atmospheric Chemistry NAAMES-3 Aerosol Size Distribution data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (16 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NAAMES-3_Atlantis_aerosol_sizedist_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NAAMES-3_Atlantis_aerosol_sizedist_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NAAMES-3_Atlantis_aerosol_sizedist/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NAAMES-3_Atlantis_aerosol_sizedist.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NAAMES-3_Atlantis_aerosol_sizedist&showErrors=false&email=	NOAA	ACG_NAAMES-3_Atlantis_aerosol_sizedist
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-3_Atlantis_ccn.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-3_Atlantis_ccn	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-3_Atlantis_ccn.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NAAMES-3_Atlantis_ccn/	PMEL Atmospheric Chemistry NAAMES-3 CCN data	The North Atlantic Aerosols and Marine Ecosystems Study (NAAMES) is an interdisciplinary investigation resolving key processes controlling marine ecosystems and aerosols that are essential to our understanding of Earth system function and future change.\n\nNAAMES is a five year investigation to resolve key processes controlling ocean system function, their influences on atmospheric aerosols and clouds and their implications for climate. Observations obtained during four, targeted ship and aircraft measurement campaigns, combined with the continuous satellite and in situ ocean sensor records, will enable improved predictive capabilities of Earth system processes and will inform ocean management and assessment of ecosystem change.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nccn_ss (Supersaturation of CCN measurement, percent)\nccn (Cloud Condensation Nuclei Concentration at ccn_ss, cm-3)\nccn_cn_ratio (Ratio of CCN to CN)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NAAMES-3_Atlantis_ccn_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NAAMES-3_Atlantis_ccn_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NAAMES-3_Atlantis_ccn/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NAAMES-3_Atlantis_ccn.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NAAMES-3_Atlantis_ccn&showErrors=false&email=	NOAA	ACG_NAAMES-3_Atlantis_ccn
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-3_Atlantis_radon.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-3_Atlantis_radon	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-3_Atlantis_radon.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NAAMES-3_Atlantis_radon/	PMEL Atmospheric Chemistry NAAMES-3 Radon data	The North Atlantic Aerosols and Marine Ecosystems Study (NAAMES) is an interdisciplinary investigation resolving key processes controlling marine ecosystems and aerosols that are essential to our understanding of Earth system function and future change.\n\nNAAMES is a five year investigation to resolve key processes controlling ocean system function, their influences on atmospheric aerosols and clouds and their implications for climate. Observations obtained during four, targeted ship and aircraft measurement campaigns, combined with the continuous satellite and in situ ocean sensor records, will enable improved predictive capabilities of Earth system processes and will inform ocean management and assessment of ecosystem change.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nradon (mBq m-3)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NAAMES-3_Atlantis_radon_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NAAMES-3_Atlantis_radon_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NAAMES-3_Atlantis_radon/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NAAMES-3_Atlantis_radon.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NAAMES-3_Atlantis_radon&showErrors=false&email=	NOAA	ACG_NAAMES-3_Atlantis_radon
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-4_Atlantis_chemistry.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-4_Atlantis_chemistry	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-4_Atlantis_chemistry.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NAAMES-4_Atlantis_chemistry/	PMEL Atmospheric Chemistry NAAMES-4 Aerosol Chemistry data	The North Atlantic Aerosols and Marine Ecosystems Study (NAAMES) is an interdisciplinary investigation resolving key processes controlling marine ecosystems and aerosols that are essential to our understanding of Earth system function and future change.\n\nNAAMES is a five year investigation to resolve key processes controlling ocean system function, their influences on atmospheric aerosols and clouds and their implications for climate. Observations obtained during four, targeted ship and aircraft measurement campaigns, combined with the continuous satellite and in situ ocean sensor records, will enable improved predictive capabilities of Earth system processes and will inform ocean management and assessment of ecosystem change.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nmid_time (midpoint Datetime UTC, seconds since 1970-01-01T00:00:00Z)\nend_time (endpoint Datetime UTC, seconds since 1970-01-01T00:00:00Z)\nIC_MSA_sub1 (Particulate MSA Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_MSA_super1 (Particulate MSA Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Cl_sub1 (Particulate Cl Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_Cl_super1 (Particulate Cl Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Br_sub1 (Particulate Br Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_Br_super1 (Particulate Br Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_NO3_sub1 (Particulate NO3 Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_NO3_super1 (Particulate NO3 Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_SO4_sub1 (Particulate SO4 Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_SO4_super1 (Particulate SO4 Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\n... (13 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NAAMES-4_Atlantis_chemistry_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NAAMES-4_Atlantis_chemistry_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NAAMES-4_Atlantis_chemistry/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NAAMES-4_Atlantis_chemistry.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NAAMES-4_Atlantis_chemistry&showErrors=false&email=	NOAA	ACG_NAAMES-4_Atlantis_chemistry
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-4_Atlantis_main.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-4_Atlantis_main	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-4_Atlantis_main.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NAAMES-4_Atlantis_main/	PMEL Atmospheric Chemistry NAAMES-4 Aerosol Main Data, 1 min data	Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry NAAMES-4 Aerosol Main Data - 1 min data. The North Atlantic Aerosols and Marine Ecosystems Study (NAAMES) is an interdisciplinary investigation resolving key processes controlling marine ecosystems and aerosols that are essential to our understanding of Earth system function and future change.\n\nNAAMES is a five year investigation to resolve key processes controlling ocean system function, their influences on atmospheric aerosols and clouds and their implications for climate. Observations obtained during four, targeted ship and aircraft measurement campaigns, combined with the continuous satellite and in situ ocean sensor records, will enable improved predictive capabilities of Earth system processes and will inform ocean management and assessment of ecosystem change.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nship_speed (Ship Speed over Ground, knots)\nship_course (Ship Course over Ground, degree)\nship_heading (degree)\nair_temp (Air Temperature, degree_C)\nrh (Relative Humidity, percent)\nbaro_pressure (Barometric Pressure, hPa)\ninsolation (Shortwave Flux, W m-2)\nrain_rate (MM' 'Hour-1)\nwind_speed (m s-1)\nwind_direction (degree)\nwind_u (east component of the wind, m s-1)\n... (22 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NAAMES-4_Atlantis_main_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NAAMES-4_Atlantis_main_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NAAMES-4_Atlantis_main/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NAAMES-4_Atlantis_main.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NAAMES-4_Atlantis_main&showErrors=false&email=	NOAA	ACG_NAAMES-4_Atlantis_main
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-4_Atlantis_aerosol_sizedist_aps.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-4_Atlantis_aerosol_sizedist_aps	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-4_Atlantis_aerosol_sizedist_aps.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NAAMES-4_Atlantis_aerosol_sizedist_aps/	PMEL Atmospheric Chemistry NAAMES-4 Aerosol Size Distribution (APS) data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (13 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NAAMES-4_Atlantis_aerosol_sizedist_aps_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NAAMES-4_Atlantis_aerosol_sizedist_aps_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NAAMES-4_Atlantis_aerosol_sizedist_aps/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NAAMES-4_Atlantis_aerosol_sizedist_aps.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NAAMES-4_Atlantis_aerosol_sizedist_aps&showErrors=false&email=	NOAA	ACG_NAAMES-4_Atlantis_aerosol_sizedist_aps
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-4_Atlantis_aerosol_sizedist_dmps.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-4_Atlantis_aerosol_sizedist_dmps	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-4_Atlantis_aerosol_sizedist_dmps.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NAAMES-4_Atlantis_aerosol_sizedist_dmps/	PMEL Atmospheric Chemistry NAAMES-4 Aerosol Size Distribution (DMPS) data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (13 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NAAMES-4_Atlantis_aerosol_sizedist_dmps_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NAAMES-4_Atlantis_aerosol_sizedist_dmps_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NAAMES-4_Atlantis_aerosol_sizedist_dmps/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NAAMES-4_Atlantis_aerosol_sizedist_dmps.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NAAMES-4_Atlantis_aerosol_sizedist_dmps&showErrors=false&email=	NOAA	ACG_NAAMES-4_Atlantis_aerosol_sizedist_dmps
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-4_Atlantis_aerosol_sizedist.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-4_Atlantis_aerosol_sizedist	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-4_Atlantis_aerosol_sizedist.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NAAMES-4_Atlantis_aerosol_sizedist/	PMEL Atmospheric Chemistry NAAMES-4 Aerosol Size Distribution data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (16 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NAAMES-4_Atlantis_aerosol_sizedist_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NAAMES-4_Atlantis_aerosol_sizedist_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NAAMES-4_Atlantis_aerosol_sizedist/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NAAMES-4_Atlantis_aerosol_sizedist.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NAAMES-4_Atlantis_aerosol_sizedist&showErrors=false&email=	NOAA	ACG_NAAMES-4_Atlantis_aerosol_sizedist
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-4_Atlantis_ccn.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-4_Atlantis_ccn	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-4_Atlantis_ccn.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NAAMES-4_Atlantis_ccn/	PMEL Atmospheric Chemistry NAAMES-4 CCN data	The North Atlantic Aerosols and Marine Ecosystems Study (NAAMES) is an interdisciplinary investigation resolving key processes controlling marine ecosystems and aerosols that are essential to our understanding of Earth system function and future change.\n\nNAAMES is a five year investigation to resolve key processes controlling ocean system function, their influences on atmospheric aerosols and clouds and their implications for climate. Observations obtained during four, targeted ship and aircraft measurement campaigns, combined with the continuous satellite and in situ ocean sensor records, will enable improved predictive capabilities of Earth system processes and will inform ocean management and assessment of ecosystem change.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nccn_ss (Supersaturation of CCN measurement, percent)\nccn (Cloud Condensation Nuclei Concentration at ccn_ss, cm-3)\nccn_cn_ratio (Ratio of CCN to CN)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NAAMES-4_Atlantis_ccn_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NAAMES-4_Atlantis_ccn_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NAAMES-4_Atlantis_ccn/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NAAMES-4_Atlantis_ccn.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NAAMES-4_Atlantis_ccn&showErrors=false&email=	NOAA	ACG_NAAMES-4_Atlantis_ccn
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-4_Atlantis_radon.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-4_Atlantis_radon	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NAAMES-4_Atlantis_radon.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NAAMES-4_Atlantis_radon/	PMEL Atmospheric Chemistry NAAMES-4 Radon data	The North Atlantic Aerosols and Marine Ecosystems Study (NAAMES) is an interdisciplinary investigation resolving key processes controlling marine ecosystems and aerosols that are essential to our understanding of Earth system function and future change.\n\nNAAMES is a five year investigation to resolve key processes controlling ocean system function, their influences on atmospheric aerosols and clouds and their implications for climate. Observations obtained during four, targeted ship and aircraft measurement campaigns, combined with the continuous satellite and in situ ocean sensor records, will enable improved predictive capabilities of Earth system processes and will inform ocean management and assessment of ecosystem change.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nradon (mBq m-3)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NAAMES-4_Atlantis_radon_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NAAMES-4_Atlantis_radon_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NAAMES-4_Atlantis_radon/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NAAMES-4_Atlantis_radon.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NAAMES-4_Atlantis_radon&showErrors=false&email=	NOAA	ACG_NAAMES-4_Atlantis_radon
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NEAQS-2002_RHBrown_chemistry.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NEAQS-2002_RHBrown_chemistry	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NEAQS-2002_RHBrown_chemistry.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NEAQS-2002_RHBrown_chemistry/	PMEL Atmospheric Chemistry NEAQS-2002 Aerosol Chemistry data	The New England Air Quality Study, NEAQS 2002 was conducted to assess the concentrations, transport and transformation of gases and aerosols in the marine boundary layer off the northeast coast of the United States. The Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry Group made Aerosol chemical, physical, and optical measurements aboard the NOAA R/V Ronald H. Brown off the coast of New England from July 12 through August 10, 2002.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nmid_time (midpoint Datetime UTC, seconds since 1970-01-01T00:00:00Z)\nend_time (endpoint Datetime UTC, seconds since 1970-01-01T00:00:00Z)\nIC_MSA_sub1 (Particulate MSA Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_MSA_super1 (Particulate MSA Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Cl_sub1 (Particulate Cl Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_Cl_super1 (Particulate Cl Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Br_sub1 (Particulate Br Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_Br_super1 (Particulate Br Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_NO3_sub1 (Particulate NO3 Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_NO3_super1 (Particulate NO3 Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_SO4_sub1 (Particulate SO4 Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_SO4_super1 (Particulate SO4 Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Oxalate_sub1 (Particulate Oxalate Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_Oxalate_super1 (Particulate Oxalate Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Na_sub1 (Particulate Na Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_Na_super1 (Particulate Na Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_NH4_sub1 (Particulate NH4 Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\n... (23 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NEAQS-2002_RHBrown_chemistry_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NEAQS-2002_RHBrown_chemistry_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NEAQS-2002_RHBrown_chemistry/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NEAQS-2002_RHBrown_chemistry.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NEAQS-2002_RHBrown_chemistry&showErrors=false&email=	NOAA	ACG_NEAQS-2002_RHBrown_chemistry
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NEAQS-2002_RHBrown_main.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NEAQS-2002_RHBrown_main	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NEAQS-2002_RHBrown_main.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NEAQS-2002_RHBrown_main/	PMEL Atmospheric Chemistry NEAQS-2002 Aerosol Main Data, 1 min data	Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry NEAQS-2002 Aerosol Main Data - 1 min data. The New England Air Quality Study, NEAQS 2002 was conducted to assess the concentrations, transport and transformation of gases and aerosols in the marine boundary layer off the northeast coast of the United States. The PMEL Atmospheric Chemistry Group made Aerosol chemical, physical, and optical measurements aboard the NOAA R/V Ronald H. Brown off the coast of New England from July 12 through August 10, 2002.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nship_speed (Ship Speed over Ground, knots)\nship_course (Ship Course over Ground, degree)\nair_temp (Air Temperature, degree_C)\nrh (Relative Humidity, percent)\nbaro_pressure (Barometric Pressure, hPa)\ninsolation (Shortwave Flux, W m-2)\nrain_rate (MM' 'Hour-1)\nwind_speed (m s-1)\nwind_direction (degree)\nrelative_wind_speed (Wind Speed Relative to Ship, m s-1)\nrelative_wind_direction (Wind Direction Relative to Ship, degree)\ncn (Particle number concentration, cm-3)\nufcn (Ultrafine particle number concentration, cm-3)\nsea_surface_temperature (degree_C)\nsalinity (Sea Surface Salinity, PSU)\nozone (Ozone Mixing Ratio, ppb)\n... (20 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NEAQS-2002_RHBrown_main_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NEAQS-2002_RHBrown_main_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NEAQS-2002_RHBrown_main/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NEAQS-2002_RHBrown_main.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NEAQS-2002_RHBrown_main&showErrors=false&email=	NOAA	ACG_NEAQS-2002_RHBrown_main
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NEAQS-2002_RHBrown_aod4080.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NEAQS-2002_RHBrown_aod4080	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NEAQS-2002_RHBrown_aod4080.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NEAQS-2002_RHBrown_aod4080/	PMEL Atmospheric Chemistry NEAQS-2002 AOD(4080) data	The New England Air Quality Study, NEAQS 2002 was conducted to assess the concentrations, transport and transformation of gases and aerosols in the marine boundary layer off the northeast coast of the United States. The Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry Group made Aerosol chemical, physical, and optical measurements aboard the NOAA R/V Ronald H. Brown off the coast of New England from July 12 through August 10, 2002.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\naod_380 (Aerosol Optical Depth at 380nm)\naod_440 (Aerosol Optical Depth at 440nm)\naod_500 (Aerosol Optical Depth at 500nm)\naod_675 (Aerosol Optical Depth at 675nm)\naod_870 (Aerosol Optical Depth at 870nm)\nair_mass (Integrated Air Density Along Solar Ray Path, atm)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NEAQS-2002_RHBrown_aod4080_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NEAQS-2002_RHBrown_aod4080_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NEAQS-2002_RHBrown_aod4080/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NEAQS-2002_RHBrown_aod4080.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NEAQS-2002_RHBrown_aod4080&showErrors=false&email=	NOAA	ACG_NEAQS-2002_RHBrown_aod4080
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NEAQS-2002_RHBrown_radon.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NEAQS-2002_RHBrown_radon	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NEAQS-2002_RHBrown_radon.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NEAQS-2002_RHBrown_radon/	PMEL Atmospheric Chemistry NEAQS-2002 Radon data	The New England Air Quality Study, NEAQS 2002 was conducted to assess the concentrations, transport and transformation of gases and aerosols in the marine boundary layer off the northeast coast of the United States. The Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry Group made Aerosol chemical, physical, and optical measurements aboard the NOAA R/V Ronald H. Brown off the coast of New England from July 12 through August 10, 2002.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NEAQS-2002_RHBrown_radon_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NEAQS-2002_RHBrown_radon_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NEAQS-2002_RHBrown_radon/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NEAQS-2002_RHBrown_radon.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NEAQS-2002_RHBrown_radon&showErrors=false&email=	NOAA	ACG_NEAQS-2002_RHBrown_radon
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NEAQS-2004_RHBrown_chemistry.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NEAQS-2004_RHBrown_chemistry	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NEAQS-2004_RHBrown_chemistry.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NEAQS-2004_RHBrown_chemistry/	PMEL Atmospheric Chemistry NEAQS-2004 Aerosol Chemistry data	The second New England Air Quality Study (NEAQS 2004) took place as part of the multiplatform International Consortium for Atmospheric Research on Transport and Transformation (ICARTT) activity during July and August 2004. NEAQS 2004 focused on emissions and meteorological and chemical processes that impact air quality and climate forcing in the New England region. \n\nThe Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry Group made Aerosol chemical, physical, and optical measurements aboard the NOAA R/V Ronald H. Brown off the coast of New England from July 5 through August 12, 2004.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nmid_time (midpoint Datetime UTC, seconds since 1970-01-01T00:00:00Z)\nend_time (endpoint Datetime UTC, seconds since 1970-01-01T00:00:00Z)\nIC_MSA_sub1 (Particulate MSA Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_MSA_super1 (Particulate MSA Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Cl_sub1 (Particulate Cl Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_Cl_super1 (Particulate Cl Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Br_sub1 (Particulate Br Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_Br_super1 (Particulate Br Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_NO3_sub1 (Particulate NO3 Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_NO3_super1 (Particulate NO3 Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_SO4_sub1 (Particulate SO4 Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_SO4_super1 (Particulate SO4 Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Oxalate_sub1 (Particulate Oxalate Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_Oxalate_super1 (Particulate Oxalate Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\n... (26 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NEAQS-2004_RHBrown_chemistry_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NEAQS-2004_RHBrown_chemistry_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NEAQS-2004_RHBrown_chemistry/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NEAQS-2004_RHBrown_chemistry.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NEAQS-2004_RHBrown_chemistry&showErrors=false&email=	NOAA	ACG_NEAQS-2004_RHBrown_chemistry
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NEAQS-2004_RHBrown_main.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NEAQS-2004_RHBrown_main	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NEAQS-2004_RHBrown_main.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NEAQS-2004_RHBrown_main/	PMEL Atmospheric Chemistry NEAQS-2004 Aerosol Main Data, 1 min data	Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry NEAQS-2004 Aerosol Main Data - 1 min data. The second New England Air Quality Study (NEAQS 2004) took place as part of the multiplatform International Consortium for Atmospheric Research on Transport and Transformation (ICARTT) activity during July and August 2004. NEAQS 2004 focused on emissions and meteorological and chemical processes that impact air quality and climate forcing in the New England region. \n\nThe PMEL Atmospheric Chemistry Group made Aerosol chemical, physical, and optical measurements aboard the NOAA R/V Ronald H. Brown off the coast of New England from July 5 through August 12, 2004.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nair_temp (Air Temperature, degree_C)\nrh (Relative Humidity, percent)\nbaro_pressure (Barometric Pressure, hPa)\ninsolation (Shortwave Flux, W m-2)\nrain_rate (MM' 'Hour-1)\nwind_speed (m s-1)\nwind_direction (degree)\nwind_u (east component of the wind, m s-1)\nwind_v (north component of the wind, m s-1)\ncn (Particle number concentration, cm-3)\nufcn (Ultrafine particle number concentration, cm-3)\nsea_surface_temperature (degree_C)\nsalinity (Sea Surface Salinity, PSU)\n... (14 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NEAQS-2004_RHBrown_main_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NEAQS-2004_RHBrown_main_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NEAQS-2004_RHBrown_main/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NEAQS-2004_RHBrown_main.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NEAQS-2004_RHBrown_main&showErrors=false&email=	NOAA	ACG_NEAQS-2004_RHBrown_main
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NEAQS-2004_RHBrown_aod3803.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NEAQS-2004_RHBrown_aod3803	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NEAQS-2004_RHBrown_aod3803.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NEAQS-2004_RHBrown_aod3803/	PMEL Atmospheric Chemistry NEAQS-2004 AOD(3803) data	The second New England Air Quality Study (NEAQS 2004) took place as part of the multiplatform International Consortium for Atmospheric Research on Transport and Transformation (ICARTT) activity during July and August 2004. NEAQS 2004 focused on emissions and meteorological and chemical processes that impact air quality and climate forcing in the New England region. \n\nThe Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry Group made Aerosol chemical, physical, and optical measurements aboard the NOAA R/V Ronald H. Brown off the coast of New England from July 5 through August 12, 2004.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\naod_380 (Aerosol Optical Depth at 380nm)\naod_440 (Aerosol Optical Depth at 440nm)\naod_500 (Aerosol Optical Depth at 500nm)\naod_675 (Aerosol Optical Depth at 675nm)\naod_870 (Aerosol Optical Depth at 870nm)\nair_mass (Integrated Air Density Along Solar Ray Path, atm)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NEAQS-2004_RHBrown_aod3803_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NEAQS-2004_RHBrown_aod3803_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NEAQS-2004_RHBrown_aod3803/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NEAQS-2004_RHBrown_aod3803.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NEAQS-2004_RHBrown_aod3803&showErrors=false&email=	NOAA	ACG_NEAQS-2004_RHBrown_aod3803
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NEAQS-2004_RHBrown_aod4080.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NEAQS-2004_RHBrown_aod4080	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NEAQS-2004_RHBrown_aod4080.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NEAQS-2004_RHBrown_aod4080/	PMEL Atmospheric Chemistry NEAQS-2004 AOD(4080) data	The second New England Air Quality Study (NEAQS 2004) took place as part of the multiplatform International Consortium for Atmospheric Research on Transport and Transformation (ICARTT) activity during July and August 2004. NEAQS 2004 focused on emissions and meteorological and chemical processes that impact air quality and climate forcing in the New England region. \n\nThe Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry Group made Aerosol chemical, physical, and optical measurements aboard the NOAA R/V Ronald H. Brown off the coast of New England from July 5 through August 12, 2004.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\naod_380 (Aerosol Optical Depth at 380nm)\naod_440 (Aerosol Optical Depth at 440nm)\naod_500 (Aerosol Optical Depth at 500nm)\naod_675 (Aerosol Optical Depth at 675nm)\naod_870 (Aerosol Optical Depth at 870nm)\nair_mass (Integrated Air Density Along Solar Ray Path, atm)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NEAQS-2004_RHBrown_aod4080_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NEAQS-2004_RHBrown_aod4080_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NEAQS-2004_RHBrown_aod4080/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NEAQS-2004_RHBrown_aod4080.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NEAQS-2004_RHBrown_aod4080&showErrors=false&email=	NOAA	ACG_NEAQS-2004_RHBrown_aod4080
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NEAQS-2004_RHBrown_aod5355.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NEAQS-2004_RHBrown_aod5355	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NEAQS-2004_RHBrown_aod5355.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NEAQS-2004_RHBrown_aod5355/	PMEL Atmospheric Chemistry NEAQS-2004 AOD(5355) data	The second New England Air Quality Study (NEAQS 2004) took place as part of the multiplatform International Consortium for Atmospheric Research on Transport and Transformation (ICARTT) activity during July and August 2004. NEAQS 2004 focused on emissions and meteorological and chemical processes that impact air quality and climate forcing in the New England region. \n\nThe Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry Group made Aerosol chemical, physical, and optical measurements aboard the NOAA R/V Ronald H. Brown off the coast of New England from July 5 through August 12, 2004.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\naod_380 (Aerosol Optical Depth at 380nm)\naod_440 (Aerosol Optical Depth at 440nm)\naod_500 (Aerosol Optical Depth at 500nm)\naod_675 (Aerosol Optical Depth at 675nm)\naod_870 (Aerosol Optical Depth at 870nm)\nair_mass (Integrated Air Density Along Solar Ray Path, atm)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NEAQS-2004_RHBrown_aod5355_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NEAQS-2004_RHBrown_aod5355_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NEAQS-2004_RHBrown_aod5355/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NEAQS-2004_RHBrown_aod5355.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NEAQS-2004_RHBrown_aod5355&showErrors=false&email=	NOAA	ACG_NEAQS-2004_RHBrown_aod5355
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NEAQS-2004_RHBrown_dms.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NEAQS-2004_RHBrown_dms	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NEAQS-2004_RHBrown_dms.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NEAQS-2004_RHBrown_dms/	PMEL Atmospheric Chemistry NEAQS-2004 DMS data	The second New England Air Quality Study (NEAQS 2004) took place as part of the multiplatform International Consortium for Atmospheric Research on Transport and Transformation (ICARTT) activity during July and August 2004. NEAQS 2004 focused on emissions and meteorological and chemical processes that impact air quality and climate forcing in the New England region. \n\nThe Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry Group made Aerosol chemical, physical, and optical measurements aboard the NOAA R/V Ronald H. Brown off the coast of New England from July 5 through August 12, 2004.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\ndms_seawater (Seawater DMS concentration, nmol L-1)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NEAQS-2004_RHBrown_dms_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NEAQS-2004_RHBrown_dms_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NEAQS-2004_RHBrown_dms/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NEAQS-2004_RHBrown_dms.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NEAQS-2004_RHBrown_dms&showErrors=false&email=	NOAA	ACG_NEAQS-2004_RHBrown_dms
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NEAQS-2004_RHBrown_radon.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NEAQS-2004_RHBrown_radon	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_NEAQS-2004_RHBrown_radon.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_NEAQS-2004_RHBrown_radon/	PMEL Atmospheric Chemistry NEAQS-2004 Radon data	The second New England Air Quality Study (NEAQS 2004) took place as part of the multiplatform International Consortium for Atmospheric Research on Transport and Transformation (ICARTT) activity during July and August 2004. NEAQS 2004 focused on emissions and meteorological and chemical processes that impact air quality and climate forcing in the New England region. \n\nThe Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry Group made Aerosol chemical, physical, and optical measurements aboard the NOAA R/V Ronald H. Brown off the coast of New England from July 5 through August 12, 2004.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nradon (mBq m-3)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_NEAQS-2004_RHBrown_radon_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_NEAQS-2004_RHBrown_radon_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_NEAQS-2004_RHBrown_radon/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_NEAQS-2004_RHBrown_radon.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_NEAQS-2004_RHBrown_radon&showErrors=false&email=	NOAA	ACG_NEAQS-2004_RHBrown_radon
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_TexAQS-GoMACCS_RHBrown_chemistry.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_TexAQS-GoMACCS_RHBrown_chemistry	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_TexAQS-GoMACCS_RHBrown_chemistry.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_TexAQS-GoMACCS_RHBrown_chemistry/	PMEL Atmospheric Chemistry TexAQS-GoMACCS Aerosol Chemistry data	From July 27 to September 11, 2006 the Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry Group made Aerosol chemical, physical, and optical measurements aboard the NOAA R/V Ronald H. Brown during the Texas Air Quality Study (TexAQS) and the Gulf of Mexico Atmospheric Composition and Climate Study (GoMACCS).\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nmid_time (midpoint Datetime UTC, seconds since 1970-01-01T00:00:00Z)\nend_time (endpoint Datetime UTC, seconds since 1970-01-01T00:00:00Z)\nIC_MSA_sub1 (Particulate MSA Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_MSA_super1 (Particulate MSA Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Cl_sub1 (Particulate Cl Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_Cl_super1 (Particulate Cl Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Br_sub1 (Particulate Br Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_Br_super1 (Particulate Br Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_NO3_sub1 (Particulate NO3 Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_NO3_super1 (Particulate NO3 Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_SO4_sub1 (Particulate SO4 Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_SO4_super1 (Particulate SO4 Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Oxalate_sub1 (Particulate Oxalate Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_Oxalate_super1 (Particulate Oxalate Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Na_sub1 (Particulate Na Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_Na_super1 (Particulate Na Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_NH4_sub1 (Particulate NH4 Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_NH4_super1 (Particulate NH4 Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\n... (21 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_TexAQS-GoMACCS_RHBrown_chemistry_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_TexAQS-GoMACCS_RHBrown_chemistry_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_TexAQS-GoMACCS_RHBrown_chemistry/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_TexAQS-GoMACCS_RHBrown_chemistry.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_TexAQS-GoMACCS_RHBrown_chemistry&showErrors=false&email=	NOAA	ACG_TexAQS-GoMACCS_RHBrown_chemistry
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_TexAQS-GoMACCS_RHBrown_main.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_TexAQS-GoMACCS_RHBrown_main	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_TexAQS-GoMACCS_RHBrown_main.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_TexAQS-GoMACCS_RHBrown_main/	PMEL Atmospheric Chemistry TexAQS-GoMACCS Aerosol Main Data, 1 min data	Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry TexAQS-GoMACCS Aerosol Main Data - 1 min data. From July 27 to September 11, 2006 the PMEL Atmospheric Chemistry Group made Aerosol chemical, physical, and optical measurements aboard the NOAA R/V Ronald H. Brown during the Texas Air Quality Study (TexAQS) and the Gulf of Mexico Atmospheric Composition and Climate Study (GoMACCS).\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nship_speed (Ship Speed over Ground, knots)\nship_course (Ship Course over Ground, degree)\nship_heading (degree)\nair_temp (Air Temperature, degree_C)\nrh (Relative Humidity, percent)\nbaro_pressure (Barometric Pressure, hPa)\ninsolation (Shortwave Flux, W m-2)\nrain_rate (MM' 'Hour-1)\nwind_speed (m s-1)\nwind_direction (degree)\nwind_u (east component of the wind, m s-1)\nwind_v (north component of the wind, m s-1)\nrelative_wind_speed (Wind Speed Relative to Ship, m s-1)\nrelative_wind_direction (Wind Direction Relative to Ship, degree)\ncn (Particle number concentration, cm-3)\nufcn (Ultrafine particle number concentration, cm-3)\nsea_surface_temperature (degree_C)\n... (34 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_TexAQS-GoMACCS_RHBrown_main_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_TexAQS-GoMACCS_RHBrown_main_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_TexAQS-GoMACCS_RHBrown_main/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_TexAQS-GoMACCS_RHBrown_main.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_TexAQS-GoMACCS_RHBrown_main&showErrors=false&email=	NOAA	ACG_TexAQS-GoMACCS_RHBrown_main
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_TexAQS-GoMACCS_RHBrown_aerosol_sizedist_aps.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_TexAQS-GoMACCS_RHBrown_aerosol_sizedist_aps	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_TexAQS-GoMACCS_RHBrown_aerosol_sizedist_aps.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_TexAQS-GoMACCS_RHBrown_aerosol_sizedist_aps/	PMEL Atmospheric Chemistry TexAQS-GoMACCS Aerosol Size Distribution (APS) data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (16 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_TexAQS-GoMACCS_RHBrown_aerosol_sizedist_aps_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_TexAQS-GoMACCS_RHBrown_aerosol_sizedist_aps_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_TexAQS-GoMACCS_RHBrown_aerosol_sizedist_aps/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_TexAQS-GoMACCS_RHBrown_aerosol_sizedist_aps.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_TexAQS-GoMACCS_RHBrown_aerosol_sizedist_aps&showErrors=false&email=	NOAA	ACG_TexAQS-GoMACCS_RHBrown_aerosol_sizedist_aps
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_TexAQS-GoMACCS_RHBrown_aerosol_sizedist_dmps.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_TexAQS-GoMACCS_RHBrown_aerosol_sizedist_dmps	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_TexAQS-GoMACCS_RHBrown_aerosol_sizedist_dmps.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_TexAQS-GoMACCS_RHBrown_aerosol_sizedist_dmps/	PMEL Atmospheric Chemistry TexAQS-GoMACCS Aerosol Size Distribution (DMPS) data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (16 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_TexAQS-GoMACCS_RHBrown_aerosol_sizedist_dmps_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_TexAQS-GoMACCS_RHBrown_aerosol_sizedist_dmps_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_TexAQS-GoMACCS_RHBrown_aerosol_sizedist_dmps/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_TexAQS-GoMACCS_RHBrown_aerosol_sizedist_dmps.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_TexAQS-GoMACCS_RHBrown_aerosol_sizedist_dmps&showErrors=false&email=	NOAA	ACG_TexAQS-GoMACCS_RHBrown_aerosol_sizedist_dmps
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_TexAQS-GoMACCS_RHBrown_aerosol_sizedist.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_TexAQS-GoMACCS_RHBrown_aerosol_sizedist	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_TexAQS-GoMACCS_RHBrown_aerosol_sizedist.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_TexAQS-GoMACCS_RHBrown_aerosol_sizedist/	PMEL Atmospheric Chemistry TexAQS-GoMACCS Aerosol Size Distribution data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (25 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_TexAQS-GoMACCS_RHBrown_aerosol_sizedist_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_TexAQS-GoMACCS_RHBrown_aerosol_sizedist_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_TexAQS-GoMACCS_RHBrown_aerosol_sizedist/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_TexAQS-GoMACCS_RHBrown_aerosol_sizedist.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_TexAQS-GoMACCS_RHBrown_aerosol_sizedist&showErrors=false&email=	NOAA	ACG_TexAQS-GoMACCS_RHBrown_aerosol_sizedist
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_TexAQS-GoMACCS_RHBrown_aod3803.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_TexAQS-GoMACCS_RHBrown_aod3803	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_TexAQS-GoMACCS_RHBrown_aod3803.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_TexAQS-GoMACCS_RHBrown_aod3803/	PMEL Atmospheric Chemistry TexAQS-GoMACCS AOD(3803) data	From July 27 to September 11, 2006 the Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry Group made Aerosol chemical, physical, and optical measurements aboard the NOAA R/V Ronald H. Brown during the Texas Air Quality Study (TexAQS) and the Gulf of Mexico Atmospheric Composition and Climate Study (GoMACCS).\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\naod_380 (Aerosol Optical Depth at 380nm)\naod_440 (Aerosol Optical Depth at 440nm)\naod_500 (Aerosol Optical Depth at 500nm)\naod_675 (Aerosol Optical Depth at 675nm)\naod_870 (Aerosol Optical Depth at 870nm)\nair_mass (Integrated Air Density Along Solar Ray Path, atm)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_TexAQS-GoMACCS_RHBrown_aod3803_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_TexAQS-GoMACCS_RHBrown_aod3803_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_TexAQS-GoMACCS_RHBrown_aod3803/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_TexAQS-GoMACCS_RHBrown_aod3803.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_TexAQS-GoMACCS_RHBrown_aod3803&showErrors=false&email=	NOAA	ACG_TexAQS-GoMACCS_RHBrown_aod3803
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_TexAQS-GoMACCS_RHBrown_aod4080.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_TexAQS-GoMACCS_RHBrown_aod4080	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_TexAQS-GoMACCS_RHBrown_aod4080.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_TexAQS-GoMACCS_RHBrown_aod4080/	PMEL Atmospheric Chemistry TexAQS-GoMACCS AOD(4080) data	From July 27 to September 11, 2006 the Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry Group made Aerosol chemical, physical, and optical measurements aboard the NOAA R/V Ronald H. Brown during the Texas Air Quality Study (TexAQS) and the Gulf of Mexico Atmospheric Composition and Climate Study (GoMACCS).\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\naod_380 (Aerosol Optical Depth at 380nm)\naod_440 (Aerosol Optical Depth at 440nm)\naod_500 (Aerosol Optical Depth at 500nm)\naod_675 (Aerosol Optical Depth at 675nm)\naod_870 (Aerosol Optical Depth at 870nm)\nair_mass (Integrated Air Density Along Solar Ray Path, atm)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_TexAQS-GoMACCS_RHBrown_aod4080_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_TexAQS-GoMACCS_RHBrown_aod4080_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_TexAQS-GoMACCS_RHBrown_aod4080/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_TexAQS-GoMACCS_RHBrown_aod4080.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_TexAQS-GoMACCS_RHBrown_aod4080&showErrors=false&email=	NOAA	ACG_TexAQS-GoMACCS_RHBrown_aod4080
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_TexAQS-GoMACCS_RHBrown_aod5355.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_TexAQS-GoMACCS_RHBrown_aod5355	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_TexAQS-GoMACCS_RHBrown_aod5355.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_TexAQS-GoMACCS_RHBrown_aod5355/	PMEL Atmospheric Chemistry TexAQS-GoMACCS AOD(5355) data	From July 27 to September 11, 2006 the Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry Group made Aerosol chemical, physical, and optical measurements aboard the NOAA R/V Ronald H. Brown during the Texas Air Quality Study (TexAQS) and the Gulf of Mexico Atmospheric Composition and Climate Study (GoMACCS).\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\naod_380 (Aerosol Optical Depth at 380nm)\naod_440 (Aerosol Optical Depth at 440nm)\naod_500 (Aerosol Optical Depth at 500nm)\naod_675 (Aerosol Optical Depth at 675nm)\naod_870 (Aerosol Optical Depth at 870nm)\nair_mass (Integrated Air Density Along Solar Ray Path, atm)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_TexAQS-GoMACCS_RHBrown_aod5355_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_TexAQS-GoMACCS_RHBrown_aod5355_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_TexAQS-GoMACCS_RHBrown_aod5355/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_TexAQS-GoMACCS_RHBrown_aod5355.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_TexAQS-GoMACCS_RHBrown_aod5355&showErrors=false&email=	NOAA	ACG_TexAQS-GoMACCS_RHBrown_aod5355
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_TexAQS-GoMACCS_RHBrown_ccn.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_TexAQS-GoMACCS_RHBrown_ccn	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_TexAQS-GoMACCS_RHBrown_ccn.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_TexAQS-GoMACCS_RHBrown_ccn/	PMEL Atmospheric Chemistry TexAQS-GoMACCS CCN data	From July 27 to September 11, 2006 the Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry Group made Aerosol chemical, physical, and optical measurements aboard the NOAA R/V Ronald H. Brown during the Texas Air Quality Study (TexAQS) and the Gulf of Mexico Atmospheric Composition and Climate Study (GoMACCS).\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nccn_ss (Supersaturation of CCN measurement, percent)\nccn (Cloud Condensation Nuclei Concentration at ccn_ss, cm-3)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_TexAQS-GoMACCS_RHBrown_ccn_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_TexAQS-GoMACCS_RHBrown_ccn_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_TexAQS-GoMACCS_RHBrown_ccn/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_TexAQS-GoMACCS_RHBrown_ccn.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_TexAQS-GoMACCS_RHBrown_ccn&showErrors=false&email=	NOAA	ACG_TexAQS-GoMACCS_RHBrown_ccn
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_TexAQS-GoMACCS_RHBrown_dms.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_TexAQS-GoMACCS_RHBrown_dms	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_TexAQS-GoMACCS_RHBrown_dms.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_TexAQS-GoMACCS_RHBrown_dms/	PMEL Atmospheric Chemistry TexAQS-GoMACCS DMS data	From July 27 to September 11, 2006 the Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry Group made Aerosol chemical, physical, and optical measurements aboard the NOAA R/V Ronald H. Brown during the Texas Air Quality Study (TexAQS) and the Gulf of Mexico Atmospheric Composition and Climate Study (GoMACCS).\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\ndms_seawater (Seawater DMS concentration, nmol L-1)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_TexAQS-GoMACCS_RHBrown_dms_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_TexAQS-GoMACCS_RHBrown_dms_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_TexAQS-GoMACCS_RHBrown_dms/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_TexAQS-GoMACCS_RHBrown_dms.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_TexAQS-GoMACCS_RHBrown_dms&showErrors=false&email=	NOAA	ACG_TexAQS-GoMACCS_RHBrown_dms
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_TexAQS-GoMACCS_RHBrown_radon.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_TexAQS-GoMACCS_RHBrown_radon	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_TexAQS-GoMACCS_RHBrown_radon.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_TexAQS-GoMACCS_RHBrown_radon/	PMEL Atmospheric Chemistry TexAQS-GoMACCS Radon data	From July 27 to September 11, 2006 the Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry Group made Aerosol chemical, physical, and optical measurements aboard the NOAA R/V Ronald H. Brown during the Texas Air Quality Study (TexAQS) and the Gulf of Mexico Atmospheric Composition and Climate Study (GoMACCS).\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nradon (mBq m-3)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_TexAQS-GoMACCS_RHBrown_radon_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_TexAQS-GoMACCS_RHBrown_radon_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_TexAQS-GoMACCS_RHBrown_radon/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_TexAQS-GoMACCS_RHBrown_radon.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_TexAQS-GoMACCS_RHBrown_radon&showErrors=false&email=	NOAA	ACG_TexAQS-GoMACCS_RHBrown_radon
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_VOCALS_RHBrown_chemistry.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_VOCALS_RHBrown_chemistry	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_VOCALS_RHBrown_chemistry.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_VOCALS_RHBrown_chemistry/	PMEL Atmospheric Chemistry VOCALS Aerosol Chemistry data	The VAMOS Ocean-Cloud-Atmosphere-Land Study - Regional Experiment (VOCALS-REx) is an international field experiment designed to better understand physical and chemical processes central to the climate system of the Southeast Pacific (SEP) region. The climate of the SEP region is a tightly coupled system involving poorly understood interactions between the ocean, the atmosphere, and the land. VOCALS-REx will focus on interactions between clouds, aerosols, marine boundary layer (MBL) processes, upper ocean dynamics and thermodynamics, coastal currents and upwelling, large-scale subsidence, and regional diurnal circulations, to the west of the Andes mountain range. The field experiment is ultimately driven by a need for improved model simulations of the coupled climate system in both the SEP and over the wider tropics and subtropics.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nmid_time (midpoint Datetime UTC, seconds since 1970-01-01T00:00:00Z)\nend_time (endpoint Datetime UTC, seconds since 1970-01-01T00:00:00Z)\nIC_MSA_sub1 (Particulate MSA Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_MSA_super1 (Particulate MSA Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Cl_sub1 (Particulate Cl Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_Cl_super1 (Particulate Cl Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Br_sub1 (Particulate Br Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_Br_super1 (Particulate Br Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_NO3_sub1 (Particulate NO3 Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_NO3_super1 (Particulate NO3 Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_SO4_sub1 (Particulate SO4 Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_SO4_super1 (Particulate SO4 Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Oxalate_sub1 (Particulate Oxalate Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\n... (13 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_VOCALS_RHBrown_chemistry_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_VOCALS_RHBrown_chemistry_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_VOCALS_RHBrown_chemistry/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_VOCALS_RHBrown_chemistry.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_VOCALS_RHBrown_chemistry&showErrors=false&email=	NOAA	ACG_VOCALS_RHBrown_chemistry
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_VOCALS_RHBrown_main.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_VOCALS_RHBrown_main	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_VOCALS_RHBrown_main.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_VOCALS_RHBrown_main/	PMEL Atmospheric Chemistry VOCALS Aerosol Main Data, 1 min data	Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry VOCALS Aerosol Main Data - 1 min data. The VAMOS Ocean-Cloud-Atmosphere-Land Study - Regional Experiment (VOCALS-REx) is an international field experiment designed to better understand physical and chemical processes central to the climate system of the Southeast Pacific (SEP) region. The climate of the SEP region is a tightly coupled system involving poorly understood interactions between the ocean, the atmosphere, and the land. VOCALS-REx will focus on interactions between clouds, aerosols, marine boundary layer (MBL) processes, upper ocean dynamics and thermodynamics, coastal currents and upwelling, large-scale subsidence, and regional diurnal circulations, to the west of the Andes mountain range. The field experiment is ultimately driven by a need for improved model simulations of the coupled climate system in both the SEP and over the wider tropics and subtropics.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nship_speed (Ship Speed over Ground, knots)\nship_course (Ship Course over Ground, degree)\nship_heading (degree)\nair_temp (Air Temperature, degree_C)\nrh (Relative Humidity, percent)\nbaro_pressure (Barometric Pressure, hPa)\ninsolation (Shortwave Flux, W m-2)\nwind_speed (m s-1)\nwind_direction (degree)\nwind_u (east component of the wind, m s-1)\nwind_v (north component of the wind, m s-1)\nrelative_wind_speed (Wind Speed Relative to Ship, m s-1)\n... (38 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_VOCALS_RHBrown_main_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_VOCALS_RHBrown_main_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_VOCALS_RHBrown_main/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_VOCALS_RHBrown_main.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_VOCALS_RHBrown_main&showErrors=false&email=	NOAA	ACG_VOCALS_RHBrown_main
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_VOCALS_RHBrown_aerosol_sizedist_aps.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_VOCALS_RHBrown_aerosol_sizedist_aps	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_VOCALS_RHBrown_aerosol_sizedist_aps.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_VOCALS_RHBrown_aerosol_sizedist_aps/	PMEL Atmospheric Chemistry VOCALS Aerosol Size Distribution (APS) data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (16 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_VOCALS_RHBrown_aerosol_sizedist_aps_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_VOCALS_RHBrown_aerosol_sizedist_aps_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_VOCALS_RHBrown_aerosol_sizedist_aps/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_VOCALS_RHBrown_aerosol_sizedist_aps.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_VOCALS_RHBrown_aerosol_sizedist_aps&showErrors=false&email=	NOAA	ACG_VOCALS_RHBrown_aerosol_sizedist_aps
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_VOCALS_RHBrown_aerosol_sizedist_dmps.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_VOCALS_RHBrown_aerosol_sizedist_dmps	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_VOCALS_RHBrown_aerosol_sizedist_dmps.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_VOCALS_RHBrown_aerosol_sizedist_dmps/	PMEL Atmospheric Chemistry VOCALS Aerosol Size Distribution (DMPS) data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (16 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_VOCALS_RHBrown_aerosol_sizedist_dmps_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_VOCALS_RHBrown_aerosol_sizedist_dmps_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_VOCALS_RHBrown_aerosol_sizedist_dmps/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_VOCALS_RHBrown_aerosol_sizedist_dmps.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_VOCALS_RHBrown_aerosol_sizedist_dmps&showErrors=false&email=	NOAA	ACG_VOCALS_RHBrown_aerosol_sizedist_dmps
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_VOCALS_RHBrown_aerosol_sizedist.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_VOCALS_RHBrown_aerosol_sizedist	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_VOCALS_RHBrown_aerosol_sizedist.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_VOCALS_RHBrown_aerosol_sizedist/	PMEL Atmospheric Chemistry VOCALS Aerosol Size Distribution data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (19 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_VOCALS_RHBrown_aerosol_sizedist_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_VOCALS_RHBrown_aerosol_sizedist_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_VOCALS_RHBrown_aerosol_sizedist/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_VOCALS_RHBrown_aerosol_sizedist.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_VOCALS_RHBrown_aerosol_sizedist&showErrors=false&email=	NOAA	ACG_VOCALS_RHBrown_aerosol_sizedist
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_VOCALS_RHBrown_aod4080.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_VOCALS_RHBrown_aod4080	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_VOCALS_RHBrown_aod4080.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_VOCALS_RHBrown_aod4080/	PMEL Atmospheric Chemistry VOCALS AOD(4080) data	The VAMOS Ocean-Cloud-Atmosphere-Land Study - Regional Experiment (VOCALS-REx) is an international field experiment designed to better understand physical and chemical processes central to the climate system of the Southeast Pacific (SEP) region. The climate of the SEP region is a tightly coupled system involving poorly understood interactions between the ocean, the atmosphere, and the land. VOCALS-REx will focus on interactions between clouds, aerosols, marine boundary layer (MBL) processes, upper ocean dynamics and thermodynamics, coastal currents and upwelling, large-scale subsidence, and regional diurnal circulations, to the west of the Andes mountain range. The field experiment is ultimately driven by a need for improved model simulations of the coupled climate system in both the SEP and over the wider tropics and subtropics.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\naod_380 (Aerosol Optical Depth at 380nm)\naod_440 (Aerosol Optical Depth at 440nm)\naod_500 (Aerosol Optical Depth at 500nm)\naod_675 (Aerosol Optical Depth at 675nm)\naod_870 (Aerosol Optical Depth at 870nm)\nair_mass (Integrated Air Density Along Solar Ray Path, atm)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_VOCALS_RHBrown_aod4080_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_VOCALS_RHBrown_aod4080_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_VOCALS_RHBrown_aod4080/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_VOCALS_RHBrown_aod4080.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_VOCALS_RHBrown_aod4080&showErrors=false&email=	NOAA	ACG_VOCALS_RHBrown_aod4080
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_VOCALS_RHBrown_dms.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_VOCALS_RHBrown_dms	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_VOCALS_RHBrown_dms.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_VOCALS_RHBrown_dms/	PMEL Atmospheric Chemistry VOCALS DMS data	The VAMOS Ocean-Cloud-Atmosphere-Land Study - Regional Experiment (VOCALS-REx) is an international field experiment designed to better understand physical and chemical processes central to the climate system of the Southeast Pacific (SEP) region. The climate of the SEP region is a tightly coupled system involving poorly understood interactions between the ocean, the atmosphere, and the land. VOCALS-REx will focus on interactions between clouds, aerosols, marine boundary layer (MBL) processes, upper ocean dynamics and thermodynamics, coastal currents and upwelling, large-scale subsidence, and regional diurnal circulations, to the west of the Andes mountain range. The field experiment is ultimately driven by a need for improved model simulations of the coupled climate system in both the SEP and over the wider tropics and subtropics.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\ndms_seawater (Seawater DMS concentration, nmol L-1)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_VOCALS_RHBrown_dms_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_VOCALS_RHBrown_dms_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_VOCALS_RHBrown_dms/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_VOCALS_RHBrown_dms.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_VOCALS_RHBrown_dms&showErrors=false&email=	NOAA	ACG_VOCALS_RHBrown_dms
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_VOCALS_RHBrown_radon.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_VOCALS_RHBrown_radon	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_VOCALS_RHBrown_radon.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_VOCALS_RHBrown_radon/	PMEL Atmospheric Chemistry VOCALS Radon data	The VAMOS Ocean-Cloud-Atmosphere-Land Study - Regional Experiment (VOCALS-REx) is an international field experiment designed to better understand physical and chemical processes central to the climate system of the Southeast Pacific (SEP) region. The climate of the SEP region is a tightly coupled system involving poorly understood interactions between the ocean, the atmosphere, and the land. VOCALS-REx will focus on interactions between clouds, aerosols, marine boundary layer (MBL) processes, upper ocean dynamics and thermodynamics, coastal currents and upwelling, large-scale subsidence, and regional diurnal circulations, to the west of the Andes mountain range. The field experiment is ultimately driven by a need for improved model simulations of the coupled climate system in both the SEP and over the wider tropics and subtropics.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nradon (mBq m-3)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_VOCALS_RHBrown_radon_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_VOCALS_RHBrown_radon_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_VOCALS_RHBrown_radon/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_VOCALS_RHBrown_radon.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_VOCALS_RHBrown_radon&showErrors=false&email=	NOAA	ACG_VOCALS_RHBrown_radon
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS_RHBrown_chemistry.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS_RHBrown_chemistry	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS_RHBrown_chemistry.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_WACS_RHBrown_chemistry/	PMEL Atmospheric Chemistry WACS Aerosol Chemistry data	WACS 2014 Objectives\n\n Multiple deployments and recoveries of\nan in situ sea spray particle generator, Sea Sweep, for characterization of properties and\ncloud-nucleating ability of nascent ocean-derived aerosol. In addition, atmospheric\nparticles and gases and surface seawater will be sampled to assess the impact of ocean\nemissions on atmospheric composition.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nmid_time (midpoint Datetime UTC, seconds since 1970-01-01T00:00:00Z)\nend_time (endpoint Datetime UTC, seconds since 1970-01-01T00:00:00Z)\nIC_MSA_sub1 (Particulate MSA Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_MSA_super1 (Particulate MSA Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Cl_sub1 (Particulate Cl Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_Cl_super1 (Particulate Cl Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Br_sub1 (Particulate Br Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_Br_super1 (Particulate Br Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_NO3_sub1 (Particulate NO3 Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_NO3_super1 (Particulate NO3 Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_SO4_sub1 (Particulate SO4 Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_SO4_super1 (Particulate SO4 Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Oxalate_sub1 (Particulate Oxalate Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\nIC_Oxalate_super1 (Particulate Oxalate Concentration for 1.1 um < Dp < 10 um, ug m-3, micrograms m-3)\nIC_Na_sub1 (Particulate Na Concentration for Dp < 1.1 um, ug m-3, micrograms m-3)\n... (14 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_WACS_RHBrown_chemistry_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_WACS_RHBrown_chemistry_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_WACS_RHBrown_chemistry/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_WACS_RHBrown_chemistry.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_WACS_RHBrown_chemistry&showErrors=false&email=	NOAA	ACG_WACS_RHBrown_chemistry
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS_RHBrown_main.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS_RHBrown_main	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS_RHBrown_main.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_WACS_RHBrown_main/	PMEL Atmospheric Chemistry WACS Aerosol Main Data, 1 min data	Pacific Marine Environmental Laboratory (PMEL) Atmospheric Chemistry WACS Aerosol Main Data - 1 min data. WACS 2014 Objectives\n\n Multiple deployments and recoveries of\nan in situ sea spray particle generator, Sea Sweep, for characterization of properties and\ncloud-nucleating ability of nascent ocean-derived aerosol. In addition, atmospheric\nparticles and gases and surface seawater will be sampled to assess the impact of ocean\nemissions on atmospheric composition.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nship_speed (Ship Speed over Ground, knots)\nship_course (Ship Course over Ground, degree)\nship_heading (degree)\nair_temp (Air Temperature, degree_C)\nrh (Relative Humidity, percent)\nbaro_pressure (Barometric Pressure, hPa)\ninsolation (Shortwave Flux, W m-2)\nrain_rate (MM' 'Hour-1)\nwind_speed (m s-1)\nwind_direction (degree)\nwind_u (east component of the wind, m s-1)\nwind_v (north component of the wind, m s-1)\nrelative_wind_speed (Wind Speed Relative to Ship, m s-1)\nrelative_wind_direction (Wind Direction Relative to Ship, degree)\n... (36 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_WACS_RHBrown_main_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_WACS_RHBrown_main_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_WACS_RHBrown_main/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_WACS_RHBrown_main.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_WACS_RHBrown_main&showErrors=false&email=	NOAA	ACG_WACS_RHBrown_main
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS_RHBrown_aerosol_sizedist_aps.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS_RHBrown_aerosol_sizedist_aps	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS_RHBrown_aerosol_sizedist_aps.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_WACS_RHBrown_aerosol_sizedist_aps/	PMEL Atmospheric Chemistry WACS Aerosol Size Distribution (APS) data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (13 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_WACS_RHBrown_aerosol_sizedist_aps_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_WACS_RHBrown_aerosol_sizedist_aps_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_WACS_RHBrown_aerosol_sizedist_aps/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_WACS_RHBrown_aerosol_sizedist_aps.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_WACS_RHBrown_aerosol_sizedist_aps&showErrors=false&email=	NOAA	ACG_WACS_RHBrown_aerosol_sizedist_aps
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS_RHBrown_aerosol_sizedist_dmps.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS_RHBrown_aerosol_sizedist_dmps	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS_RHBrown_aerosol_sizedist_dmps.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_WACS_RHBrown_aerosol_sizedist_dmps/	PMEL Atmospheric Chemistry WACS Aerosol Size Distribution (DMPS) data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (13 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_WACS_RHBrown_aerosol_sizedist_dmps_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_WACS_RHBrown_aerosol_sizedist_dmps_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_WACS_RHBrown_aerosol_sizedist_dmps/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_WACS_RHBrown_aerosol_sizedist_dmps.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_WACS_RHBrown_aerosol_sizedist_dmps&showErrors=false&email=	NOAA	ACG_WACS_RHBrown_aerosol_sizedist_dmps
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS_RHBrown_aerosol_sizedist.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS_RHBrown_aerosol_sizedist	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS_RHBrown_aerosol_sizedist.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_WACS_RHBrown_aerosol_sizedist/	PMEL Atmospheric Chemistry WACS Aerosol Size Distribution data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (16 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_WACS_RHBrown_aerosol_sizedist_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_WACS_RHBrown_aerosol_sizedist_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_WACS_RHBrown_aerosol_sizedist/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_WACS_RHBrown_aerosol_sizedist.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_WACS_RHBrown_aerosol_sizedist&showErrors=false&email=	NOAA	ACG_WACS_RHBrown_aerosol_sizedist
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS_RHBrown_aod.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS_RHBrown_aod	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS_RHBrown_aod.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_WACS_RHBrown_aod/	PMEL Atmospheric Chemistry WACS AOD data	WACS 2014 Objectives\n\n Multiple deployments and recoveries of\nan in situ sea spray particle generator, Sea Sweep, for characterization of properties and\ncloud-nucleating ability of nascent ocean-derived aerosol. In addition, atmospheric\nparticles and gases and surface seawater will be sampled to assess the impact of ocean\nemissions on atmospheric composition.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\naod_380 (Aerosol Optical Depth at 380nm)\naod_440 (Aerosol Optical Depth at 440nm)\naod_500 (Aerosol Optical Depth at 500nm)\naod_675 (Aerosol Optical Depth at 675nm)\naod_870 (Aerosol Optical Depth at 870nm)\nair_mass (Integrated Air Density Along Solar Ray Path, atm)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_WACS_RHBrown_aod_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_WACS_RHBrown_aod_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_WACS_RHBrown_aod/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_WACS_RHBrown_aod.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_WACS_RHBrown_aod&showErrors=false&email=	NOAA	ACG_WACS_RHBrown_aod
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS_RHBrown_dms.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS_RHBrown_dms	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS_RHBrown_dms.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_WACS_RHBrown_dms/	PMEL Atmospheric Chemistry WACS DMS data	WACS 2014 Objectives\n\n Multiple deployments and recoveries of\nan in situ sea spray particle generator, Sea Sweep, for characterization of properties and\ncloud-nucleating ability of nascent ocean-derived aerosol. In addition, atmospheric\nparticles and gases and surface seawater will be sampled to assess the impact of ocean\nemissions on atmospheric composition.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\ndms_seawater (Seawater DMS concentration, nmol L-1)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_WACS_RHBrown_dms_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_WACS_RHBrown_dms_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_WACS_RHBrown_dms/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_WACS_RHBrown_dms.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_WACS_RHBrown_dms&showErrors=false&email=	NOAA	ACG_WACS_RHBrown_dms
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS_RHBrown_radon.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS_RHBrown_radon	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS_RHBrown_radon.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_WACS_RHBrown_radon/	PMEL Atmospheric Chemistry WACS Radon data	WACS 2014 Objectives\n\n Multiple deployments and recoveries of\nan in situ sea spray particle generator, Sea Sweep, for characterization of properties and\ncloud-nucleating ability of nascent ocean-derived aerosol. In addition, atmospheric\nparticles and gases and surface seawater will be sampled to assess the impact of ocean\nemissions on atmospheric composition.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nradon (mBq m-3)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_WACS_RHBrown_radon_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_WACS_RHBrown_radon_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_WACS_RHBrown_radon/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_WACS_RHBrown_radon.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_WACS_RHBrown_radon&showErrors=false&email=	NOAA	ACG_WACS_RHBrown_radon
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS-2_Knorr_chemistry.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS-2_Knorr_chemistry	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS-2_Knorr_chemistry.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_WACS-2_Knorr_chemistry/	PMEL Atmospheric Chemistry WACS-2 Aerosol Chemistry data	Core WACS 2014 Objectives\n\n 1. Characterization of freshly emitted SSA. Freshly emitted SSA will be generated with\nNOAA Pacific Marine Environmental Laboratory's (PMEL) Sea Sweep particle\ngenerator. Sea Sweep allows for the generation and sampling of nascent\nparticles without contamination and modification by existing atmospheric particles\nand gases (Bates et al., J. Geophys. Res., 2012). Properties of the particles to be\ncharacterized include chemical composition, size distribution, number concentration,\ncloud-nucleating ability, light scattering as a function of relative humidity, and light\nabsorption.\n\n2. Characterization of surface and column seawater properties. Surface seawater\nproperties to be measured include fluorescence (chlorophyll-a), particulate organic\ncarbon (POC), dissolved organic carbon (Department of Commerce (DOC)), dimethylsulfide (DMS), temperature,\nsalinity, bubble surface tension, exopolymer gels, phytoplankton species composition,\nand nutrients.\n\n3. Assessment of the impact of surface seawater properties on SSA. The response of\nnascent SSA properties (composition, size distribution, cloud-nucleating ability) to\nchanges in ocean biological regime will be determined.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nmid_time (midpoint Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (22 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_WACS-2_Knorr_chemistry_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_WACS-2_Knorr_chemistry_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_WACS-2_Knorr_chemistry/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_WACS-2_Knorr_chemistry.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_WACS-2_Knorr_chemistry&showErrors=false&email=	NOAA	ACG_WACS-2_Knorr_chemistry
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS-2_Knorr_main.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS-2_Knorr_main	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS-2_Knorr_main.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_WACS-2_Knorr_main/	PMEL Atmospheric Chemistry WACS-2 Aerosol Main Data, 1 min data	PMEL Atmospheric Chemistry WACS-2 Aerosol Main Data - 1 min data. Core WACS 2014 Objectives\n\n 1. Characterization of freshly emitted SSA. Freshly emitted SSA will be generated with\nNOAA Pacific Marine Environmental Laboratory's (PMEL) Sea Sweep particle\ngenerator. Sea Sweep allows for the generation and sampling of nascent\nparticles without contamination and modification by existing atmospheric particles\nand gases (Bates et al., J. Geophys. Res., 2012). Properties of the particles to be\ncharacterized include chemical composition, size distribution, number concentration,\ncloud-nucleating ability, light scattering as a function of relative humidity, and light\nabsorption.\n\n2. Characterization of surface and column seawater properties. Surface seawater\nproperties to be measured include fluorescence (chlorophyll-a), particulate organic\ncarbon (POC), dissolved organic carbon (Department of Commerce (DOC)), dimethylsulfide (DMS), temperature,\nsalinity, bubble surface tension, exopolymer gels, phytoplankton species composition,\nand nutrients.\n\n3. Assessment of the impact of surface seawater properties on SSA. The response of\nnascent SSA properties (composition, size distribution, cloud-nucleating ability) to\nchanges in ocean biological regime will be determined.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nship_speed (Ship Speed over Ground, knots)\n... (36 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_WACS-2_Knorr_main_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_WACS-2_Knorr_main_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_WACS-2_Knorr_main/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_WACS-2_Knorr_main.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_WACS-2_Knorr_main&showErrors=false&email=	NOAA	ACG_WACS-2_Knorr_main
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS-2_Knorr_aerosol_sizedist_aps.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS-2_Knorr_aerosol_sizedist_aps	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS-2_Knorr_aerosol_sizedist_aps.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_WACS-2_Knorr_aerosol_sizedist_aps/	PMEL Atmospheric Chemistry WACS-2 Aerosol Size Distribution (APS) data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (13 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_WACS-2_Knorr_aerosol_sizedist_aps_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_WACS-2_Knorr_aerosol_sizedist_aps_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_WACS-2_Knorr_aerosol_sizedist_aps/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_WACS-2_Knorr_aerosol_sizedist_aps.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_WACS-2_Knorr_aerosol_sizedist_aps&showErrors=false&email=	NOAA	ACG_WACS-2_Knorr_aerosol_sizedist_aps
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS-2_Knorr_aerosol_sizedist_dmps.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS-2_Knorr_aerosol_sizedist_dmps	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS-2_Knorr_aerosol_sizedist_dmps.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_WACS-2_Knorr_aerosol_sizedist_dmps/	PMEL Atmospheric Chemistry WACS-2 Aerosol Size Distribution (DMPS) data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (13 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_WACS-2_Knorr_aerosol_sizedist_dmps_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_WACS-2_Knorr_aerosol_sizedist_dmps_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_WACS-2_Knorr_aerosol_sizedist_dmps/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_WACS-2_Knorr_aerosol_sizedist_dmps.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_WACS-2_Knorr_aerosol_sizedist_dmps&showErrors=false&email=	NOAA	ACG_WACS-2_Knorr_aerosol_sizedist_dmps
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS-2_Knorr_aerosol_sizedist.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS-2_Knorr_aerosol_sizedist	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS-2_Knorr_aerosol_sizedist.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_WACS-2_Knorr_aerosol_sizedist/	PMEL Atmospheric Chemistry WACS-2 Aerosol Size Distribution data	Pacific Marine Environmental Laboratory (PMEL) Size Distributions\n \n Aerosol inlet:\nAmbient aerosol particles were sampled at 18 m above sea level through a heated mast. The mast extended 5 m above and forward of the aerosol measurement container. The inlet was a rotating cone-shaped nozzle that was automatically positioned into the relative wind to maintain nominally isokinetic flow and minimize the loss of supermicrometer particles. Air entered the inlet through a 5 cm diameter hole, passed through a 7 degree expansion cone, and then into the 20 cm inner diameter sampling mast. The flow through the mast was 1 m3 min-1. The transmission efficiency of the inlet for particles with aerodynamic diameters less than 6.5 um (the largest size tested) is greater than 95% [Bates et al., 2002].\n\nThe bottom 1.5 m of the mast were heated to establish a stable reference relative humidity (RH) for the sample air controlled to the indicated target sample RH. Twenty one 1.6 cm inner diameter stainless steel tubes extending into the heated portion of the mast were connected to downstream aerosol instrumentation with either conductive silicon tubing or stainless steel tubing for analysis of organic aerosol.\n\nDMPS (datasets denoted by _aerosol_sizedist_dmps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to a tandem DMPS system that measured particle size distributions in the range of 0.020 to 0.8 micrometers Stokes diameter. The tandem DMPS consists of an \"Aitken\" DMPS (0.020 to 0.2 um) and an \"Accumulation\" DMPS (0.2 to 0.8 um). The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nAPS (datasets denoted by _aerosol_sizedist_aps_):\nOne of the twenty one 1.6 cm diameter tubes was used to supply ambient air to an APS that measured particle size distributions in the range of 0.96 to 10 micrometers Stokes diameter. The APS diameters are aerodynamic and have not been corrected to Stokes diameter via calculation or estimates of particle density. The APS data larger than 10 micrometers are not useful due to significant particle losses in the inlets including the ship's sampling mast, distribution tubing and APS inlet. The distributions have been cleaned of all data from times of instrument malfunction or calibration.\n\nMerged (datasets denoted by _aerosol_sizedist):\nThese datasets include particle size distributions in the diameter range of 0.005 to 10 micrometers Stokes diameter. The distributions are a combination of DMPS and APS size distribution data where the APS diameters have been converted to Stokes diameters using densities calculated from measured chemistry. The diameter channels in the overlap region were chosen in the following manner: the last DMPS channel was discarded and, after converting to Stokes diameters, the first APS diameter channel that was larger than the last valid DMPS channel was chosen as the first APS channel. Each combined distribution was regridded onto a common set of diameters. Finally, the regridded distributions were cleaned to eliminate values at the larger sizes from the APS where \"phantom\" counts resulted in a spurious coarse mode in the surface and volume distributions.\n\nAll datasets include number size distributions (normalized and non-normalized) as well as the higher moments for each: surface area and volume.\n\nAdditional datasets may be included for a give project that include:\n - ambient (_ambient_): includes size distributions shifted to ambient RH using gRH factors\n - filter (_filter_): includes size distributions where additional cleaning was performed for periods of unstable CN concentrations\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\n... (16 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_WACS-2_Knorr_aerosol_sizedist_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_WACS-2_Knorr_aerosol_sizedist_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_WACS-2_Knorr_aerosol_sizedist/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_WACS-2_Knorr_aerosol_sizedist.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_WACS-2_Knorr_aerosol_sizedist&showErrors=false&email=	NOAA	ACG_WACS-2_Knorr_aerosol_sizedist
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS-2_Knorr_aod.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS-2_Knorr_aod	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS-2_Knorr_aod.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_WACS-2_Knorr_aod/	PMEL Atmospheric Chemistry WACS-2 AOD data	Core WACS 2014 Objectives\n\n 1. Characterization of freshly emitted SSA. Freshly emitted SSA will be generated with\nNOAA Pacific Marine Environmental Laboratory's (PMEL) Sea Sweep particle\ngenerator. Sea Sweep allows for the generation and sampling of nascent\nparticles without contamination and modification by existing atmospheric particles\nand gases (Bates et al., J. Geophys. Res., 2012). Properties of the particles to be\ncharacterized include chemical composition, size distribution, number concentration,\ncloud-nucleating ability, light scattering as a function of relative humidity, and light\nabsorption.\n\n2. Characterization of surface and column seawater properties. Surface seawater\nproperties to be measured include fluorescence (chlorophyll-a), particulate organic\ncarbon (POC), dissolved organic carbon (Department of Commerce (DOC)), dimethylsulfide (DMS), temperature,\nsalinity, bubble surface tension, exopolymer gels, phytoplankton species composition,\nand nutrients.\n\n3. Assessment of the impact of surface seawater properties on SSA. The response of\nnascent SSA properties (composition, size distribution, cloud-nucleating ability) to\nchanges in ocean biological regime will be determined.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\naod_380 (Aerosol Optical Depth at 380nm)\n... (5 more variables)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_WACS-2_Knorr_aod_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_WACS-2_Knorr_aod_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_WACS-2_Knorr_aod/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_WACS-2_Knorr_aod.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_WACS-2_Knorr_aod&showErrors=false&email=	NOAA	ACG_WACS-2_Knorr_aod
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS-2_Knorr_ccn.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS-2_Knorr_ccn	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS-2_Knorr_ccn.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_WACS-2_Knorr_ccn/	PMEL Atmospheric Chemistry WACS-2 CCN data	Core WACS 2014 Objectives\n\n 1. Characterization of freshly emitted SSA. Freshly emitted SSA will be generated with\nNOAA Pacific Marine Environmental Laboratory's (PMEL) Sea Sweep particle\ngenerator. Sea Sweep allows for the generation and sampling of nascent\nparticles without contamination and modification by existing atmospheric particles\nand gases (Bates et al., J. Geophys. Res., 2012). Properties of the particles to be\ncharacterized include chemical composition, size distribution, number concentration,\ncloud-nucleating ability, light scattering as a function of relative humidity, and light\nabsorption.\n\n2. Characterization of surface and column seawater properties. Surface seawater\nproperties to be measured include fluorescence (chlorophyll-a), particulate organic\ncarbon (POC), dissolved organic carbon (Department of Commerce (DOC)), dimethylsulfide (DMS), temperature,\nsalinity, bubble surface tension, exopolymer gels, phytoplankton species composition,\nand nutrients.\n\n3. Assessment of the impact of surface seawater properties on SSA. The response of\nnascent SSA properties (composition, size distribution, cloud-nucleating ability) to\nchanges in ocean biological regime will be determined.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nccn_ss (Supersaturation of CCN measurement, percent)\nccn (Cloud Condensation Nuclei Concentration at ccn_ss, cm-3)\nccn_cn_ratio (Ratio of CCN to CN)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_WACS-2_Knorr_ccn_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_WACS-2_Knorr_ccn_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_WACS-2_Knorr_ccn/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_WACS-2_Knorr_ccn.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_WACS-2_Knorr_ccn&showErrors=false&email=	NOAA	ACG_WACS-2_Knorr_ccn
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS-2_Knorr_dms.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS-2_Knorr_dms	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS-2_Knorr_dms.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_WACS-2_Knorr_dms/	PMEL Atmospheric Chemistry WACS-2 DMS data	Core WACS 2014 Objectives\n\n 1. Characterization of freshly emitted SSA. Freshly emitted SSA will be generated with\nNOAA Pacific Marine Environmental Laboratory's (PMEL) Sea Sweep particle\ngenerator. Sea Sweep allows for the generation and sampling of nascent\nparticles without contamination and modification by existing atmospheric particles\nand gases (Bates et al., J. Geophys. Res., 2012). Properties of the particles to be\ncharacterized include chemical composition, size distribution, number concentration,\ncloud-nucleating ability, light scattering as a function of relative humidity, and light\nabsorption.\n\n2. Characterization of surface and column seawater properties. Surface seawater\nproperties to be measured include fluorescence (chlorophyll-a), particulate organic\ncarbon (POC), dissolved organic carbon (Department of Commerce (DOC)), dimethylsulfide (DMS), temperature,\nsalinity, bubble surface tension, exopolymer gels, phytoplankton species composition,\nand nutrients.\n\n3. Assessment of the impact of surface seawater properties on SSA. The response of\nnascent SSA properties (composition, size distribution, cloud-nucleating ability) to\nchanges in ocean biological regime will be determined.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\ndms_seawater (Seawater DMS concentration, nmol L-1)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_WACS-2_Knorr_dms_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_WACS-2_Knorr_dms_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_WACS-2_Knorr_dms/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_WACS-2_Knorr_dms.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_WACS-2_Knorr_dms&showErrors=false&email=	NOAA	ACG_WACS-2_Knorr_dms
https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS-2_Knorr_radon.subset	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS-2_Knorr_radon	https://data.pmel.noaa.gov/pmel/erddap/tabledap/ACG_WACS-2_Knorr_radon.graph	https://data.pmel.noaa.gov/pmel/erddap/files/ACG_WACS-2_Knorr_radon/	PMEL Atmospheric Chemistry WACS-2 Radon data	Core WACS 2014 Objectives\n\n 1. Characterization of freshly emitted SSA. Freshly emitted SSA will be generated with\nNOAA Pacific Marine Environmental Laboratory's (PMEL) Sea Sweep particle\ngenerator. Sea Sweep allows for the generation and sampling of nascent\nparticles without contamination and modification by existing atmospheric particles\nand gases (Bates et al., J. Geophys. Res., 2012). Properties of the particles to be\ncharacterized include chemical composition, size distribution, number concentration,\ncloud-nucleating ability, light scattering as a function of relative humidity, and light\nabsorption.\n\n2. Characterization of surface and column seawater properties. Surface seawater\nproperties to be measured include fluorescence (chlorophyll-a), particulate organic\ncarbon (POC), dissolved organic carbon (Department of Commerce (DOC)), dimethylsulfide (DMS), temperature,\nsalinity, bubble surface tension, exopolymer gels, phytoplankton species composition,\nand nutrients.\n\n3. Assessment of the impact of surface seawater properties on SSA. The response of\nnascent SSA properties (composition, size distribution, cloud-nucleating ability) to\nchanges in ocean biological regime will be determined.\n\ncdm_data_type = Trajectory\nVARIABLES:\ntime (Datetime UTC, seconds since 1970-01-01T00:00:00Z)\ntrajectory_id\nduration (second)\nlatitude (degrees_north)\nlongitude (degrees_east)\naltitude (height above mean sea level, m)\nradon (mBq m-3)\n	https://data.pmel.noaa.gov/pmel/erddap/metadata/fgdc/xml/ACG_WACS-2_Knorr_radon_fgdc.xml	https://data.pmel.noaa.gov/pmel/erddap/metadata/iso19115/xml/ACG_WACS-2_Knorr_radon_iso19115.xml	https://data.pmel.noaa.gov/pmel/erddap/info/ACG_WACS-2_Knorr_radon/index.htmlTable	https://www.pmel.noaa.gov/acg/data/index.html	https://data.pmel.noaa.gov/pmel/erddap/rss/ACG_WACS-2_Knorr_radon.rss	https://data.pmel.noaa.gov/pmel/erddap/subscriptions/add.html?datasetID=ACG_WACS-2_Knorr_radon&showErrors=false&email=	NOAA	ACG_WACS-2_Knorr_radon

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