ABoVE/ASCENDS: Analysis of Pulsed Lidar Measurements of XCO2, 2017 : Arctic-Boreal Vulnerability Experiment (ABoVE)

This dataset consists of column average CO2 mixing ratio (XCO2) estimated by the airborne CO2 Sounder which is a pulsed, multi-wavelength Integrated Path Differential Absorption lidar during the 2017 ASCENDS/ABoVE airborne campaign, which was flown on the NASA DC-8 in July and early August of 2017....

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Main Authors: Abshire, J.B., Mao, J., Riris, H., Kawa, S.R., Sun, X.
Format: Article in Journal/Newspaper
Language:English
Published: ORNL Distributed Active Archive Center 2022
Subjects:
Arctic
Arctic Ocean
Canada
Northwest Territories
Alaska
Online Access:https://dx.doi.org/10.3334/ornldaac/2050
https://daac.ornl.gov/cgi-bin/dsviewer.pl?ds_id=2050
id ftdatacite:10.3334/ornldaac/2050
record_format openpolar
spelling ftdatacite:10.3334/ornldaac/2050 2023-05-15T14:53:40+02:00 ABoVE/ASCENDS: Analysis of Pulsed Lidar Measurements of XCO2, 2017 : Arctic-Boreal Vulnerability Experiment (ABoVE) Abshire, J.B. Mao, J. Riris, H. Kawa, S.R. Sun, X. 2022 None https://dx.doi.org/10.3334/ornldaac/2050 https://daac.ornl.gov/cgi-bin/dsviewer.pl?ds_id=2050 en eng ORNL Distributed Active Archive Center https://daac.ornl.gov/cgi-bin/dataset_lister.pl?p=34 Data Files article Collection 2022 ftdatacite https://doi.org/10.3334/ornldaac/2050 2022-04-01T08:39:03Z This dataset consists of column average CO2 mixing ratio (XCO2) estimated by the airborne CO2 Sounder which is a pulsed, multi-wavelength Integrated Path Differential Absorption lidar during the 2017 ASCENDS/ABoVE airborne campaign, which was flown on the NASA DC-8 in July and early August of 2017. The flights were designed to assess the accuracy of airborne lidar measurements of XCO2, and to extend lidar measurements to the ABoVE study area in the Arctic. Eight flights were conducted with XCO2 measurements from the lidar along with in-situ CO2 measurements made at the aircraft with the AVOCET and Picarro instruments. Forty-seven spiral-down maneuvers were conducted in locations over California, the Northwest Territories Canada, the Arctic Ocean and Alaska, along with the transit flights from California to Alaska and return. Each spiral maneuver allowed comparing the XCO2 retrievals from the lidar against those computed from CO2 measured at the aircraft. In addition to the XCO2 measurement, the lidar receiver also recorded the time resolved atmospheric backscatter signal strength continuously as the laser pulses propagate through the atmosphere. The CO2 Sounder lidar results show better than 1-ppm agreement between most lidar and in situ measurements in the spirals, both north-south and east-west gradients in XCO2, and local features in XCO2, including one caused by wildfires. Article in Journal/Newspaper Arctic Arctic Ocean Northwest Territories Alaska DataCite Metadata Store (German National Library of Science and Technology) Arctic Arctic Ocean Canada Northwest Territories
institution Open Polar
collection DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id ftdatacite
language English
description This dataset consists of column average CO2 mixing ratio (XCO2) estimated by the airborne CO2 Sounder which is a pulsed, multi-wavelength Integrated Path Differential Absorption lidar during the 2017 ASCENDS/ABoVE airborne campaign, which was flown on the NASA DC-8 in July and early August of 2017. The flights were designed to assess the accuracy of airborne lidar measurements of XCO2, and to extend lidar measurements to the ABoVE study area in the Arctic. Eight flights were conducted with XCO2 measurements from the lidar along with in-situ CO2 measurements made at the aircraft with the AVOCET and Picarro instruments. Forty-seven spiral-down maneuvers were conducted in locations over California, the Northwest Territories Canada, the Arctic Ocean and Alaska, along with the transit flights from California to Alaska and return. Each spiral maneuver allowed comparing the XCO2 retrievals from the lidar against those computed from CO2 measured at the aircraft. In addition to the XCO2 measurement, the lidar receiver also recorded the time resolved atmospheric backscatter signal strength continuously as the laser pulses propagate through the atmosphere. The CO2 Sounder lidar results show better than 1-ppm agreement between most lidar and in situ measurements in the spirals, both north-south and east-west gradients in XCO2, and local features in XCO2, including one caused by wildfires.
format Article in Journal/Newspaper
author Abshire, J.B.
Mao, J.
Riris, H.
Kawa, S.R.
Sun, X.
spellingShingle Abshire, J.B.
Mao, J.
Riris, H.
Kawa, S.R.
Sun, X.
ABoVE/ASCENDS: Analysis of Pulsed Lidar Measurements of XCO2, 2017 : Arctic-Boreal Vulnerability Experiment (ABoVE)
author_facet Abshire, J.B.
Mao, J.
Riris, H.
Kawa, S.R.
Sun, X.
author_sort Abshire, J.B.
title ABoVE/ASCENDS: Analysis of Pulsed Lidar Measurements of XCO2, 2017 : Arctic-Boreal Vulnerability Experiment (ABoVE)
title_short ABoVE/ASCENDS: Analysis of Pulsed Lidar Measurements of XCO2, 2017 : Arctic-Boreal Vulnerability Experiment (ABoVE)
title_full ABoVE/ASCENDS: Analysis of Pulsed Lidar Measurements of XCO2, 2017 : Arctic-Boreal Vulnerability Experiment (ABoVE)
title_fullStr ABoVE/ASCENDS: Analysis of Pulsed Lidar Measurements of XCO2, 2017 : Arctic-Boreal Vulnerability Experiment (ABoVE)
title_full_unstemmed ABoVE/ASCENDS: Analysis of Pulsed Lidar Measurements of XCO2, 2017 : Arctic-Boreal Vulnerability Experiment (ABoVE)
title_sort above/ascends: analysis of pulsed lidar measurements of xco2, 2017 : arctic-boreal vulnerability experiment (above)
publisher ORNL Distributed Active Archive Center
publishDate 2022
url https://dx.doi.org/10.3334/ornldaac/2050
https://daac.ornl.gov/cgi-bin/dsviewer.pl?ds_id=2050
geographic Arctic
Arctic Ocean
Canada
Northwest Territories
geographic_facet Arctic
Arctic Ocean
Canada
Northwest Territories
genre Arctic
Arctic Ocean
Northwest Territories
Alaska
genre_facet Arctic
Arctic Ocean
Northwest Territories
Alaska
op_relation https://daac.ornl.gov/cgi-bin/dataset_lister.pl?p=34
op_doi https://doi.org/10.3334/ornldaac/2050
_version_ 1766325257169272832

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