The dataset of in-situ measurements of chemically and radiatively important atmospheric gases from the Advanced Global Atmospheric Gas Experiment (AGAGE) and affiliated stations (2023R1)

  • Ronald G M Prinn (Creator)
  • Ray Weiss (Creator)
  • Jgor Arduini (Creator)
  • Tim Arnold (Creator)
  • Paul Fraser (Creator)
  • Anita L Ganesan (Creator)
  • Jimmy Gasore (Creator)
  • Christina M Harth (Creator)
  • Ove Hermansen (Creator)
  • Jooil Kim (Creator)
  • Paul B Krummel (Creator)
  • Zoë M Loh (Creator)
  • Chris R Lunder (Creator)
  • Michela Maione (Creator)
  • Allistar Manning (Creator)
  • Ben R Miller (Creator)
  • Blagoj Mitrevski (Creator)
  • Jens Mühle (Creator)
  • Simon O'Doherty (Creator)
  • Sunyoung Park (Creator)
  • Stefan Reimann (Creator)
  • Matthew L Rigby (Creator)
  • Takuya Saito (Creator)
  • Peter K Salameh (Creator)
  • Ronald Schmidt (Creator)
  • Peter G Simmonds (Creator)
  • Paul Steel (Creator)
  • Martin K Vollmer (Creator)
  • Ray Hsiang-Jui Wang (Creator)
  • Bo Yao (Creator)
  • Dickon Yang (Creator)
  • Lingxi Zhou (Creator)
  • Arnold (Contributor)

Dataset

Description

In the ALE/GAGE/AGAGE global network program, continuous high frequency gas chromatographic measurements of four biogenic/anthropogenic gases (methane, CH4; nitrous oxide, N2O; hydrogen, H2; and carbon monoxide, CO) and several anthropogenic gases that contribute to stratospheric ozone destruction and/or to the greenhouse effect have been carried out at five globally distributed sites for several years. The program, which began in 1978, is divided into three parts associated with three changes in instrumentation: the Atmospheric Lifetime Experiment (ALE), which used Hewlett Packard HP5840 gas chromatographs; the Global Atmospheric Gases Experiment (GAGE), which used HP5880 gas chromatographs; and the present Advanced GAGE (AGAGE). AGAGE uses two types of instruments: a gas chromatograph with multiple detectors (GC-MD), and a gas chromatograph with mass spectrometric analysis (GC-MS). Beginning in January 2004, an improved cryogenic preconcentration system (Medusa) replaced the absorption-desorption module in the GC-MS systems at Mace Head and Cape Grim; this provided improved capability to measure a broader range of volatile perfluorocarbons with high global warming potentials. The Medusa GC-MS systems were subsequently used at other AGAGE stations (Trinidad Head, Barbados, American Samoa, Zeppelin, Jungfraujoch, and Goan) after the initial setup at Mace Head and Cape Grim. More information may be found on the AGAGE home page: https://agage.mit.edu/instruments.Data from the AGAGE and affiliated stations (total of 10 sites) between August 1993 and June 2022 are provided in “Agage_gcmd_gcms_data_2023_07_24.tar.gz” (compressed tar file). The metadata file has information on each station and currently released species. The standard scales used in archived species are listed in "AGAGE_scale_2023_v1.pdf". Additional information can be found on the AGAGE website (https://agage.mit.edu).
Date made available2023
PublisherEnvironmental System Science Data Infrastructure for a Virtual Ecosystem; Advanced Global Atmospheric Gases Experiment (AGAGE)
Geographical coverageMonte Cimone, Italy; located on the highest peak of the Northern Apennines that marks the borderline of two different climate regions: the continental Europe (northwards) and the Mediterranean Basin (southwards); Tower; Air intake elevation: 2165 m above

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