Earth System Science Data (Nov 2024)

Atmospheric Radiation Measurement (ARM) airborne field campaign data products between 2013 and 2018

  • F. Mei,
  • J. M. Comstock,
  • M. S. Pekour,
  • J. D. Fast,
  • K. L. Gaustad,
  • B. Schmid,
  • S. Tang,
  • S. Tang,
  • D. Zhang,
  • J. E. Shilling,
  • J. M. Tomlinson,
  • A. C. Varble,
  • J. Wang,
  • L. R. Leung,
  • L. Kleinman,
  • S. Martin,
  • S. C. Biraud,
  • B. D. Ermold,
  • K. W. Burk

DOI
https://doi.org/10.5194/essd-16-5429-2024
Journal volume & issue
Vol. 16
pp. 5429 – 5448

Abstract

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Airborne measurements are pivotal for providing detailed, spatiotemporally resolved information about atmospheric parameters and aerosol and cloud properties, thereby enhancing our understanding of dynamic atmospheric processes. For 30 years, the US Department of Energy (DOE) Office of Science supported an instrumented Gulfstream 1 (G-1) aircraft for atmospheric field campaigns. Data from the final decade of G-1 operations were archived by the Atmospheric Radiation Measurement (ARM) Data Center and made publicly available at no cost to all registered users. To ensure a consistent data format and to improve the accessibility of the ARM airborne data, an integrated dataset was recently developed covering the final 6 years of G-1 operations (2013 to 2018, https://doi.org/10.5439/1999133; Mei and Gaustad, 2024). The integrated dataset includes data collected from 236 flights (766.4 h), which covered the Arctic, the US Southern Great Plains (SGP), the US West Coast, the eastern North Atlantic (ENA), the Amazon Basin in Brazil, and the Sierras de Córdoba range in Argentina. These comprehensive data streams provide much-needed insight into spatiotemporal variability in the thermodynamic quantities and aerosol and cloud properties for addressing essential science questions in Earth system process studies. This paper describes the DOE ARM merged G-1 datasets, including information on the acquisition, data collection challenges and future potentials, and quality control processes. It further illustrates the usage of this merged dataset to evaluate the Energy Exascale Earth System Model (E3SM) with the Earth System Model Aerosol–Cloud Diagnostics (ESMAC Diags) package.