Atmospheric Measurement Techniques (Oct 2015)

Real-time remote detection and measurement for airborne imaging spectroscopy: a case study with methane

  • D. R. Thompson,
  • I. Leifer,
  • H. Bovensmann,
  • M. Eastwood,
  • M. Fladeland,
  • C. Frankenberg,
  • K. Gerilowski,
  • R. O. Green,
  • S. Kratwurst,
  • T. Krings,
  • B. Luna,
  • A. K. Thorpe

DOI
https://doi.org/10.5194/amt-8-4383-2015
Journal volume & issue
Vol. 8, no. 10
pp. 4383 – 4397

Abstract

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Localized anthropogenic sources of atmospheric CH4 are highly uncertain and temporally variable. Airborne remote measurement is an effective method to detect and quantify these emissions. In a campaign context, the science yield can be dramatically increased by real-time retrievals that allow operators to coordinate multiple measurements of the most active areas. This can improve science outcomes for both single- and multiple-platform missions. We describe a case study of the NASA/ESA CO2 and MEthane eXperiment (COMEX) campaign in California during June and August/September 2014. COMEX was a multi-platform campaign to measure CH4 plumes released from anthropogenic sources including oil and gas infrastructure. We discuss principles for real-time spectral signature detection and measurement, and report performance on the NASA Next Generation Airborne Visible Infrared Spectrometer (AVIRIS-NG). AVIRIS-NG successfully detected CH4 plumes in real-time at Gb s−1 data rates, characterizing fugitive releases in concert with other in situ and remote instruments. The teams used these real-time CH4 detections to coordinate measurements across multiple platforms, including airborne in situ, airborne non-imaging remote sensing, and ground-based in situ instruments. To our knowledge this is the first reported use of real-time trace-gas signature detection in an airborne science campaign, and presages many future applications. Post-analysis demonstrates matched filter methods providing noise-equivalent (1σ) detection sensitivity for 1.0 % CH4 column enhancements equal to 141 ppm m.