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Satellite isoprene retrievals constrain emissions and atmospheric oxidation

Author

Listed:
  • Kelley C. Wells

    (University of Minnesota)

  • Dylan B. Millet

    (University of Minnesota)

  • Vivienne H. Payne

    (California Institute of Technology)

  • M. Julian Deventer

    (University of Minnesota
    University of Göttingen)

  • Kelvin H. Bates

    (Harvard University)

  • Joost A. Gouw

    (University of Colorado
    University of Colorado)

  • Martin Graus

    (University of Innsbruck)

  • Carsten Warneke

    (University of Colorado
    NOAA Chemical Sciences Laboratory)

  • Armin Wisthaler

    (University of Innsbruck
    University of Oslo)

  • Jose D. Fuentes

    (The Pennsylvania State University)

Abstract

Isoprene is the dominant non-methane organic compound emitted to the atmosphere1–3. It drives ozone and aerosol production, modulates atmospheric oxidation and interacts with the global nitrogen cycle4–8. Isoprene emissions are highly uncertain1,9, as is the nonlinear chemistry coupling isoprene and the hydroxyl radical, OH—its primary sink10–13. Here we present global isoprene measurements taken from space using the Cross-track Infrared Sounder. Together with observations of formaldehyde, an isoprene oxidation product, these measurements provide constraints on isoprene emissions and atmospheric oxidation. We find that the isoprene–formaldehyde relationships measured from space are broadly consistent with the current understanding of isoprene–OH chemistry, with no indication of missing OH recycling at low nitrogen oxide concentrations. We analyse these datasets over four global isoprene hotspots in relation to model predictions, and present a quantification of isoprene emissions based directly on satellite measurements of isoprene itself. A major discrepancy emerges over Amazonia, where current underestimates of natural nitrogen oxide emissions bias modelled OH and hence isoprene. Over southern Africa, we find that a prominent isoprene hotspot is missing from bottom-up predictions. A multi-year analysis sheds light on interannual isoprene variability, and suggests the influence of the El Niño/Southern Oscillation.

Suggested Citation

  • Kelley C. Wells & Dylan B. Millet & Vivienne H. Payne & M. Julian Deventer & Kelvin H. Bates & Joost A. Gouw & Martin Graus & Carsten Warneke & Armin Wisthaler & Jose D. Fuentes, 2020. "Satellite isoprene retrievals constrain emissions and atmospheric oxidation," Nature, Nature, vol. 585(7824), pages 225-233, September.
    • Handle: RePEc:nat:nature:v:585:y:2020:i:7824:d:10.1038_s41586-020-2664-3
    DOI: 10.1038/s41586-020-2664-3
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    Cited by:

    1. Jared F. Brewer & Dylan B. Millet & Kelley C. Wells & Vivienne H. Payne & Susan Kulawik & Corinne Vigouroux & Karen E. Cady-Pereira & Rick Pernak & Minqiang Zhou, 2024. "Space-based observations of tropospheric ethane map emissions from fossil fuel extraction," Nature Communications, Nature, vol. 15(1), pages 1-11, December.
    2. Zhiyu Han & Yisheng Zhang & Houyong Zhang & Xuan Ge & Dasa Gu & Xiaohuan Liu & Jianhui Bai & Zizhen Ma & Yan Tan & Feng Zhu & Shiyong Xia & Jinhua Du & Yuran Tan & Xiao Shu & Jingchao Tang & Yingjie S, 2022. "Impacts of Drought and Rehydration Cycles on Isoprene Emissions in Populus nigra Seedlings," IJERPH, MDPI, vol. 19(21), pages 1-13, November.

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