δ13C methane source signatures from tropical wetland and rice field emissions

δ13C methane source signatures from tropical wetland and rice field emissions

The atmospheric methane (CH 4 ) burden is rising sharply, but the causes are still not well understood. One factor of uncertainty is the importance of tropical CH 4 emissions into the global mix. Isotopic signatures of major sources remain poorly constrained, despite their usefulness in constraining...

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Veröffentlicht in:Philosophical transactions of the Royal Society of London. Series A: Mathematical, physical, and engineering sciences physical, and engineering sciences, 2021-12, Vol.380 (2215)
Hauptverfasser: France, James L., Fisher, Rebecca E., Lowry, David, Allen, Grant, Andrade, Marcos F., Bauguitte, Stéphane J.-B., Bower, Keith, Broderick, Timothy J., Daly, Michael C., Forster, Grant, Gondwe, Mangaliso, Helfter, Carole, Hoyt, Alison M., Jones, Anna E., Lanoisellé, Mathias, Moreno, Isabel, Nisbet-Jones, Peter B. R., Oram, David, Pasternak, Dominika, Pitt, Joseph R., Skiba, Ute, Stephens, Mark, Wilde, Shona E., Nisbet, Euan G.
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container_title Philosophical transactions of the Royal Society of London. Series A: Mathematical, physical, and engineering sciences
container_volume 380
creator France, James L.
Fisher, Rebecca E.
Lowry, David
Allen, Grant
Andrade, Marcos F.
Bauguitte, Stéphane J.-B.
Bower, Keith
Broderick, Timothy J.
Daly, Michael C.
Forster, Grant
Gondwe, Mangaliso
Helfter, Carole
Hoyt, Alison M.
Jones, Anna E.
Lanoisellé, Mathias
Moreno, Isabel
Nisbet-Jones, Peter B. R.
Oram, David
Pasternak, Dominika
Pitt, Joseph R.
Skiba, Ute
Stephens, Mark
Wilde, Shona E.
Nisbet, Euan G.
description The atmospheric methane (CH 4 ) burden is rising sharply, but the causes are still not well understood. One factor of uncertainty is the importance of tropical CH 4 emissions into the global mix. Isotopic signatures of major sources remain poorly constrained, despite their usefulness in constraining the global methane budget. Here, a collection of new δ 13 C CH 4 signatures is presented for a range of tropical wetlands and rice fields determined from air samples collected during campaigns from 2016 to 2020. Long-term monitoring of δ 13 C CH 4 in ambient air has been conducted at the Chacaltaya observatory, Bolivia and Southern Botswana. Both long-term records are dominated by biogenic CH 4 sources, with isotopic signatures expected from wetland sources. From the longer-term Bolivian record, a seasonal isotopic shift is observed corresponding to wetland extent suggesting that there is input of relatively isotopically light CH 4 to the atmosphere during periods of reduced wetland extent. This new data expands the geographical extent and range of measurements of tropical wetland and rice δ 13 C CH 4 sources and hints at significant seasonal variation in tropical wetland δ 13 C CH 4 signatures which may be important to capture in future global and regional models. This article is part of a discussion meeting issue ‘Rising methane: is warming feeding warming? (part 2)’.
doi_str_mv 10.1098/rsta.2020.0449
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title δ13C methane source signatures from tropical wetland and rice field emissions
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