Decadal increases in carbon uptake offset by respiratory losses across northern permafrost ecosystems

Tundra and boreal ecosystems encompass the northern circumpolar permafrost region and are experiencing rapid environmental change with important implications for the global carbon (C) budget. We analysed multi-decadal time series containing 302 annual estimates of carbon dioxide (CO 2 ) flux across...

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Veröffentlicht in:Nature climate change 2024-07, Vol.14 (8), p.853-862
Hauptverfasser: See, Craig R., Virkkala, Anna-Maria, Natali, Susan M., Rogers, Brendan M., Mauritz, Marguerite, Biasi, Christina, Bokhorst, Stef, Boike, Julia, Bret-Harte, M. Syndonia, Celis, Gerardo, Chae, Namyi, Christensen, Torben R., Murner (Connon), Sara June, Dengel, Sigrid, Dolman, Han, Edgar, Colin W., Elberling, Bo, Emmerton, Craig A., Euskirchen, Eugénie S., Göckede, Mathias, Grelle, Achim, Heffernan, Liam, Helbig, Manuel, Holl, David, Humphreys, Elyn, Iwata, Hiroki, Järveoja, Järvi, Kobayashi, Hideki, Kochendorfer, John, Kolari, Pasi, Kotani, Ayumi, Kutzbach, Lars, Kwon, Min Jung, Lathrop, Emma R., López-Blanco, Efrén, Mammarella, Ivan, Marushchak, Maija E., Mastepanov, Mikhail, Matsuura, Yojiro, Merbold, Lutz, Meyer, Gesa, Minions, Christina, Nilsson, Mats B., Nojeim, Julia, Oberbauer, Steven F., Olefeldt, David, Park, Sang-Jong, Parmentier, Frans-Jan W., Peichl, Matthias, Peter, Darcy, Petrov, Roman, Poyatos, Rafael, Prokushkin, Anatoly S., Quinton, William, Rodenhizer, Heidi, Sachs, Torsten, Savage, Kathleen, Schulze, Christopher, Sjögersten, Sofie, Sonnentag, Oliver, St. Louis, Vincent L., Torn, Margaret S., Tuittila, Eeva-Stiina, Ueyama, Masahito, Varlagin, Andrej, Voigt, Carolina, Watts, Jennifer D., Zona, Donatella, Zyryanov, Viacheslav I., Schuur, Edward A. G.
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Zusammenfassung:Tundra and boreal ecosystems encompass the northern circumpolar permafrost region and are experiencing rapid environmental change with important implications for the global carbon (C) budget. We analysed multi-decadal time series containing 302 annual estimates of carbon dioxide (CO 2 ) flux across 70 permafrost and non-permafrost ecosystems, and 672 estimates of summer CO 2 flux across 181 ecosystems. We find an increase in the annual CO 2 sink across non-permafrost ecosystems but not permafrost ecosystems, despite similar increases in summer uptake. Thus, recent non-growing-season CO 2 losses have substantially impacted the CO 2 balance of permafrost ecosystems. Furthermore, analysis of interannual variability reveals warmer summers amplify the C cycle (increase productivity and respiration) at putatively nitrogen-limited sites and at sites less reliant on summer precipitation for water use. Our findings suggest that water and nutrient availability will be important predictors of the C-cycle response of these ecosystems to future warming. The future of carbon dynamics in the northern high latitudes is uncertain yet represents an important potential feedback under climate change. This study uses a comprehensive observational dataset to show an increasing carbon sink in non-permafrost systems; in permafrost systems uptake was offset by loss.
ISSN:1758-678X
1758-6798
DOI:10.1038/s41558-024-02057-4