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Decadal increases in carbon uptake offset by respiratory losses across northern permafrost ecosystems
- 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 AG
- et al.
Abstract
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 (CO2) flux across 70 permafrost and non-permafrost ecosystems, and 672 estimates of summer CO2 flux across 181 ecosystems. We find an increase in the annual CO2 sink across non-permafrost ecosystems but not permafrost ecosystems, despite similar increases in summer uptake. Thus, recent non-growing-season CO2 losses have substantially impacted the CO2 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.
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