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, 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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https://hdl.handle.net/11250/3146951Utgivelsesdato
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Sammendrag
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.