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

Craig R. See; Anna-Maria Ilona Virkkala; Susan M. Natali; Brendan M Rogers; Marguerite Mauritz; Christina Biasi; Stef Bokhorst; Julia Boike; Marion Syndonia Bret-Harte; Gerardo Celis; Namyi Chae; Torben R. Christensen; Sara June Murner; Sigrid Dengel; Han Dolman; Colin Edgar; Bo Elberling; Craig A. Emmerton; Eugenie Euskirchen; Mathias Goeckede; Achim Grelle; Liam Heffernan; Manuel Helbig; David Holl; E.R. Humphreys; Hiroki Iwata; Järvi Järveoja; Hideki Kobayashi; John Kochendorfer; Pasi Kolari; Ayumi Kotani; Lars Kutzbach; Min Jung Kwon; Emma R. Lathrop; Efrén López-Blanco; Ivan Mammarella; Maija E. Marushchak; Mikhail Mastepanov; Yojiro Matsuura; Lutz Merbold; Gesa Meyer; Christina Minions; mats Nilsson; Julia Nojeim; Steven F. Oberbauer; David Olefeldt; sang-jong park; Frans-Jan W. Parmentier; Matthias Peichl; Darcy Peter; Roman Petrov; Rafael Poyatos Lopez

doi:10.1038/s41558-024-02057-4

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

Craig R. See, Anna-Maria Ilona Virkkala, Susan M. Natali, Brendan M Rogers, Marguerite Mauritz, Christina Biasi, Stef Bokhorst, Julia Boike, Marion Syndonia Bret-Harte, Gerardo Celis, Namyi Chae, Torben R. Christensen, Sara June Murner, Sigrid Dengel, Han Dolman, Colin Edgar, Bo Elberling, Craig A. Emmerton, Eugenie Euskirchen, Mathias GoeckedeAchim Grelle, Liam Heffernan, Manuel Helbig, David Holl, E.R. Humphreys, Hiroki Iwata, Järvi Järveoja, Hideki Kobayashi, John Kochendorfer, Pasi Kolari, Ayumi Kotani, Lars Kutzbach, Min Jung Kwon, Emma R. Lathrop, Efrén López-Blanco, Ivan Mammarella, Maija E. Marushchak, Mikhail Mastepanov, Yojiro Matsuura, Lutz Merbold, Gesa Meyer, Christina Minions, mats Nilsson, Julia Nojeim, Steven F. Oberbauer, David Olefeldt, sang-jong park, Frans-Jan W. Parmentier, Matthias Peichl, Darcy Peter, Roman Petrov, Rafael Poyatos Lopez

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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.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.

Idioma original	Anglès
Pàgines (de-a)	853–862
Nombre de pàgines	10
Revista	Nature Climate Change
Volum	14
Número	8
DOIs	https://doi.org/10.1038/s41558-024-02057-4
Estat de la publicació	Publicada - 26 de jul. 2024

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See, C. R., Virkkala, A.-M. I., Natali, S. M., Rogers, B. M., Mauritz, M., Biasi, C., Bokhorst, S., Boike, J., Bret-Harte, M. S., Celis, G., Chae, N., Christensen, T. R., Murner, S. J., Dengel, S., Dolman, H., Edgar, C., Elberling, B., Emmerton, C. A., Euskirchen, E., ... Poyatos Lopez, R. (2024). Decadal increases in carbon uptake offset by respiratory losses across northern permafrost ecosystems. Nature Climate Change, 14(8), 853–862. https://doi.org/10.1038/s41558-024-02057-4

@article{e44b076717784424a33eb99fff43bc99,

title = "Decadal increases in carbon uptake offset by respiratory losses across northern permafrost ecosystems",

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.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.",

keywords = "Boreal, Climate-change, Co2 fluxes, Decomposition, Exchange, Information, Productivity, Storage, Temperature, Terrestrial ecosystems",

author = "See, {Craig R.} and Virkkala, {Anna-Maria Ilona} and Natali, {Susan M.} and Rogers, {Brendan M} and Marguerite Mauritz and Christina Biasi and Stef Bokhorst and Julia Boike and Bret-Harte, {Marion Syndonia} and Gerardo Celis and Namyi Chae and Christensen, {Torben R.} and Murner, {Sara June} and Sigrid Dengel and Han Dolman and Colin Edgar and Bo Elberling and Emmerton, {Craig A.} and Eugenie Euskirchen and Mathias Goeckede and Achim Grelle and Liam Heffernan and Manuel Helbig and David Holl and E.R. Humphreys and Hiroki Iwata and J{\"a}rvi J{\"a}rveoja and Hideki Kobayashi and John Kochendorfer and Pasi Kolari and Ayumi Kotani and Lars Kutzbach and Kwon, {Min Jung} and Lathrop, {Emma R.} and Efr{\'e}n L{\'o}pez-Blanco and Ivan Mammarella and Marushchak, {Maija E.} and Mikhail Mastepanov and Yojiro Matsuura and Lutz Merbold and Gesa Meyer and Christina Minions and mats Nilsson and Julia Nojeim and Oberbauer, {Steven F.} and David Olefeldt and sang-jong park and Parmentier, {Frans-Jan W.} and Matthias Peichl and Darcy Peter and Roman Petrov and {Poyatos Lopez}, Rafael",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2024.",

year = "2024",

month = jul,

day = "26",

doi = "10.1038/s41558-024-02057-4",

language = "English",

volume = "14",

pages = "853–862",

journal = "Nature Climate Change",

issn = "1758-678X",

number = "8",

}

See, CR, Virkkala, A-MI, Natali, SM, Rogers, BM, Mauritz, M, Biasi, C, Bokhorst, S, Boike, J, Bret-Harte, MS, Celis, G, Chae, N, Christensen, TR, Murner, SJ, Dengel, S, Dolman, H, Edgar, C, Elberling, B, Emmerton, CA, Euskirchen, E, Goeckede, M, Grelle, A, Heffernan, L, Helbig, M, Holl, D, Humphreys, ER, Iwata, H, Järveoja, J, Kobayashi, H, Kochendorfer, J, Kolari, P, Kotani, A, Kutzbach, L, Kwon, MJ, Lathrop, ER, López-Blanco, E, Mammarella, I, Marushchak, ME, Mastepanov, M, Matsuura, Y, Merbold, L, Meyer, G, Minions, C, Nilsson, M, Nojeim, J, Oberbauer, SF, Olefeldt, D, park, S, Parmentier, F-JW, Peichl, M, Peter, D, Petrov, R & Poyatos Lopez, R 2024, 'Decadal increases in carbon uptake offset by respiratory losses across northern permafrost ecosystems', Nature Climate Change, vol. 14, núm. 8, pàg. 853–862. https://doi.org/10.1038/s41558-024-02057-4

TY - JOUR

T1 - Decadal increases in carbon uptake offset by respiratory losses across northern permafrost ecosystems

AU - See, Craig R.

AU - Virkkala, Anna-Maria Ilona

AU - Natali, Susan M.

AU - Rogers, Brendan M

AU - Mauritz, Marguerite

AU - Biasi, Christina

AU - Bokhorst, Stef

AU - Boike, Julia

AU - Bret-Harte, Marion Syndonia

AU - Celis, Gerardo

AU - Chae, Namyi

AU - Christensen, Torben R.

AU - Murner, Sara June

AU - Dengel, Sigrid

AU - Dolman, Han

AU - Edgar, Colin

AU - Elberling, Bo

AU - Emmerton, Craig A.

AU - Euskirchen, Eugenie

AU - Goeckede, Mathias

AU - Grelle, Achim

AU - Heffernan, Liam

AU - Helbig, Manuel

AU - Holl, David

AU - Humphreys, E.R.

AU - Iwata, Hiroki

AU - Järveoja, Järvi

AU - Kobayashi, Hideki

AU - Kochendorfer, John

AU - Kolari, Pasi

AU - Kotani, Ayumi

AU - Kutzbach, Lars

AU - Kwon, Min Jung

AU - Lathrop, Emma R.

AU - López-Blanco, Efrén

AU - Mammarella, Ivan

AU - Marushchak, Maija E.

AU - Mastepanov, Mikhail

AU - Matsuura, Yojiro

AU - Merbold, Lutz

AU - Meyer, Gesa

AU - Minions, Christina

AU - Nilsson, mats

AU - Nojeim, Julia

AU - Oberbauer, Steven F.

AU - Olefeldt, David

AU - park, sang-jong

AU - Parmentier, Frans-Jan W.

AU - Peichl, Matthias

AU - Peter, Darcy

AU - Petrov, Roman

AU - Poyatos Lopez, Rafael

PY - 2024/7/26

Y1 - 2024/7/26

N2 - 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.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.

AB - 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.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.

KW - Boreal

KW - Climate-change

KW - Co2 fluxes

KW - Decomposition

KW - Exchange

KW - Information

KW - Productivity

KW - Storage

KW - Temperature

KW - Terrestrial ecosystems

UR - http://www.scopus.com/inward/record.url?scp=85188753152&partnerID=8YFLogxK

UR - https://www.mendeley.com/catalogue/0311db3a-c038-3100-a664-3b57af72a1ad/

U2 - 10.1038/s41558-024-02057-4

DO - 10.1038/s41558-024-02057-4

M3 - Article

SN - 1758-678X

VL - 14

SP - 853

EP - 862

JO - Nature Climate Change

JF - Nature Climate Change

IS - 8

ER -

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

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