Integrating the evidence for a terrestrial carbon sink caused by increasing 
atmospheric CO2

Walker, Anthony P.; De Kauwe, Martin G.; Bastos, Ana; Belmecheri, Soumaya; Georgiou, Katerina; Keeling, Ralph F.; McMahon, Sean M.; Medlyn, Belinda E.; Moore, David J. P.; Norby, Richard J.; Zaehle, Sönke; Anderson-Teixeira, Kristina J.; Battipaglia, Giovanna; Brienen, Roel J. W.; Cabugao, Kristine G.; Cailleret, Maxime; Campbell, Elliott; Canadell, Josep G.; Ciais, Philippe; Craig, Matthew E.; Ellsworth, David S.; Farquhar, Graham D.; Fatichi, Simone; Fisher, Joshua B.; Frank, David C.; Graven, Heather; Gu, Lianhong; Haverd, Vanessa; Heilman, Kelly; Heimann, Martin; Hungate, Bruce A.; Iversen, Colleen M.; Joos, Fortunat; Jiang, Mingkai; Keenan, Trevor F.; Knauer, Jürgen; Körner, Christian; Leshyk, Victor O.; Leuzinger, Sebastian; Liu, Yao; MacBean, Natasha; Malhi, Yadvinder; McVicar, Tim R.; Penuelas, Josep; Pongratz, Julia; Powell, A. Shafer; Riutta, Terhi; Sabot, Manon E. B.; Schleucher, Juergen; Sitch, Stephen; Smith, William K.; Sulman, Benjamin; Taylor, Benton; Terrer, César; Torn, Margaret S.; Treseder, Kathleen K.; Trugman, Anna T.; Trumbore, Susan E.; van Mantgem, Phillip J.; Voelker, Steve L.; Whelan, Mary E.; Zuidema, Pieter A.

doi:10.1111/nph.16866

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Integrating the evidence for a terrestrial carbon sink caused by increasing atmospheric CO2

Walker, A. P., De Kauwe, M. G., Bastos, A., Belmecheri, S., Georgiou, K., Keeling, R. F., et al. (2021). Integrating the evidence for a terrestrial carbon sink caused by increasing atmospheric CO2. New Phytologist, 229, 2413-2445. doi:10.1111/nph.16866.

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Item Permalink: https://hdl.handle.net/21.11116/0000-0007-47F1-9 Version Permalink: https://hdl.handle.net/21.11116/0000-000C-CB8B-3

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Creators:
Walker, Anthony P., Author
De Kauwe, Martin G., Author
Bastos, Ana, Author
Belmecheri, Soumaya, Author
Georgiou, Katerina, Author
Keeling, Ralph F., Author
McMahon, Sean M., Author
Medlyn, Belinda E., Author
Moore, David J. P., Author
Norby, Richard J., Author
Zaehle, Sönke¹, Author
Anderson-Teixeira, Kristina J., Author
Battipaglia, Giovanna, Author
Brienen, Roel J. W., Author
Cabugao, Kristine G., Author
Cailleret, Maxime, Author
Campbell, Elliott, Author
Canadell, Josep G., Author
Ciais, Philippe, Author
Craig, Matthew E., Author
Ellsworth, David S., AuthorFarquhar, Graham D., AuthorFatichi, Simone, AuthorFisher, Joshua B., AuthorFrank, David C., AuthorGraven, Heather, AuthorGu, Lianhong, AuthorHaverd, Vanessa, AuthorHeilman, Kelly, AuthorHeimann, Martin, AuthorHungate, Bruce A., AuthorIversen, Colleen M., AuthorJoos, Fortunat, AuthorJiang, Mingkai, AuthorKeenan, Trevor F., AuthorKnauer, Jürgen, AuthorKörner, Christian, AuthorLeshyk, Victor O., AuthorLeuzinger, Sebastian, AuthorLiu, Yao, AuthorMacBean, Natasha, AuthorMalhi, Yadvinder, AuthorMcVicar, Tim R., AuthorPenuelas, Josep, AuthorPongratz, Julia², Author Powell, A. Shafer, AuthorRiutta, Terhi, AuthorSabot, Manon E. B., AuthorSchleucher, Juergen, AuthorSitch, Stephen, AuthorSmith, William K., AuthorSulman, Benjamin, AuthorTaylor, Benton, AuthorTerrer, César, AuthorTorn, Margaret S., AuthorTreseder, Kathleen K., AuthorTrugman, Anna T., AuthorTrumbore, Susan E., Authorvan Mantgem, Phillip J., AuthorVoelker, Steve L., AuthorWhelan, Mary E., AuthorZuidema, Pieter A., Author more..

Affiliations:
1Max Planck Institute for Biogeochemistry, Max Planck Society, Hans-Knöll-Str. 10, 07745 Jena, DE, ou_1497750
2Emmy Noether Junior Research Group Forest Management in the Earth System, The Land in the Earth System, MPI for Meteorology, Max Planck Society, ou_1832286

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Free keywords: beta factor, carbon dioxide, CO2 fertilization, CO2-fertilization hypothesis, free-air CO2 enrichment (FACE), global carbon cycle, land–atmosphere feedback, terrestrial ecosystems

Abstract: Summary Atmospheric carbon dioxide concentration ([CO2]) is increasing, which increases leaf-scale photosynthesis and intrinsic water-use efficiency. These direct responses have the potential to increase plant growth, vegetation biomass, and soil organic matter; transferring carbon from the atmosphere into terrestrial ecosystems (a carbon sink). A substantial global terrestrial carbon sink would slow the rate of [CO2] increase and thus climate change. However, ecosystem CO2 responses are complex or confounded by concurrent changes in multiple agents of global change and evidence for a [CO2]-driven terrestrial carbon sink can appear contradictory. Here we synthesize theory and broad, multidisciplinary evidence for the effects of increasing [CO2] (iCO2) on the global terrestrial carbon sink. Evidence suggests a substantial increase in global photosynthesis since pre-industrial times. Established theory, supported by experiments, indicates that iCO2 is likely responsible for about half of the increase. Global carbon budgeting, atmospheric data, and forest inventories indicate a historical carbon sink, and these apparent iCO2 responses are high in comparison to experiments and predictions from theory. Plant mortality and soil carbon iCO2 responses are highly uncertain. In conclusion, a range of evidence supports a positive terrestrial carbon sink in response to iCO2, albeit with uncertain magnitude and strong suggestion of a role for additional agents of global change.

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Language(s): eng - English

Dates: Accepted: 2020-08-12Published Online: 2020-10-21Date issued: 2021-03

Publication Status: Issued

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Rev. Type: Peer

Identifiers: DOI: 10.1111/nph.16866
BibTex Citekey: WalkerKauweEtAl2021

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Project name : Quincy

Grant ID : 647204

Funding program : Horizon 2020 (H2020)

Funding organization : European Commission (EC)

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Title: New Phytologist

Source Genre: Journal

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Pages: - Volume / Issue: 229 Sequence Number: - Start / End Page: 2413 - 2445 Identifier: -