The fate of carbon in a mature forest under carbon dioxide enrichment

Mingkai Jiang¹, Belinda E Medlyn², John E Drake^{3

4}, Remko A Duursma³, Ian C Anderson³, Craig V M Barton³, Matthias M Boer³, Yolima Carrillo³, Laura Castañeda-Gómez³, Luke Collins^{3

5

6}, Kristine Y Crous³, Martin G De Kauwe^{7

8

9}, Bruna M Dos Santos^{10

11}, Kathryn M Emmerson¹², Sarah L Facey³, Andrew N Gherlenda³, Teresa E Gimeno^{3

13

14}, Shun Hasegawa^{3

15}, Scott N Johnson³, Astrid Kännaste¹⁶, Catriona A Macdonald³, Kashif Mahmud^{3

17}, Ben D Moore³, Loïc Nazaries³, Elizabeth H J Neilson^{10

11}, Uffe N Nielsen³, Ülo Niinemets¹⁶, Nam Jin Noh^{3

18}, Raúl Ochoa-Hueso^{3

19}, Varsha S Pathare^{3

20}, Elise Pendall³, Johanna Pihlblad³, Juan Piñeiro^{3

21}, Jeff R Powell³, Sally A Power³, Peter B Reich^{3

22}, Alexandre A Renchon³, Markus Riegler³, Riikka Rinnan²³, Paul D Rymer³, Roberto L Salomón²⁴, Brajesh K Singh^{3

25}, Benjamin Smith^{3

26}, Mark G Tjoelker³, Jennifer K M Walker³, Agnieszka Wujeska-Klause³, Jinyan Yang³, Sönke Zaehle²⁷, David S Ellsworth³

Affiliations

¹ Hawkesbury Institute for the Environment, Western Sydney University, Penrith, New South Wales, Australia. m.jiang@westernsydney.edu.au.
² Hawkesbury Institute for the Environment, Western Sydney University, Penrith, New South Wales, Australia. b.medlyn@westernsydney.edu.au.
³ Hawkesbury Institute for the Environment, Western Sydney University, Penrith, New South Wales, Australia.
⁴ Department of Sustainable Resources Management, College of Environmental Science and Forestry, State University of New York, Syracuse, NY, USA.
⁵ Department of Ecology, Environment and Evolution, La Trobe University, Bundoora, Victoria, Australia.
⁶ Arthur Rylah Institute for Environmental Research, Department of Environment, Land, Water and Planning, Heidelberg, Victoria, Australia.
⁷ ARC Centre of Excellence for Climate Extremes, University of New South Wales, Sydney, New South Wales, Australia.
⁸ Climate Change Research Centre, University of New South Wales, Sydney, New South Wales, Australia.
⁹ Evolution and Ecology Research Centre, University of New South Wales, Sydney, New South Wales, Australia.
¹⁰ Plant Biochemistry Laboratory, Department of Plant and Environmental Sciences, University of Copenhagen, Copenhagen, Denmark.
¹¹ VILLUM Research Center for Plant Plasticity, University of Copenhagen, Copenhagen, Denmark.
¹² Climate Science Centre, CSIRO Oceans and Atmosphere, Aspendale, Victoria, Australia.
¹³ Basque Centre for Climate Change, Leioa, Spain.
¹⁴ Ikerbasque, Basque Foundation for Science, Bilbao, Spain.
¹⁵ Department of Forest Ecology and Management, Swedish University of Agricultural Sciences (SLU), Umeå, Sweden.
¹⁶ Estonian University of Life Sciences, Tartu, Estonia.
¹⁷ Department of Geography, Indiana University, Bloomington, IN, USA.
¹⁸ Forest Technology and Management Research Center, National Institute of Forest Science, Pocheon, South Korea.
¹⁹ Department of Biology, IVAGRO, University of Cádiz, Campus de Excelencia Internacional Agroalimentario (CeiA3), Cádiz, Spain.
²⁰ School of Biological Sciences, Washington State University, Pullman, WA, USA.
²¹ Division of Plant and Soil Sciences, West Virginia University, Morgantown, WV, USA.
²² Department of Forest Resources, University of Minnesota, St Paul, MN, USA.
²³ Terrestrial Ecology Section, Department of Biology, University of Copenhagen, Copenhagen, Denmark.
²⁴ Laboratory of Plant Ecology, Faculty of Bioscience Engineering, Ghent University, Ghent, Belgium.
²⁵ Global Centre for Land Based Innovation, Western Sydney University, Penrith, New South Wales, Australia.
²⁶ Department of Physical Geography and Ecosystem Science, Lund University, Lund, Sweden.
²⁷ Max Planck Institute for Biogeochemistry, Jena, Germany.

PMID: 32269351
DOI: 10.1038/s41586-020-2128-9

The fate of carbon in a mature forest under carbon dioxide enrichment

Mingkai Jiang et al. Nature. 2020 Apr.

. 2020 Apr;580(7802):227-231.

doi: 10.1038/s41586-020-2128-9. Epub 2020 Apr 8.

Authors

Affiliations

¹ Hawkesbury Institute for the Environment, Western Sydney University, Penrith, New South Wales, Australia. m.jiang@westernsydney.edu.au.
² Hawkesbury Institute for the Environment, Western Sydney University, Penrith, New South Wales, Australia. b.medlyn@westernsydney.edu.au.
³ Hawkesbury Institute for the Environment, Western Sydney University, Penrith, New South Wales, Australia.
⁴ Department of Sustainable Resources Management, College of Environmental Science and Forestry, State University of New York, Syracuse, NY, USA.
⁵ Department of Ecology, Environment and Evolution, La Trobe University, Bundoora, Victoria, Australia.
⁶ Arthur Rylah Institute for Environmental Research, Department of Environment, Land, Water and Planning, Heidelberg, Victoria, Australia.
⁷ ARC Centre of Excellence for Climate Extremes, University of New South Wales, Sydney, New South Wales, Australia.
⁸ Climate Change Research Centre, University of New South Wales, Sydney, New South Wales, Australia.
⁹ Evolution and Ecology Research Centre, University of New South Wales, Sydney, New South Wales, Australia.
¹⁰ Plant Biochemistry Laboratory, Department of Plant and Environmental Sciences, University of Copenhagen, Copenhagen, Denmark.
¹¹ VILLUM Research Center for Plant Plasticity, University of Copenhagen, Copenhagen, Denmark.
¹² Climate Science Centre, CSIRO Oceans and Atmosphere, Aspendale, Victoria, Australia.
¹³ Basque Centre for Climate Change, Leioa, Spain.
¹⁴ Ikerbasque, Basque Foundation for Science, Bilbao, Spain.
¹⁵ Department of Forest Ecology and Management, Swedish University of Agricultural Sciences (SLU), Umeå, Sweden.
¹⁶ Estonian University of Life Sciences, Tartu, Estonia.
¹⁷ Department of Geography, Indiana University, Bloomington, IN, USA.
¹⁸ Forest Technology and Management Research Center, National Institute of Forest Science, Pocheon, South Korea.
¹⁹ Department of Biology, IVAGRO, University of Cádiz, Campus de Excelencia Internacional Agroalimentario (CeiA3), Cádiz, Spain.
²⁰ School of Biological Sciences, Washington State University, Pullman, WA, USA.
²¹ Division of Plant and Soil Sciences, West Virginia University, Morgantown, WV, USA.
²² Department of Forest Resources, University of Minnesota, St Paul, MN, USA.
²³ Terrestrial Ecology Section, Department of Biology, University of Copenhagen, Copenhagen, Denmark.
²⁴ Laboratory of Plant Ecology, Faculty of Bioscience Engineering, Ghent University, Ghent, Belgium.
²⁵ Global Centre for Land Based Innovation, Western Sydney University, Penrith, New South Wales, Australia.
²⁶ Department of Physical Geography and Ecosystem Science, Lund University, Lund, Sweden.
²⁷ Max Planck Institute for Biogeochemistry, Jena, Germany.

PMID: 32269351
DOI: 10.1038/s41586-020-2128-9

Abstract

Atmospheric carbon dioxide enrichment (eCO₂) can enhance plant carbon uptake and growth^1-5, thereby providing an important negative feedback to climate change by slowing the rate of increase of the atmospheric CO₂ concentration⁶. Although evidence gathered from young aggrading forests has generally indicated a strong CO₂ fertilization effect on biomass growth^3-5, it is unclear whether mature forests respond to eCO₂ in a similar way. In mature trees and forest stands^7-10, photosynthetic uptake has been found to increase under eCO₂ without any apparent accompanying growth response, leaving the fate of additional carbon fixed under eCO₂ unclear^4,5,7-11. Here using data from the first ecosystem-scale Free-Air CO₂ Enrichment (FACE) experiment in a mature forest, we constructed a comprehensive ecosystem carbon budget to track the fate of carbon as the forest responded to four years of eCO₂ exposure. We show that, although the eCO₂ treatment of +150 parts per million (+38 per cent) above ambient levels induced a 12 per cent (+247 grams of carbon per square metre per year) increase in carbon uptake through gross primary production, this additional carbon uptake did not lead to increased carbon sequestration at the ecosystem level. Instead, the majority of the extra carbon was emitted back into the atmosphere via several respiratory fluxes, with increased soil respiration alone accounting for half of the total uptake surplus. Our results call into question the predominant thinking that the capacity of forests to act as carbon sinks will be generally enhanced under eCO₂, and challenge the efficacy of climate mitigation strategies that rely on ubiquitous CO₂ fertilization as a driver of increased carbon sinks in global forests.

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Comment in

Mature forest shows little increase in carbon uptake in a CO₂-enriched atmosphere.
Luo Y, Niu S. Luo Y, et al. Nature. 2020 Apr;580(7802):191-192. doi: 10.1038/d41586-020-00962-0. Nature. 2020. PMID: 32269347 No abstract available.

References

1. Le Quéré, C. L. et al. Global carbon budget 2018. Earth Syst. Sci. Data 10, 2141–2194 (2018).
1. Schimel, D., Stephens, B. B. & Fisher, J. B. Effect of increasing CO₂ on the terrestrial carbon cycle. Proc. Natl Acad. Sci. USA 112, 436–441 (2015). - PubMed - PMC
1. Walker, A. P. et al. Decadal biomass increment in early secondary successional woody ecosystems is increased by CO₂ enrichment. Nat. Commun. 10, 454 (2019). - PubMed - PMC
1. Norby, R. J. & Zak, D. R. Ecological lessons from Free-Air CO₂ Enrichment (FACE) experiments. Annu. Rev. Ecol. Evol. Syst. 42, 181–203 (2011).
1. Leuzinger, S. & Hättenschwiler, S. Beyond global change: lessons from 25 years of CO₂ research. Oecologia 171, 639–651 (2013). - PubMed - PMC

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The fate of carbon in a mature forest under carbon dioxide enrichment

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The fate of carbon in a mature forest under carbon dioxide enrichment

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Abstract

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