Leaf day respiration: low CO2 flux but high significance for metabolism and carbon balance

Guillaume Tcherkez; Paul Gauthier; Thomas N. Buckley; Florian A. Busch; Margaret M. Barbour; Dan Bruhn; Mary A. Heskel; Xiao Ying Gong; Kristine Y. Crous; Kevin Griffin; Danielle Way; Matthew Turnbull; Mark A. Adams; Owen K. Atkin; Graham D. Farquhar; Gabriel Cornic

doi:10.1111/nph.14816

Leaf day respiration: low CO2 flux but high significance for metabolism and carbon balance

Guillaume Tcherkez^*, Paul Gauthier, Thomas N. Buckley, Florian A. Busch, Margaret M. Barbour, Dan Bruhn, Mary A. Heskel, Xiao Ying Gong, Kristine Y. Crous, Kevin Griffin, Danielle Way, Matthew Turnbull, Mark A. Adams, Owen K. Atkin, Graham D. Farquhar, Gabriel Cornic

^*Corresponding author for this work

Research output: Contribution to journal › Journal article › Research › peer-review

136 Citations (Scopus)

Abstract

Contents I. II. III. IV. V. VI. VII. VIII. References Summary: It has been 75 yr since leaf respiratory metabolism in the light (day respiration) was identified as a low-flux metabolic pathway that accompanies photosynthesis. In principle, it provides carbon backbones for nitrogen assimilation and evolves CO₂ and thus impacts on plant carbon and nitrogen balances. However, for a long time, uncertainties have remained as to whether techniques used to measure day respiratory efflux were valid and whether day respiration responded to environmental gaseous conditions. In the past few years, significant advances have been made using carbon isotopes, 'omics' analyses and surveys of respiration rates in mesocosms or ecosystems. There is substantial evidence that day respiration should be viewed as a highly dynamic metabolic pathway that interacts with photosynthesis and photorespiration and responds to atmospheric CO₂ mole fraction. The view of leaf day respiration as a constant and/or negligible parameter of net carbon exchange is now outdated and it should now be regarded as a central actor of plant carbon-use efficiency.

Original language	English
Journal	New Phytologist
Volume	216
Issue number	4
Pages (from-to)	986-1001
Number of pages	16
ISSN	0028-646X
DOIs	https://doi.org/10.1111/nph.14816
Publication status	Published - 2 Oct 2017

Keywords

Carbon balance
CO effects
Mitochondrial metabolism
Photorespiration
Photosynthesis
Respiration

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Tcherkez, G., Gauthier, P., Buckley, T. N., Busch, F. A., Barbour, M. M., Bruhn, D., Heskel, M. A., Gong, X. Y., Crous, K. Y., Griffin, K., Way, D., Turnbull, M., Adams, M. A., Atkin, O. K., Farquhar, G. D., & Cornic, G. (2017). Leaf day respiration: low CO2 flux but high significance for metabolism and carbon balance. New Phytologist, 216(4), 986-1001. https://doi.org/10.1111/nph.14816

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abstract = "Contents I. II. III. IV. V. VI. VII. VIII. References Summary: It has been 75 yr since leaf respiratory metabolism in the light (day respiration) was identified as a low-flux metabolic pathway that accompanies photosynthesis. In principle, it provides carbon backbones for nitrogen assimilation and evolves CO2 and thus impacts on plant carbon and nitrogen balances. However, for a long time, uncertainties have remained as to whether techniques used to measure day respiratory efflux were valid and whether day respiration responded to environmental gaseous conditions. In the past few years, significant advances have been made using carbon isotopes, 'omics' analyses and surveys of respiration rates in mesocosms or ecosystems. There is substantial evidence that day respiration should be viewed as a highly dynamic metabolic pathway that interacts with photosynthesis and photorespiration and responds to atmospheric CO2 mole fraction. The view of leaf day respiration as a constant and/or negligible parameter of net carbon exchange is now outdated and it should now be regarded as a central actor of plant carbon-use efficiency.",

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author = "Guillaume Tcherkez and Paul Gauthier and Buckley, {Thomas N.} and Busch, {Florian A.} and Barbour, {Margaret M.} and Dan Bruhn and Heskel, {Mary A.} and Gong, {Xiao Ying} and Crous, {Kristine Y.} and Kevin Griffin and Danielle Way and Matthew Turnbull and Adams, {Mark A.} and Atkin, {Owen K.} and Farquhar, {Graham D.} and Gabriel Cornic",

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AU - Way, Danielle

AU - Turnbull, Matthew

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AU - Farquhar, Graham D.

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N2 - Contents I. II. III. IV. V. VI. VII. VIII. References Summary: It has been 75 yr since leaf respiratory metabolism in the light (day respiration) was identified as a low-flux metabolic pathway that accompanies photosynthesis. In principle, it provides carbon backbones for nitrogen assimilation and evolves CO2 and thus impacts on plant carbon and nitrogen balances. However, for a long time, uncertainties have remained as to whether techniques used to measure day respiratory efflux were valid and whether day respiration responded to environmental gaseous conditions. In the past few years, significant advances have been made using carbon isotopes, 'omics' analyses and surveys of respiration rates in mesocosms or ecosystems. There is substantial evidence that day respiration should be viewed as a highly dynamic metabolic pathway that interacts with photosynthesis and photorespiration and responds to atmospheric CO2 mole fraction. The view of leaf day respiration as a constant and/or negligible parameter of net carbon exchange is now outdated and it should now be regarded as a central actor of plant carbon-use efficiency.

AB - Contents I. II. III. IV. V. VI. VII. VIII. References Summary: It has been 75 yr since leaf respiratory metabolism in the light (day respiration) was identified as a low-flux metabolic pathway that accompanies photosynthesis. In principle, it provides carbon backbones for nitrogen assimilation and evolves CO2 and thus impacts on plant carbon and nitrogen balances. However, for a long time, uncertainties have remained as to whether techniques used to measure day respiratory efflux were valid and whether day respiration responded to environmental gaseous conditions. In the past few years, significant advances have been made using carbon isotopes, 'omics' analyses and surveys of respiration rates in mesocosms or ecosystems. There is substantial evidence that day respiration should be viewed as a highly dynamic metabolic pathway that interacts with photosynthesis and photorespiration and responds to atmospheric CO2 mole fraction. The view of leaf day respiration as a constant and/or negligible parameter of net carbon exchange is now outdated and it should now be regarded as a central actor of plant carbon-use efficiency.

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Leaf day respiration: low CO2 flux but high significance for metabolism and carbon balance

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