A guide to photosynthetic gas exchange measurements: Fundamental principles, best practice and potential pitfalls

Florian A. Busch; Elizabeth A. Ainsworth; Anna Amtmann; Amanda P. Cavanagh; Steven M. Driever; John N. Ferguson; Johannes Kromdijk; Tracy Lawson; Andrew D. B. Leakey; Jack S. A. Matthews; Katherine Meacham‐Hensold; Richard L. Vath; Silvere Vialet‐Chabrand; Berkley J. Walker; Maria Papanatsiou

doi:10.1111/pce.14815

A guide to photosynthetic gas exchange measurements: Fundamental principles, best practice and potential pitfalls

Florian A. Busch^*, Elizabeth A. Ainsworth, Anna Amtmann, Amanda P. Cavanagh, Steven M. Driever, John N. Ferguson, Johannes Kromdijk, Tracy Lawson, Andrew D. B. Leakey, Jack S. A. Matthews, Katherine Meacham‐Hensold, Richard L. Vath, Silvere Vialet‐Chabrand, Berkley J. Walker, Maria Papanatsiou^*

^*Corresponding author for this work

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

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Abstract

Gas exchange measurements enable mechanistic insights into the processes that underpin carbon and water fluxes in plant leaves which in turn inform understanding of related processes at a range of scales from individual cells to entire ecosytems. Given the importance of photosynthesis for the global climate discussion it is important to (a) foster a basic understanding of the fundamental principles underpinning the experimental methods used by the broad community, and (b) ensure best practice and correct data interpretation within the research community. In this review, we outline the biochemical and biophysical parameters of photosynthesis that can be investigated with gas exchange measurements and we provide step‐by‐step guidance on how to reliably measure them. We advise on best practices for using gas exchange equipment and highlight potential pitfalls in experimental design and data interpretation. The Supporting Information contains exemplary data sets, experimental protocols and data‐modelling routines. This review is a community effort to equip both the experimental researcher and the data modeller with a solid understanding of the theoretical basis of gas‐exchange measurements, the rationale behind different experimental protocols and the approaches to data interpretation.

Original language	English
Journal	Plant, Cell and Environment
Early online date	6 Feb 2024
DOIs	https://doi.org/10.1111/pce.14815
Publication status	E-pub ahead of print - 6 Feb 2024

Bibliographical note

Acknowledgments:
We thank three anonymous reviewers for their detailed comments that greatly helped in improving this manuscript. This work was supported by the Natural Environment Research Council (grant NE/W00674X/1 to F. A. B.) and by the Biotechnology and Biological Sciences Research Council (grants BB/R019894 and BB/W020289/1 to A. A. and M. P.).

Keywords

photosynthesis
carbon reactions
stomata

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1111/pce.14815Licence: Creative Commons: Attribution (CC BY)

BuschF2024guideFinal published version, 4.2 MBLicence: Creative Commons: Attribution (CC BY)

The role of mesophyll CO2 diffusion in modulating the response of photosynthetic carbon uptake to CO2 enrichment of a mature temperate forest
Busch, F.
Natural Environment Research Council
1/10/22 → 30/09/25
Project: Research Councils

Cite this

Busch, F. A., Ainsworth, E. A., Amtmann, A., Cavanagh, A. P., Driever, S. M., Ferguson, J. N., Kromdijk, J., Lawson, T., Leakey, A. D. B., Matthews, J. S. A., Meacham‐Hensold, K., Vath, R. L., Vialet‐Chabrand, S., Walker, B. J., & Papanatsiou, M. (2024). A guide to photosynthetic gas exchange measurements: Fundamental principles, best practice and potential pitfalls. Plant, Cell and Environment. Advance online publication. https://doi.org/10.1111/pce.14815

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title = "A guide to photosynthetic gas exchange measurements: Fundamental principles, best practice and potential pitfalls",

abstract = "Gas exchange measurements enable mechanistic insights into the processes that underpin carbon and water fluxes in plant leaves which in turn inform understanding of related processes at a range of scales from individual cells to entire ecosytems. Given the importance of photosynthesis for the global climate discussion it is important to (a) foster a basic understanding of the fundamental principles underpinning the experimental methods used by the broad community, and (b) ensure best practice and correct data interpretation within the research community. In this review, we outline the biochemical and biophysical parameters of photosynthesis that can be investigated with gas exchange measurements and we provide step‐by‐step guidance on how to reliably measure them. We advise on best practices for using gas exchange equipment and highlight potential pitfalls in experimental design and data interpretation. The Supporting Information contains exemplary data sets, experimental protocols and data‐modelling routines. This review is a community effort to equip both the experimental researcher and the data modeller with a solid understanding of the theoretical basis of gas‐exchange measurements, the rationale behind different experimental protocols and the approaches to data interpretation.",

keywords = "photosynthesis, carbon reactions, stomata",

author = "Busch, {Florian A.} and Ainsworth, {Elizabeth A.} and Anna Amtmann and Cavanagh, {Amanda P.} and Driever, {Steven M.} and Ferguson, {John N.} and Johannes Kromdijk and Tracy Lawson and Leakey, {Andrew D. B.} and Matthews, {Jack S. A.} and Katherine Meacham‐Hensold and Vath, {Richard L.} and Silvere Vialet‐Chabrand and Walker, {Berkley J.} and Maria Papanatsiou",

note = "Acknowledgments: We thank three anonymous reviewers for their detailed comments that greatly helped in improving this manuscript. This work was supported by the Natural Environment Research Council (grant NE/W00674X/1 to F. A. B.) and by the Biotechnology and Biological Sciences Research Council (grants BB/R019894 and BB/W020289/1 to A. A. and M. P.).",

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Busch, FA, Ainsworth, EA, Amtmann, A, Cavanagh, AP, Driever, SM, Ferguson, JN, Kromdijk, J, Lawson, T, Leakey, ADB, Matthews, JSA, Meacham‐Hensold, K, Vath, RL, Vialet‐Chabrand, S, Walker, BJ & Papanatsiou, M 2024, 'A guide to photosynthetic gas exchange measurements: Fundamental principles, best practice and potential pitfalls', Plant, Cell and Environment. https://doi.org/10.1111/pce.14815

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T1 - A guide to photosynthetic gas exchange measurements

T2 - Fundamental principles, best practice and potential pitfalls

AU - Busch, Florian A.

AU - Ainsworth, Elizabeth A.

AU - Amtmann, Anna

AU - Cavanagh, Amanda P.

AU - Driever, Steven M.

AU - Ferguson, John N.

AU - Kromdijk, Johannes

AU - Lawson, Tracy

AU - Leakey, Andrew D. B.

AU - Matthews, Jack S. A.

AU - Meacham‐Hensold, Katherine

AU - Vath, Richard L.

AU - Vialet‐Chabrand, Silvere

AU - Walker, Berkley J.

AU - Papanatsiou, Maria

N1 - Acknowledgments: We thank three anonymous reviewers for their detailed comments that greatly helped in improving this manuscript. This work was supported by the Natural Environment Research Council (grant NE/W00674X/1 to F. A. B.) and by the Biotechnology and Biological Sciences Research Council (grants BB/R019894 and BB/W020289/1 to A. A. and M. P.).

PY - 2024/2/6

Y1 - 2024/2/6

N2 - Gas exchange measurements enable mechanistic insights into the processes that underpin carbon and water fluxes in plant leaves which in turn inform understanding of related processes at a range of scales from individual cells to entire ecosytems. Given the importance of photosynthesis for the global climate discussion it is important to (a) foster a basic understanding of the fundamental principles underpinning the experimental methods used by the broad community, and (b) ensure best practice and correct data interpretation within the research community. In this review, we outline the biochemical and biophysical parameters of photosynthesis that can be investigated with gas exchange measurements and we provide step‐by‐step guidance on how to reliably measure them. We advise on best practices for using gas exchange equipment and highlight potential pitfalls in experimental design and data interpretation. The Supporting Information contains exemplary data sets, experimental protocols and data‐modelling routines. This review is a community effort to equip both the experimental researcher and the data modeller with a solid understanding of the theoretical basis of gas‐exchange measurements, the rationale behind different experimental protocols and the approaches to data interpretation.

AB - Gas exchange measurements enable mechanistic insights into the processes that underpin carbon and water fluxes in plant leaves which in turn inform understanding of related processes at a range of scales from individual cells to entire ecosytems. Given the importance of photosynthesis for the global climate discussion it is important to (a) foster a basic understanding of the fundamental principles underpinning the experimental methods used by the broad community, and (b) ensure best practice and correct data interpretation within the research community. In this review, we outline the biochemical and biophysical parameters of photosynthesis that can be investigated with gas exchange measurements and we provide step‐by‐step guidance on how to reliably measure them. We advise on best practices for using gas exchange equipment and highlight potential pitfalls in experimental design and data interpretation. The Supporting Information contains exemplary data sets, experimental protocols and data‐modelling routines. This review is a community effort to equip both the experimental researcher and the data modeller with a solid understanding of the theoretical basis of gas‐exchange measurements, the rationale behind different experimental protocols and the approaches to data interpretation.

KW - photosynthesis

KW - carbon reactions

KW - stomata

U2 - 10.1111/pce.14815

DO - 10.1111/pce.14815

M3 - Review article

SN - 0140-7791

JO - Plant, Cell and Environment

JF - Plant, Cell and Environment

ER -

A guide to photosynthetic gas exchange measurements: Fundamental principles, best practice and potential pitfalls

Abstract

Bibliographical note

Keywords

UN SDGs

Access to Document

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Projects

The role of mesophyll CO2 diffusion in modulating the response of photosynthetic carbon uptake to CO2 enrichment of a mature temperate forest

Cite this