Environmental factors have a greater influence on photosynthetic capacity in C4 plants than biochemical subtypes or growth forms

Yuzhen Fan; Daniel W.A. Noble; Belinda E. Medlyn; Russell K. Monson; Rowan F. Sage; Nicholas G. Smith; Elizabeth A. Ainsworth; Florian A. Busch; Florence R. Danila; Maria Ermakova; Patrick Friesen; Robert T. Furbank; Shu Han Gan; Oula Ghannoum; Daniel M. Griffith; Lianhong Gu; Vinod Jacob; Jürgen Knauer; Andrew D.B. Leakey; Shuai Li; Danica L. Lombardozzi; Martha Ludwig; Varsha S. Pathare; Murilo M. Peixoto; Karine Prado; Balasaheb V. Sonawane; Christopher J. Still; Susanne von Caemmerer; Russell Woodford; Danielle A. Way

doi:10.1111/nph.70525

Environmental factors have a greater influence on photosynthetic capacity in C₄ plants than biochemical subtypes or growth forms

Yuzhen Fan, Daniel W.A. Noble, Belinda E. Medlyn, Russell K. Monson, Rowan F. Sage, Nicholas G. Smith, Elizabeth A. Ainsworth, Florian A. Busch, Florence R. Danila, Maria Ermakova, Patrick Friesen, Robert T. Furbank, Shu Han Gan, Oula Ghannoum, Daniel M. Griffith, Lianhong Gu, Vinod Jacob, Jürgen Knauer, Andrew D.B. Leakey, Shuai LiDanica L. Lombardozzi, Martha Ludwig, Varsha S. Pathare, Murilo M. Peixoto, Karine Prado, Balasaheb V. Sonawane, Christopher J. Still, Susanne von Caemmerer, Russell Woodford, Danielle A. Way

Research output: Contribution to journal › Article › peer-review

Abstract

Our understanding of how photosynthetic capacity varies among C₄ species and across growth and measurement conditions remains limited. We collated 1696 CO₂ response curves of net CO₂ assimilation rate (A/C_i curves) from C₄ species grown and measured at various environmental conditions and used these data to estimate the apparent maximum carboxylation activity of phosphoenolpyruvate carboxylase (V_pmaxA) and CO₂-saturated net photosynthetic rate (A_max), two key parameters describing photosynthetic capacity. We examined how V_pmaxA and A_max vary with species-specific traits, growth and measurement conditions. We found little systematic variation of V_pmaxA and A_max across the classical C₄ biochemical subtypes or growth forms, but showed that growth temperature and measurement conditions are major factors determining C₄ photosynthetic capacity. We found no evidence that common C₄ model species (e.g. maize, sorghum and Setaria viridis) differ in photosynthetic capacity from other C₄ species when grown in controlled environments. However, C₄ model species showed up to twice the photosynthetic capacity of other C₄ species when grown in the field. Our multivariate model accounts for 47–51% of the variation reported in V_pmaxA and A_max, and we argue that environmental conditions have a greater influence on C₄ photosynthetic capacity than biochemical subtypes or growth forms.

Original language	English
Pages (from-to)	1205-1224
Number of pages	20
Journal	New Phytologist
Volume	248
Issue number	3
DOIs	https://doi.org/10.1111/nph.70525
State	Published - Nov 2025
Externally published	Yes

Keywords

A
A/C curve
C biochemical subtype
C photosynthesis
V
environmental response
photosynthesis modelling

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10.1111/nph.70525

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Fan, Y., Noble, D. W. A., Medlyn, B. E., Monson, R. K., Sage, R. F., Smith, N. G., Ainsworth, E. A., Busch, F. A., Danila, F. R., Ermakova, M., Friesen, P., Furbank, R. T., Gan, S. H., Ghannoum, O., Griffith, D. M., Gu, L., Jacob, V., Knauer, J., Leakey, A. D. B., ... Way, D. A. (2025). Environmental factors have a greater influence on photosynthetic capacity in C₄ plants than biochemical subtypes or growth forms. New Phytologist, 248(3), 1205-1224. https://doi.org/10.1111/nph.70525

@article{fb69567fe8c34316b43a522f543ee523,

title = "Environmental factors have a greater influence on photosynthetic capacity in C4 plants than biochemical subtypes or growth forms",

abstract = "Our understanding of how photosynthetic capacity varies among C4 species and across growth and measurement conditions remains limited. We collated 1696 CO2 response curves of net CO2 assimilation rate (A/Ci curves) from C4 species grown and measured at various environmental conditions and used these data to estimate the apparent maximum carboxylation activity of phosphoenolpyruvate carboxylase (VpmaxA) and CO2-saturated net photosynthetic rate (Amax), two key parameters describing photosynthetic capacity. We examined how VpmaxA and Amax vary with species-specific traits, growth and measurement conditions. We found little systematic variation of VpmaxA and Amax across the classical C4 biochemical subtypes or growth forms, but showed that growth temperature and measurement conditions are major factors determining C4 photosynthetic capacity. We found no evidence that common C4 model species (e.g. maize, sorghum and Setaria viridis) differ in photosynthetic capacity from other C4 species when grown in controlled environments. However, C4 model species showed up to twice the photosynthetic capacity of other C4 species when grown in the field. Our multivariate model accounts for 47–51\% of the variation reported in VpmaxA and Amax, and we argue that environmental conditions have a greater influence on C4 photosynthetic capacity than biochemical subtypes or growth forms.",

keywords = "A, A/C curve, C biochemical subtype, C photosynthesis, V, environmental response, photosynthesis modelling",

author = "Yuzhen Fan and Noble, \{Daniel W.A.\} and Medlyn, \{Belinda E.\} and Monson, \{Russell K.\} and Sage, \{Rowan F.\} and Smith, \{Nicholas G.\} and Ainsworth, \{Elizabeth A.\} and Busch, \{Florian A.\} and Danila, \{Florence R.\} and Maria Ermakova and Patrick Friesen and Furbank, \{Robert T.\} and Gan, \{Shu Han\} and Oula Ghannoum and Griffith, \{Daniel M.\} and Lianhong Gu and Vinod Jacob and J{\"u}rgen Knauer and Leakey, \{Andrew D.B.\} and Shuai Li and Lombardozzi, \{Danica L.\} and Martha Ludwig and Pathare, \{Varsha S.\} and Peixoto, \{Murilo M.\} and Karine Prado and Sonawane, \{Balasaheb V.\} and Still, \{Christopher J.\} and \{von Caemmerer\}, Susanne and Russell Woodford and Way, \{Danielle A.\}",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). New Phytologist {\textcopyright} 2025 New Phytologist Foundation.",

year = "2025",

month = nov,

doi = "10.1111/nph.70525",

language = "English",

volume = "248",

pages = "1205--1224",

journal = "New Phytologist",

issn = "0028-646X",

publisher = "Wiley-Blackwell Publishing Ltd",

number = "3",

}

Fan, Y, Noble, DWA, Medlyn, BE, Monson, RK, Sage, RF, Smith, NG, Ainsworth, EA, Busch, FA, Danila, FR, Ermakova, M, Friesen, P, Furbank, RT, Gan, SH, Ghannoum, O, Griffith, DM, Gu, L, Jacob, V, Knauer, J, Leakey, ADB, Li, S, Lombardozzi, DL, Ludwig, M, Pathare, VS, Peixoto, MM, Prado, K, Sonawane, BV, Still, CJ, von Caemmerer, S, Woodford, R & Way, DA 2025, 'Environmental factors have a greater influence on photosynthetic capacity in C₄ plants than biochemical subtypes or growth forms', New Phytologist, vol. 248, no. 3, pp. 1205-1224. https://doi.org/10.1111/nph.70525

TY - JOUR

T1 - Environmental factors have a greater influence on photosynthetic capacity in C4 plants than biochemical subtypes or growth forms

AU - Fan, Yuzhen

AU - Noble, Daniel W.A.

AU - Medlyn, Belinda E.

AU - Monson, Russell K.

AU - Sage, Rowan F.

AU - Smith, Nicholas G.

AU - Ainsworth, Elizabeth A.

AU - Busch, Florian A.

AU - Danila, Florence R.

AU - Ermakova, Maria

AU - Friesen, Patrick

AU - Furbank, Robert T.

AU - Gan, Shu Han

AU - Ghannoum, Oula

AU - Griffith, Daniel M.

AU - Gu, Lianhong

AU - Jacob, Vinod

AU - Knauer, Jürgen

AU - Leakey, Andrew D.B.

AU - Li, Shuai

AU - Lombardozzi, Danica L.

AU - Ludwig, Martha

AU - Pathare, Varsha S.

AU - Peixoto, Murilo M.

AU - Prado, Karine

AU - Sonawane, Balasaheb V.

AU - Still, Christopher J.

AU - von Caemmerer, Susanne

AU - Woodford, Russell

AU - Way, Danielle A.

PY - 2025/11

Y1 - 2025/11

N2 - Our understanding of how photosynthetic capacity varies among C4 species and across growth and measurement conditions remains limited. We collated 1696 CO2 response curves of net CO2 assimilation rate (A/Ci curves) from C4 species grown and measured at various environmental conditions and used these data to estimate the apparent maximum carboxylation activity of phosphoenolpyruvate carboxylase (VpmaxA) and CO2-saturated net photosynthetic rate (Amax), two key parameters describing photosynthetic capacity. We examined how VpmaxA and Amax vary with species-specific traits, growth and measurement conditions. We found little systematic variation of VpmaxA and Amax across the classical C4 biochemical subtypes or growth forms, but showed that growth temperature and measurement conditions are major factors determining C4 photosynthetic capacity. We found no evidence that common C4 model species (e.g. maize, sorghum and Setaria viridis) differ in photosynthetic capacity from other C4 species when grown in controlled environments. However, C4 model species showed up to twice the photosynthetic capacity of other C4 species when grown in the field. Our multivariate model accounts for 47–51% of the variation reported in VpmaxA and Amax, and we argue that environmental conditions have a greater influence on C4 photosynthetic capacity than biochemical subtypes or growth forms.

AB - Our understanding of how photosynthetic capacity varies among C4 species and across growth and measurement conditions remains limited. We collated 1696 CO2 response curves of net CO2 assimilation rate (A/Ci curves) from C4 species grown and measured at various environmental conditions and used these data to estimate the apparent maximum carboxylation activity of phosphoenolpyruvate carboxylase (VpmaxA) and CO2-saturated net photosynthetic rate (Amax), two key parameters describing photosynthetic capacity. We examined how VpmaxA and Amax vary with species-specific traits, growth and measurement conditions. We found little systematic variation of VpmaxA and Amax across the classical C4 biochemical subtypes or growth forms, but showed that growth temperature and measurement conditions are major factors determining C4 photosynthetic capacity. We found no evidence that common C4 model species (e.g. maize, sorghum and Setaria viridis) differ in photosynthetic capacity from other C4 species when grown in controlled environments. However, C4 model species showed up to twice the photosynthetic capacity of other C4 species when grown in the field. Our multivariate model accounts for 47–51% of the variation reported in VpmaxA and Amax, and we argue that environmental conditions have a greater influence on C4 photosynthetic capacity than biochemical subtypes or growth forms.

KW - A

KW - A/C curve

KW - C biochemical subtype

KW - C photosynthesis

KW - V

KW - environmental response

KW - photosynthesis modelling

UR - https://www.scopus.com/pages/publications/105014745222

U2 - 10.1111/nph.70525

DO - 10.1111/nph.70525

M3 - Article

AN - SCOPUS:105014745222

SN - 0028-646X

VL - 248

SP - 1205

EP - 1224

JO - New Phytologist

JF - New Phytologist

IS - 3

ER -

Environmental factors have a greater influence on photosynthetic capacity in C₄ plants than biochemical subtypes or growth forms

Abstract

Keywords

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