Elevated CO2has concurrent effects on leaf and grain metabolism but minimal effects on yield in wheat

Guillaume Tcherkez; Sinda Ben Mariem; Luis Larraya; Jose M. García-Mina; Angel M. Zamarreño; Alberto Paradela; Jing Cui; Franz Werner Badeck; Diego Meza; Fulvia Rizza; James Bunce; Xue Han; Sabine Tausz-Posch; Luigi Cattivelli; Andreas Fangmeier; Iker Aranjuelo

doi:10.1093/jxb/eraa330

Elevated CO₂has concurrent effects on leaf and grain metabolism but minimal effects on yield in wheat

Guillaume Tcherkez, Sinda Ben Mariem, Luis Larraya, Jose M. García-Mina, Angel M. Zamarreño, Alberto Paradela, Jing Cui, Franz Werner Badeck, Diego Meza, Fulvia Rizza, James Bunce, Xue Han, Sabine Tausz-Posch, Luigi Cattivelli, Andreas Fangmeier, Iker Aranjuelo^*

^*Corresponding author for this work

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

36 Citations (Scopus)

Abstract

While the general effect of CO2 enrichment on photosynthesis, stomatal conductance, N content, and yield has been documented, there is still some uncertainty as to whether there are interactive effects between CO2 enrichment and other factors, such as temperature, geographical location, water availability, and cultivar. In addition, the metabolic coordination between leaves and grains, which is crucial for crop responsiveness to elevated CO2, has never been examined closely. Here, we address these two aspects by multi-level analyses of data from several free-air CO2 enrichment experiments conducted in five different countries. There was little effect of elevated CO2 on yield (except in the USA), likely due to photosynthetic capacity acclimation, as reflected by protein profiles. In addition, there was a significant decrease in leaf amino acids (threonine) and macroelements (e.g. K) at elevated CO2, while other elements, such as Mg or S, increased. Despite the non-significant effect of CO2 enrichment on yield, grains appeared to be significantly depleted in N (as expected), but also in threonine, the S-containing amino acid methionine, and Mg. Overall, our results suggest a strong detrimental effect of CO2 enrichment on nutrient availability and remobilization from leaves to grains.

Original language	English
Pages (from-to)	5990-6003
Number of pages	14
Journal	Journal of Experimental Botany
Volume	71
Issue number	19
DOIs	https://doi.org/10.1093/jxb/eraa330
Publication status	Published - 7 Oct 2020

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Tcherkez, G., Ben Mariem, S., Larraya, L., García-Mina, J. M., Zamarreño, A. M., Paradela, A., Cui, J., Badeck, F. W., Meza, D., Rizza, F., Bunce, J., Han, X., Tausz-Posch, S., Cattivelli, L., Fangmeier, A., & Aranjuelo, I. (2020). Elevated CO₂has concurrent effects on leaf and grain metabolism but minimal effects on yield in wheat. Journal of Experimental Botany, 71(19), 5990-6003. https://doi.org/10.1093/jxb/eraa330

@article{cd9c00a6514d4203955c844581ad0de0,

title = "Elevated CO2has concurrent effects on leaf and grain metabolism but minimal effects on yield in wheat",

abstract = "While the general effect of CO2 enrichment on photosynthesis, stomatal conductance, N content, and yield has been documented, there is still some uncertainty as to whether there are interactive effects between CO2 enrichment and other factors, such as temperature, geographical location, water availability, and cultivar. In addition, the metabolic coordination between leaves and grains, which is crucial for crop responsiveness to elevated CO2, has never been examined closely. Here, we address these two aspects by multi-level analyses of data from several free-air CO2 enrichment experiments conducted in five different countries. There was little effect of elevated CO2 on yield (except in the USA), likely due to photosynthetic capacity acclimation, as reflected by protein profiles. In addition, there was a significant decrease in leaf amino acids (threonine) and macroelements (e.g. K) at elevated CO2, while other elements, such as Mg or S, increased. Despite the non-significant effect of CO2 enrichment on yield, grains appeared to be significantly depleted in N (as expected), but also in threonine, the S-containing amino acid methionine, and Mg. Overall, our results suggest a strong detrimental effect of CO2 enrichment on nutrient availability and remobilization from leaves to grains.",

keywords = "Climate change, Multiple locations, N/C metabolism, Physiology, Ree-air COenrichment (FACE), Varieties, Wheat",

author = "Guillaume Tcherkez and {Ben Mariem}, Sinda and Luis Larraya and Garc{\'i}a-Mina, {Jose M.} and Zamarre{\~n}o, {Angel M.} and Alberto Paradela and Jing Cui and Badeck, {Franz Werner} and Diego Meza and Fulvia Rizza and James Bunce and Xue Han and Sabine Tausz-Posch and Luigi Cattivelli and Andreas Fangmeier and Iker Aranjuelo",

note = "Publisher Copyright: {\textcopyright} 2020 The Author(s) 2020. Published by Oxford University Press on behalf of the Society for Experimental Biology.",

year = "2020",

month = oct,

day = "7",

doi = "10.1093/jxb/eraa330",

language = "English",

volume = "71",

pages = "5990--6003",

journal = "Journal of Experimental Botany",

issn = "0022-0957",

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Tcherkez, G, Ben Mariem, S, Larraya, L, García-Mina, JM, Zamarreño, AM, Paradela, A, Cui, J, Badeck, FW, Meza, D, Rizza, F, Bunce, J, Han, X, Tausz-Posch, S, Cattivelli, L, Fangmeier, A & Aranjuelo, I 2020, 'Elevated CO₂has concurrent effects on leaf and grain metabolism but minimal effects on yield in wheat', Journal of Experimental Botany, vol. 71, no. 19, pp. 5990-6003. https://doi.org/10.1093/jxb/eraa330

TY - JOUR

T1 - Elevated CO2has concurrent effects on leaf and grain metabolism but minimal effects on yield in wheat

AU - Tcherkez, Guillaume

AU - Ben Mariem, Sinda

AU - Larraya, Luis

AU - García-Mina, Jose M.

AU - Zamarreño, Angel M.

AU - Paradela, Alberto

AU - Cui, Jing

AU - Badeck, Franz Werner

AU - Meza, Diego

AU - Rizza, Fulvia

AU - Bunce, James

AU - Han, Xue

AU - Tausz-Posch, Sabine

AU - Cattivelli, Luigi

AU - Fangmeier, Andreas

AU - Aranjuelo, Iker

PY - 2020/10/7

Y1 - 2020/10/7

N2 - While the general effect of CO2 enrichment on photosynthesis, stomatal conductance, N content, and yield has been documented, there is still some uncertainty as to whether there are interactive effects between CO2 enrichment and other factors, such as temperature, geographical location, water availability, and cultivar. In addition, the metabolic coordination between leaves and grains, which is crucial for crop responsiveness to elevated CO2, has never been examined closely. Here, we address these two aspects by multi-level analyses of data from several free-air CO2 enrichment experiments conducted in five different countries. There was little effect of elevated CO2 on yield (except in the USA), likely due to photosynthetic capacity acclimation, as reflected by protein profiles. In addition, there was a significant decrease in leaf amino acids (threonine) and macroelements (e.g. K) at elevated CO2, while other elements, such as Mg or S, increased. Despite the non-significant effect of CO2 enrichment on yield, grains appeared to be significantly depleted in N (as expected), but also in threonine, the S-containing amino acid methionine, and Mg. Overall, our results suggest a strong detrimental effect of CO2 enrichment on nutrient availability and remobilization from leaves to grains.

AB - While the general effect of CO2 enrichment on photosynthesis, stomatal conductance, N content, and yield has been documented, there is still some uncertainty as to whether there are interactive effects between CO2 enrichment and other factors, such as temperature, geographical location, water availability, and cultivar. In addition, the metabolic coordination between leaves and grains, which is crucial for crop responsiveness to elevated CO2, has never been examined closely. Here, we address these two aspects by multi-level analyses of data from several free-air CO2 enrichment experiments conducted in five different countries. There was little effect of elevated CO2 on yield (except in the USA), likely due to photosynthetic capacity acclimation, as reflected by protein profiles. In addition, there was a significant decrease in leaf amino acids (threonine) and macroelements (e.g. K) at elevated CO2, while other elements, such as Mg or S, increased. Despite the non-significant effect of CO2 enrichment on yield, grains appeared to be significantly depleted in N (as expected), but also in threonine, the S-containing amino acid methionine, and Mg. Overall, our results suggest a strong detrimental effect of CO2 enrichment on nutrient availability and remobilization from leaves to grains.

KW - Climate change

KW - Multiple locations

KW - N/C metabolism

KW - Physiology

KW - Ree-air COenrichment (FACE)

KW - Varieties

KW - Wheat

UR - http://www.scopus.com/inward/record.url?scp=85094950898&partnerID=8YFLogxK

U2 - 10.1093/jxb/eraa330

DO - 10.1093/jxb/eraa330

M3 - Article

SN - 0022-0957

VL - 71

SP - 5990

EP - 6003

JO - Journal of Experimental Botany

JF - Journal of Experimental Botany

IS - 19

ER -

Elevated CO₂has concurrent effects on leaf and grain metabolism but minimal effects on yield in wheat

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