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Oecologia. 2016 Mar;180(3):865-76. doi: 10.1007/s00442-015-3479-z. Epub 2015 Oct 22.

Which plant trait explains the variations in relative growth rate and its response to elevated carbon dioxide concentration among Arabidopsis thaliana ecotypes derived from a variety of habitats?

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Graduate School of Life Sciences, Tohoku University, Sendai, Miyagi, 980-8578, Japan.
Graduate School of Life Sciences, Tohoku University, Sendai, Miyagi, 980-8578, Japan.
Frontier Research Academy for Young Researchers, Kyusyu Institute of Technology, Iizuka, Fukuoka, 820-8502, Japan.
CREST, Japan Science and Technology Agency, Tokyo, Japan.


Elevated atmospheric carbon dioxide (CO2) concentration ([CO2]) enhances plant growth, but this enhancement varies considerably. It is still uncertain which plant traits are quantitatively related to the variation in plant growth. To identify the traits responsible, we developed a growth analysis model that included primary parameters associated with morphology, nitrogen (N) use, and leaf and root activities. We analysed the vegetative growth of 44 ecotypes of Arabidopsis thaliana L. grown at ambient and elevated [CO2] (800 μmol mol(-1)). The 44 ecotypes were selected such that they were derived from various altitudes and latitudes. Relative growth rate (RGR; growth rate per unit plant mass) and its response to [CO2] varied by 1.5- and 1.7-fold among ecotypes, respectively. The variation in RGR at both [CO2]s was mainly explained by the variation in leaf N productivity (LNP; growth rate per leaf N),which was strongly related to photosynthetic N use efficiency (PNUE). The variation in the response of RGR to [CO2] was also explained by the variation in the response of LNP to [CO2]. Genomic analyses indicated that there was no phylogenetic constraint on inter-ecotype variation in the CO2 response of RGR or LNP. We conclude that the significant variation in plant growth and its response to [CO2] among ecotypes reflects the variation in N use for photosynthesis among ecotypes, and that the response of PNUE to CO2 is an important target for predicting and/or breeding plants that have high growth rates at elevated [CO2].


Gas exchange measurement; Genomic analysis; Growth analysis; Natural variation; Relative growth rate

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