Reduced nighttime transpiration is a relevant breeding target for high water-use efficiency in grapevine

Reduced nighttime transpiration is a relevant breeding target for high water-use efficiency in grapevine

Increasing water scarcity challenges crop sustainability inmany regions. As a consequence, the enhancement of transpiration efficiency (TE)—that is, the biomass produced per unit of water transpired—has become crucial in breeding programs. This could be achieved by reducing plant transpiration throu...

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Published in:Proceedings of the National Academy of Sciences - PNAS Vol. 113; no. 32; pp. 8963 - 8968
Main Authors: Coupel-Ledru, Aude, Lebon, Eric, Christophe, Angélique, Gallo, Agustina, Gago, Pilar, Pantin, Florent, Doligez, Agnès, Simonneau, Thierry
Format: Journal Article
Language:English
Published: United States National Academy of Sciences 09-08-2016
Subjects:
Biological Sciences
Biomass
Breeding
Crops
Crops, Agricultural
Cultivars
Drought
Genotype & phenotype
Life Sciences
Photosynthesis
Plant Transpiration
Quantitative Trait Loci
Vegetal Biology
Vitaceae
Vitis - genetics
Vitis - physiology
Water - metabolism
QTL
stomata
growth
night transpiration
transpiration efficiency
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Summary:Increasing water scarcity challenges crop sustainability inmany regions. As a consequence, the enhancement of transpiration efficiency (TE)—that is, the biomass produced per unit of water transpired—has become crucial in breeding programs. This could be achieved by reducing plant transpiration through a better closure of the stomatal pores at the leaf surface. However, this strategy generally also lowers growth, as stomatal opening is necessary for the capture of atmospheric CO₂ that feeds daytime photosynthesis. Here, we considered the reduction in transpiration rate at night (En) as a possible strategy to limit water use without altering growth. For this purpose, we carried out a genetic analysis for En and TE in grapevine, a major crop in drought-prone areas. Using recently developed phenotyping facilities, potted plants of a cross between Syrah and Grenache cultivars were screened for 2 y under well-watered and moderate soil water deficit scenarios. High genetic variability was found for En under both scenarios and was primarily associated with residual diffusion through the stomata. Five quantitative trait loci (QTLs) were detected that underlay genetic variability in En. Interestingly, four of them colocalized with QTLs for TE. Moreover, genotypes with favorable alleles on these common QTLs exhibited reduced En without altered growth. These results demonstrate the interest of breeding grapevine for lower water loss at night and pave the way to breeding other crops with this underexploited trait for higher TE.
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Author contributions: A.C.-L., E.L., A.C., and T.S. designed research; A.C.-L., E.L., A.C., A.G., P.G., and T.S. performed research; A.C.-L. and A.G. analyzed data; and A.C.-L., F.P., and T.S. wrote the paper with the contribution of E.L., A.C., and A.D.
Edited by Natasha V. Raikhel, Center for Plant Cell Biology, Riverside, CA, and approved June 17, 2016 (received for review January 16, 2016)
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.1600826113