Genetic Variation of Morphological Traits and Transpiration in an Apple Core Collection under Well-Watered Conditions: Towards the Identification of Morphotypes with High Water Use Efficiency

Water use efficiency (WUE) is a quantitative measurement which improvement is a major issue in the context of global warming and restrictions in water availability for agriculture. In this study, we aimed at studying the variation and genetic control of WUE and the respective role of its components...

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Published in:	PloS one Vol. 10; no. 12; p. e0145540
Main Authors:	Lopez, Gerardo, Pallas, Benoît, Martinez, Sébastien, Lauri, Pierre-Éric, Regnard, Jean-Luc, Durel, Charles-Éric, Costes, Evelyne
Format:	Journal Article
Language:	English
Published:	United States Public Library of Science 30-12-2015 Public Library of Science (PLoS)
Subjects:	Agriculture Analysis Biomass Cell division Climate change Collection Efficiency Elongation Fruits Genetic control Genetic diversity Genetic Variation - genetics Genomes Genotype Genotypes Global temperature changes Global warming Heritability Life Sciences Malus - genetics Malus - growth & development Malus - metabolism Morphology Organs Phenotype Phenotyping Photosynthesis Physiology Plant biomass Plant Development - genetics Plant growth Plant Leaves - genetics Plant Leaves - growth & development Plant Leaves - metabolism Plant Transpiration - genetics Scions Seedlings - genetics Seedlings - growth & development Seedlings - metabolism Spatial heterogeneity Studies Transpiration Trees Trees - genetics Trees - growth & development Trees - metabolism Vegetal Biology Water - metabolism Water availability Water use Water use efficiency Water Wells France
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Summary:	Water use efficiency (WUE) is a quantitative measurement which improvement is a major issue in the context of global warming and restrictions in water availability for agriculture. In this study, we aimed at studying the variation and genetic control of WUE and the respective role of its components (plant biomass and transpiration) in a perennial fruit crop. We explored an INRA apple core collection grown in a phenotyping platform to screen one-year-old scions for their accumulated biomass, transpiration and WUE under optimal growing conditions. Plant biomass was decompose into morphological components related to either growth or organ expansion. For each trait, nine mixed models were evaluated to account for the genetic effect and spatial heterogeneity inside the platform. The Best Linear Unbiased Predictors of genetic values were estimated after model selection. Mean broad-sense heritabilities were calculated from variance estimates. Heritability values indicated that biomass (0.76) and WUE (0.73) were under genetic control. This genetic control was lower in plant transpiration with an heritability of 0.54. Across the collection, biomass accounted for 70% of the WUE variability. A Hierarchical Ascendant Classification of the core collection indicated the existence of six groups of genotypes with contrasting morphology and WUE. Differences between morphotypes were interpreted as resulting from differences in the main processes responsible for plant growth: cell division leading to the generation of new organs and cell elongation leading to organ dimension. Although further studies will be necessary on mature trees with more complex architecture and multiple sinks such as fruits, this study is a first step for improving apple plant material for the use of water.
Bibliography:	Competing Interests: The authors have declared that no competing interests exist. Conceived and designed the experiments: GL BP PEL JLR CED EC. Performed the experiments: GL BP SM PEL JLR EC. Analyzed the data: GL BP. Contributed reagents/materials/analysis tools: SM CED. Wrote the paper: GL BP EC. Revised the manuscript: PEL JLR CED EC.
ISSN:	1932-6203 1932-6203
DOI:	10.1371/journal.pone.0145540