Combining ecophysiological models and genetic analysis: a promising way to dissect complex adaptive traits in grapevine
Designing genotypes with acceptable performance under warmer or drier environments is essential for sustainable crop production in view of climate change. However, this objective is not trivial for grapevine since traits targeted for genetic improvement are complex and result from many interactions...
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| Published in | OENO one Vol. 51; no. 2; pp. 181 - 189 |
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| Main Authors | , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
International Viticulture and Enology Society (IVES)
01.01.2017
International Viticulture and Enology Society |
| Subjects | |
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| Abstract | Designing genotypes with acceptable performance under warmer or drier environments is essential for sustainable crop production in view of climate change. However, this objective is not trivial for grapevine since traits targeted for genetic improvement are complex and result from many interactions and trade-off between various physiological and molecular processes that are controlled by many environmental conditions. Integrative tools can help to understand and unravel these Genotype × Environment interactions. Indeed, models integrating physiological processes and their genetic control have been shown to provide a relevant framework for analyzing genetic diversity of complex traits and enhancing progress in plant breeding for various environments. Here we provide an overview of the work conducted by the French LACCAVE research consortium on this topic. Modeling abiotic stress tolerance and fruit quality in grapevine is a challenging issue, but it will provide the first step to design and test in silico plants better adapted to future issues of viticulture. |
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| AbstractList | Designing genotypes with acceptable performance under warmer or drier environments is essential for sustainable crop production in view of climate change. However, this objective is not trivial for grapevine since traits targeted for genetic improvement are complex and result from many interactions and trade-off between various physiological and molecular processes that are controlled by many environmental conditions. Integrative tools can help to understand and unravel these Genotype × Environment interactions. Indeed, models integrating physiological processes and their genetic control have been shown to provide a relevant framework for analyzing genetic diversity of complex traits and enhancing progress in plant breeding for various environments. Here we provide an overview of the work conducted by the French LACCAVE research consortium on this topic. Modeling abiotic stress tolerance and fruit quality in grapevine is a challenging issue, but it will provide the first step to design and test in silico plants better adapted to future issues of viticulture. |
| Author | García de Cortázar-Atauri, Iñaki Dai, ZhanWu Vivin, Philippe Duchêne, Eric Simonneau, Thierry Delrot, Serge Lebon, Éric Ollat, Nathalie Marguerit, Elisa Zhu, Junqi Van Leeuwen, Cornelis |
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| Keywords | G×E interaction interaction génotype environnement adaptation au changement climatique genotype environment interaction Process-based models Climate change Grapevine écophysiologie végétale modèle écophysiologique amélioration de la vigne analyse génétique genetical analysis Adaptation |
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| SubjectTerms | abiotic stress adaptation climate change computer simulation ecophysiology fruit quality genetic analysis genetic improvement genetic variation grapevine G×E interaction Life Sciences process-based models stress tolerance sustainable agriculture Vegetal Biology viticulture Vitis |
| Title | Combining ecophysiological models and genetic analysis: a promising way to dissect complex adaptive traits in grapevine |
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