2016
DOI: 10.1104/pp.16.00621
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Genome-wide analysis of yield in Europe: allelic effects as functions of drought and heat scenarios

Abstract: Assessing the genetic variability of plant performance under heat and drought scenarios can contribute to reduce the negative effects of climate change. We propose here an approach that consisted of (1) clustering time courses of environmental variables simulated by a crop model in current (35 years 3 55 sites) and future conditions into six scenarios of temperature and water deficit as experienced by maize (Zea mays L.) plants; (2) performing 29 field experiments in contrasting conditions across Europe with 2… Show more

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Cited by 107 publications
(202 citation statements)
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“…Nonetheless, since selecting among early generation progeny for expression of complex traits is not always feasible (due in part to very large numbers), it is expected that genomic selection-potentially in combination with high throughput phenotyping of few integrative traits like canopy temperature and vegetative indices (Rutkoski 2016)-will find valuable application in selection of early generations based on strategic crossing for complex physiological traits. Marker assisted selection (MAS) has not delivered as expected (Langridge and Reynolds 2015) but remains a possibility, especially if QTL 9 environment interactions can be more effectively modeled (Millet et al 2016). …”
Section: Pt Breeding Approach and Wider Breeding Objectivesmentioning
confidence: 99%
“…Nonetheless, since selecting among early generation progeny for expression of complex traits is not always feasible (due in part to very large numbers), it is expected that genomic selection-potentially in combination with high throughput phenotyping of few integrative traits like canopy temperature and vegetative indices (Rutkoski 2016)-will find valuable application in selection of early generations based on strategic crossing for complex physiological traits. Marker assisted selection (MAS) has not delivered as expected (Langridge and Reynolds 2015) but remains a possibility, especially if QTL 9 environment interactions can be more effectively modeled (Millet et al 2016). …”
Section: Pt Breeding Approach and Wider Breeding Objectivesmentioning
confidence: 99%
“…Most physiological or genetic studies use conventional time for measuring periods of sensitivity (Ferris et al, 1998;Shah and Paulsen, 2003). Recently, Millet et al (2016) used thermal time centered on anthesis date for QTL detection in maize (Zea mays) for specific responses to four drought scenarios and three temperature scenarios (Chenu et al, 2013;Harrison et al, 2014). However, the environment was either still considered as a qualitative factor or analyzed in a quantitative way but only centered on anthesis.…”
Section: Relevance Of the Periods Of Sensitivities Calculated In The mentioning
confidence: 99%
“…Rather than using conventional time (Tashiro and Wardlaw, 1990;Ferris et al, 1998;Shah and Paulsen, 2003), we used percentage of flowering time expressed as thermal time to allow the periods to be linked to physiological plant stages, even for genotypes with contrasting phenology (Chenu et al, 2013;Harrison et al, 2014;Millet et al, 2016). By contrast with conventional indicators used in the field, such as thresholds of temperature or drought (Kuchel et al, 2007) or average yield at a site (Fleury et al, 2010), these periods of sensitivity together with the precise monitoring of environmental conditions allowed definition of the environmental conditions as quantitative variables.…”
Section: Relevance Of the Periods Of Sensitivities Calculated In The mentioning
confidence: 99%
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