Guiding deployment of resistance in cereals using evolutionary principles
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Disease Resistance Gene Analogs (RGAs) in PlantsCombining Selective Pressures to Enhance the Durability of Disease Resistance GenesWeeds, as ancillary hosts, pose disproportionate risk for virulent pathogen transfer to cropsGenome-Wide Association Studies In Plant Pathosystems: Toward an Ecological Genomics Approach.Loci associated with resistance to stripe rust (Puccinia striiformis f. sp. tritici) in a core collection of spring wheat (Triticum aestivum)Crop pathogen emergence and evolution in agro-ecological landscapes.Population genetic analysis reveals cryptic sex in the phytopathogenic fungus Alternaria alternata.Epidemiological and Evolutionary Outcomes in Gene-for-Gene and Matching Allele Models.Adaptation of a plant pathogen to partial host resistance: selection for greater aggressiveness in grapevine downy mildew.Characterization of molecular diversity and genome-wide mapping of loci associated with resistance to stripe rust and stem rust in Ethiopian bread wheat accessions.Molecular genetics and evolution of disease resistance in cereals.Development of SCAR marker associated with downy mildew disease resistance in pearl millet (Pennisetum glaucum L.).Emergence of new virulent populations of apple scab from nonagricultural disease reservoirs.Mosaics often outperform pyramids: insights from a model comparing strategies for the deployment of plant resistance genes against viruses in agricultural landscapes.Trade-off between disease resistance and crop yield: a landscape-scale mathematical modelling perspectiveEvolutionary Applications research highlights for issue 9: the ever-evolving field of agriculture.In situ conservation-harnessing natural and human-derived evolutionary forces to ensure future crop adaptation.Current Status and Challenges in Identifying Disease Resistance Genes in Brassica napus.Unlocking new alleles for leaf rust resistance in the Vavilov wheat collection.Host-induced silencing of essential genes in Puccinia triticina through transgenic expression of RNAi sequences reduces severity of leaf rust infection in wheat.Pyramiding of transgenic Pm3 alleles in wheat results in improved powdery mildew resistance in the field.Assessing the durability and efficiency of landscape-based strategies to deploy plant resistance to pathogens.Differential impact of landscape-scale strategies for crop cultivar deployment on disease dynamics, resistance durability and long-term evolutionary control.Spatio-temporal connectivity and host resistance influence evolutionary and epidemiological dynamics of the canola pathogenMosaics, mixtures, rotations or pyramiding: What is the optimal strategy to deploy major gene resistance?
P2860
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P2860
Guiding deployment of resistance in cereals using evolutionary principles
description
2014 nî lūn-bûn
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2014年の論文
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2014年論文
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2014年論文
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2014年論文
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2014年論文
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2014年論文
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2014年论文
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2014年论文
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2014年论文
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name
Guiding deployment of resistance in cereals using evolutionary principles
@en
Guiding deployment of resistance in cereals using evolutionary principles
@nl
type
label
Guiding deployment of resistance in cereals using evolutionary principles
@en
Guiding deployment of resistance in cereals using evolutionary principles
@nl
prefLabel
Guiding deployment of resistance in cereals using evolutionary principles
@en
Guiding deployment of resistance in cereals using evolutionary principles
@nl
P2093
P2860
P356
P1476
Guiding deployment of resistance in cereals using evolutionary principles
@en
P2093
Jeremy J Burdon
Luke G Barrett
Peter H Thrall
P2860
P304
P356
10.1111/EVA.12175
P577
2014-06-11T00:00:00Z