International audienceThe breeding of resistant hosts based on the gene-for-gene interaction is crucial to address epidemics of plant pathogens in agroecosystems. Resistant host deployment strategies are developed and studied worldwide to decrease the probability of resistance breakdown and increase the resistance durability in various pathosystems. A major component of deployment strategies is the proportion of resistant hosts in the landscape. However, the impact of this proportion on resistance durability remains unclear for diploid pathogens with complex life cycles. In this study, we modelled pathogen population dynamics and genetic evolution at the virulence locus to assess the impact of the ploidy (haploid or diploid) and the pathoge...
The efficiency of plant major resistance genes is limited by the emergence and spread of resistance‐...
International audienceGrowing genetically resistant plants allows pathogen populations to be control...
Genetically-controlled plant resistance can reduce the damage caused by pathogens. However, pathogen...
International audienceThe breeding of resistant hosts based on the gene-for-gene interaction is cruc...
The emergence of new genotypes of parasites involves several evolutionary, epidemiological and ecolo...
Genetic resistance in crop plants is a cornerstone of disease management in agriculture. Such geneti...
Disease resistance genes are valuable natural resources which should be deployed in a way which maxi...
International audienceMany plant parasites interact with their host through gene-for-gene interactio...
Genetically-controlled plant resistance can reduce the damage caused by pathogens. However, pathogen...
International audienceThe deployment of virus-resistant crops often leads to the emergence of resist...
Cropping genetically resistant plants allows to control pathogen populations while substantially red...
The efficiency of plant major resistance genes is limited by the emergence and spread of resistance‐...
International audienceGrowing genetically resistant plants allows pathogen populations to be control...
Genetically-controlled plant resistance can reduce the damage caused by pathogens. However, pathogen...
International audienceThe breeding of resistant hosts based on the gene-for-gene interaction is cruc...
The emergence of new genotypes of parasites involves several evolutionary, epidemiological and ecolo...
Genetic resistance in crop plants is a cornerstone of disease management in agriculture. Such geneti...
Disease resistance genes are valuable natural resources which should be deployed in a way which maxi...
International audienceMany plant parasites interact with their host through gene-for-gene interactio...
Genetically-controlled plant resistance can reduce the damage caused by pathogens. However, pathogen...
International audienceThe deployment of virus-resistant crops often leads to the emergence of resist...
Cropping genetically resistant plants allows to control pathogen populations while substantially red...
The efficiency of plant major resistance genes is limited by the emergence and spread of resistance‐...
International audienceGrowing genetically resistant plants allows pathogen populations to be control...
Genetically-controlled plant resistance can reduce the damage caused by pathogens. However, pathogen...