Bacillus thuringiensis, Resistance, Allele, Gene and Genetics are his primary areas of study. His work carried out in the field of Bacillus thuringiensis brings together such families of science as Agronomy, Ostrinia, Cereus, Bacillus cereus and Genetically modified crops. His studies in Resistance integrate themes in fields like Adaptation and Sustainability.
His Allele study incorporates themes from Evolutionary biology, Microevolution, Culex pipiens and Fixation. His biological study deals with issues like Pesticide resistance, which deal with fields such as Biotechnology and PEST analysis. In Genetics, Denis Bourguet works on issues like Population genetics, which are connected to Genetic variation, Genetic distance, Genetic diversity, Crambidae and Genetic divergence.
Denis Bourguet spends much of his time researching Ostrinia, Genetics, European corn borer, Bacillus thuringiensis and PEST analysis. The various areas that he examines in his Ostrinia study include Crambidae, Sympatric speciation and Reproductive isolation. Genetics is often connected to Culex pipiens in his work.
His Bacillus thuringiensis study combines topics from a wide range of disciplines, such as Agronomy, Biopesticide, Cereus, Bacillus cereus and Genetically modified crops. His research integrates issues of Pest control, Range and Resistance in his study of PEST analysis. His Allele study results in a more complete grasp of Gene.
Denis Bourguet mostly deals with European corn borer, Host, Ecology, Ostrinia and Genetics. Denis Bourguet combines subjects such as Evolutionary biology and Gene, Candidate gene with his study of European corn borer. The Host study combines topics in areas such as Phenotype, Lepidoptera genitalia and Hymenoptera.
His study on Larva and Host plants is often connected to Preference and Specialization as part of broader study in Ecology. The study incorporates disciplines such as Quantitative trait locus, Genetic Speciation, Amplified fragment length polymorphism and Reproductive isolation in addition to Ostrinia. His Genetics study frequently draws connections between adjacent fields such as Helicoverpa armigera.
His primary areas of study are Resistance, Biotechnology, Plant disease resistance, Pest control and PEST analysis. His studies deal with areas such as Evolutionary biology, Biodiversity, Endangered species and Gene drive, CRISPR as well as Resistance. His Plant disease resistance research is classified as research in Gene.
His research on Pest control often connects related topics like DEET. PEST analysis is closely attributed to Integrated pest management in his study. In most of his Pathogen studies, his work intersects topics such as Virulence.
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Combining Selective Pressures to Enhance the Durability of Disease Resistance Genes
Francois Delmotte;Denis Bourguet;Pierre Franck;Thomas Guillemaud.
Frontiers in Plant Science (2016)
Multiple Transatlantic Introductions of the Western Corn Rootworm
Nicholas Miller;Arnaud Estoup;Stefan Toepfer;Denis Bourguet.
Insecticide Resistance and Dominance Levels
D. Bourguet;A. Genissel;M. Raymond.
Journal of Economic Entomology (2000)
The plcR regulon is involved in the opportunistic properties of Bacillus thuringiensis and Bacillus cereus in mice and insects.
Sylvie Salamitou;Sylvie Salamitou;Françoise Ramisse;Michel Brehélin;Denis Bourguet.
Tracking the evolution of insecticide resistance in the mosquito Culex pipiens
Thomas Lenormand;Thomas Lenormand;Denis Bourguet;Denis Bourguet;Thomas Guillemaud;Thomas Guillemaud;Michel Raymond.
The Hidden and External Costs of Pesticide Use
Denis Bourguet;Thomas Guillemaud.
Fitness costs of insecticide resistance in natural breeding sites of the mosquito Culex pipiens
Denis Bourguet;Thomas Guillemaud;Thomas Guillemaud;Christine Chevillon;Michel Raymond.
Heterogeneity of selection and the evolution of resistance
Denis Bourguet;François Delmotte;Pierre Franck;Xavier Reboud.
Trends in Ecology and Evolution (2013)
Genetic isolation between two sympatric host-plant races of the European corn borer, Ostrinia nubilalis Hübner. I. Sex pheromone, moth emergence timing, and parasitism.
Yan Thomas;Marie Thérèse Bethenod;Laurent Pelozuelo;Brigitte Frerot.
Assortative mating in sympatric host races of the European corn borer.
Thibaut Malausa;Marie-Thérèse Bethenod;Arnaud Bontemps;Denis Bourguet.
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