Project description:Bacterial wilt caused by Ralstonia solanacearum is a lethal, soil-borne disease of tomato. Control of the disease with chemicals and crop rotation is insufficient, because the pathogen is particularly well adapted for surviving in the soil and rhizosphere. Therefore, cultivar resistance is the most effective means for controlling bacterial wilt, but the molecular mechanisms of resistance responses remain unclear. We used microarrays to obtain the characteristics of the gene expression changes that are induced by R. solanacearum infection in resistant cultivar LS-89 and susceptible cultivar Ponderosa.

Project description:UDSDA Maize Soybean Crop Rotation Microbiome

Project description:Rotation crop

Project description:Influence of long-term fertilization and crop rotation on soil microbiome

Project description:Crop Rotation Sequences affects Subsequent Soybean Yield explained by Soil Microbiome

Project description:The soilborne fungus, Verticillium dahliae, causes Verticillium wilt disease in plants. Verticillium wilt is difficult to control since V. dahliae is capable of persisting in the soil for 10 to15 years as melanized microsclerotia, rendering crop rotation strategies for disease control ineffective. Microsclerotia of V. dahliae overwinter and germinate to produce infectious hyphae that give rise to primary infections. Consequentially, microsclerotia formation, maintenance, and germination are critically important processes in the disease cycle of V. dahliae.

Project description:Crop rotation microorganism

Project description:soil bacteria diversity and community structure under crop rotation combined with short-term fallow

Project description:Microbiota of soil crop rotation (tomato, lettuce, cauliflower)

Project description:Designing crop rotation schemes with plant-soil feedbacks