Joseph W. Kloepper
Auburn University
229 Papers
2.3K Citations
Joseph W. Kloepper is an academic researcher from Auburn University. The author has contributed to research in topics: Rhizobacteria & Biology. The author has an hindex of 82, co-authored 229 publications. Previous affiliations of Joseph W. Kloepper include United States Department of Agriculture & University of Alabama.
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Papers
Changes in rhizosphere bacterial gene expression following glyphosate treatment.
Molli M. Newman,Nicola Lorenz,Nigel Hoilett,Nathan R. Lee,Richard P. Dick,Mark R. Liles,Cliff Ramsier,Joseph W. Kloepper +7 more
TL;DR: It is demonstrated that long-term glyphosate use can affect rhizosphere bacterial activities and potentially shift bacterial community composition favoring more glyphosate-tolerant bacteria.
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Insect feeding on cucumber mediated by rhizobacteria-induced plant resistance
Geoffrey W. Zehnder,Joseph W. Kloepper,Sadik Tuzun,Changbin Yao,Gang Wei,Oyette Chambliss,Richard A. Shelby +6 more
TL;DR: Results suggest that a mechanism for PGPR‐induced resistance against cucumber beetle feeding may involve a change in the metabolic pathway for cucurbitacin synthesis.
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•Journal Article
A two-strain mixture of rhizobacteria elicits induction of systemic resistance against Pseudomonas syringae and Cucumber mosaic virus coupled to promotion of plant growth on Arabidopsis thaliana.
TL;DR: The results indicate that some PGPR strains can elicit plant growth promotion by mechanisms that are different from known hormonal signaling pathways, and the mechanism for elicitation of induced resistance by PGPR may be pathogen-dependent.
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Sheath blight disease of rice (Oryza sativa L.) - An overview
K. V. K. Kumar,Munagala S. Reddy,Joseph W. Kloepper,Kathy S. Lawrence,D. E. Groth,M. E. Miller +5 more
TL;DR: Rice is being cultivated in 114 countries throughout the world, and more than 50 countries have a minimum annual production of 100,000 t.
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A method for assessing the root-colonizing capacity of bacteria on maize.
TL;DR: A closed test tube assay was developed for measuring the root colonization capacity of bacteria in raw soil–sand, and root-colonizing bacterial strains successfully grew along the emerging radicle.
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