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
A proposal for avoiding fresh-weight measurements when reporting the effect of plant growth-promoting (rhizo)bacteria on growth promotion of plants
TL;DR: The finding that growth promotion effects by PGPR/PGPB are not statistically consistent between fresh and dry weight and that fresh weight lacks the same precision as dry weight is based on two independent studies specifically designed to compare fresh anddry weight determinations of the same treatment over variety of crops, bacterial strains, and environmental conditions.
•Journal Article
Biological control of rotylenchulus reniformis on soybean by plant growth-promoting rhizobacteria
TL;DR: PGPR strain Bmo3 showed biological control potential for R. reniformis on soybean in greenhouse and field trials and had a statistically equivalent level of eggs/g root as the chemical standard abamectin.
Plant growth promotion by Bacillus amyloliquefaciens FZB45 depends on inoculum rate and P-related soil properties
TL;DR: It is demonstrated that soil modulates the performance of plant growth-promoting rhizobacteria in a specific manner, consistent to the mechanisms of action involved, an important step in increasing the consistency of PGPR.
Microbial-Based Inoculants Impact Nitrous Oxide Emissions from an Incubated Soil Medium Containing Urea Fertilizers
TL;DR: Test the hypothesis that microbial-based inoculants known to promote root growth and nutrient uptake can reduce NO emissions in the presence of N fertilizers under controlled conditions and demonstrated that microbes can reduce No emissions associated with N fertilizer application, and this response varies with the type of microbes and fertilizer.
Role of iron in rhizobacteria-mediated induced systemic resistance of cucumber
TL;DR: The data suggest that catechol siderophore biosynthesis genes in Serratia marcescens 90-166 are associated with ISR but that this role may be indirect via a reduction in internal root populations.