J. D. van Elsas
Federal University of Rio de Janeiro
137 Papers
2.6K Citations
J. D. van Elsas is an academic researcher from Federal University of Rio de Janeiro. The author has contributed to research in topics: Pseudomonas fluorescens & Rhizosphere. The author has an hindex of 56, co-authored 137 publications. Previous affiliations of J. D. van Elsas include Norwegian University of Science and Technology & University of Guelph.
Chat about Author
Papers
•Book
Molecular Microbial Ecology Manual
Antoon D. L. Akkermans,J. D. van Elsas,F. J. de Bruijn +2 more
- 23 Aug 2014
TL;DR: The state-of-the-art methods described in MMEM-II have not only been provided by experts in the field, but in most cases by the laboratories that actually first developed and applied the methods, thus providing the MM EM-II user with unique first-hand tips and insight.
1.7K
Microbial diversity in soil: Selection of microbial populations by plant and soil type and implications for disease suppressiveness
TL;DR: This review focuses on recent data relating how plant type, soil type, and soil management regime affect the microbial diversity of soil and the implication for the soil's disease suppressiveness.
1.5K
Fate and activity of microorganisms introduced into soil.
TL;DR: This review discusses the available information on the effects of key factors that determine the fate and activity of microorganisms introduced into soil, with emphasis on bacteria and the physiological status of the inoculant cells.
731
Functional characteristics of an endophyte community colonizing rice roots as revealed by metagenomic analysis.
Angela Sessitsch,Pablo R. Hardoim,J. Döring,Alexandra Weilharter,Andrea Krause,Tanja Woyke,Birgit Mitter,Lena Hauberg-Lotte,Frauke Friedrich,Monali C. Rahalkar,Thomas Hurek,Abhijit Sarkar,Levente Bodrossy,L.S. van Overbeek,D. Brar,J. D. van Elsas,Barbara Reinhold-Hurek +16 more
TL;DR: The first metagenomic approach to analyze an endophytic bacterial community resident inside roots of rice, one of the most important staple foods, suggests a high potential of the endophyte community for plant-growth promotion, improvement of plant stress resistance, biocontrol against pathogens, and bioremediation, regardless of their culturability.
727
Rapid DNA extraction protocol from soil for polymerase chain reaction‐mediated amplification
TL;DR: The extraction and purification protocol applied to various different soil types resulted in DNA of sufficient purity to permit amplification by PCR, and target DNA was detected in soil 5 months after release, when the introduced organism was no longer detectable on selective agar plates.
355