Journal ArticleDOI
Plant growth promoting rhizobacteria as biofertilizers
TLDR
This review focuses on the known, the putative, and the speculative modes-of-action of PGPR, which include fixing N2, increasing the availability of nutrients in the rhizosphere, positively influencing root growth and morphology, and promoting other beneficial plant–microbe symbioses.Abstract:
Numerous species of soil bacteria which flourish in the rhizosphere of plants, but which may grow in, on, or around plant tissues, stimulate plant growth by a plethora of mechanisms. These bacteria are collectively known as PGPR (plant growth promoting rhizobacteria). The search for PGPR and investigation of their modes of action are increasing at a rapid pace as efforts are made to exploit them commercially as biofertilizers. After an initial clarification of the term biofertilizers and the nature of associations between PGPR and plants (i.e., endophytic versus rhizospheric), this review focuses on the known, the putative, and the speculative modes-of-action of PGPR. These modes of action include fixing N2, increasing the availability of nutrients in the rhizosphere, positively influencing root growth and morphology, and promoting other beneficial plant–microbe symbioses. The combination of these modes of actions in PGPR is also addressed, as well as the challenges facing the more widespread utilization of PGPR as biofertilizers.read more
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Book ChapterDOI
Plant–Microbe Interactions for Sustainable Agriculture: Fundamentals and Recent Advances
TL;DR: The present review highlights the importance of PGPR for enhancing crop production by highlighting the limitations related to the use of bacterial inoculants under natural field conditions and some important basics related to their formulation and commercialization.
Journal ArticleDOI
Probiotic Pseudomonas communities enhance plant growth and nutrient assimilation via diversity-mediated ecosystem functioning
Jie Hu,Jie Hu,Zhong Wei,Simone Weidner,Ville-Petri Friman,Yangchun Xu,Qirong Shen,Alexandre Jousset,Alexandre Jousset +8 more
TL;DR: It is found that increasing the richness of the bacterial inoculant enhanced the survival and abundance of Pseudomonas communities leading to higher accumulation of plant biomass and more efficient assimilation of nutrients into the plant tissue, suggesting that multi-strains microbial inoculants can promote plant growth more reliably and effectively compared to single-strain inoculantes.
Journal ArticleDOI
A natural rice rhizospheric bacterium abates arsenic accumulation in rice (Oryza sativa L.).
Venkatachalam Lakshmanan,Deepak Shantharaj,Gang Li,Angelia L. Seyfferth,D. Janine Sherrier,Harsh P. Bais +5 more
TL;DR: Results show that both arsenic and iron concentrations in rice can be altered by inoculation with the soil microbe EA106, and suggests that this microbe may have the potential to increase food quality through a reduction in accumulation of toxic As species within the aerial portions of the plant.
Journal ArticleDOI
Screening for putative PGPR to improve establishment of the symbiosis Lactarius deliciosus-Pinus sp.
Jorge Barriuso,M. T. Pereyra,J. A. Lucas García,Manuel Megías,F. J. Gutierrez Mañero,B. Ramos +5 more
TL;DR: The results suggest that P. pinaster selects for mycorrhizosphere bacteria that mobilize nutrients, whereas P. pinea selects for bacteria that have the capacity to increase root growth via production of plant growth regulators.
Water stress responses of two Mediterranean tree species influenced
TL;DR: The results indicate that microbial associates of roots can significantly influence the response of tree seedlings to drought, but the magnitude and sign of this effect seems to depend on the water-use strategy of the species.
References
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Journal ArticleDOI
Phosphate solubilizing bacteria and their role in plant growth promotion
Hilda Rodríguez,Reynaldo Fraga +1 more
TL;DR: Genetic manipulation of phosphate-solubilizing bacteria to improve their ability to improve plant growth may include cloning genes involved in both mineral and organic phosphate solubilization, followed by their expression in selected rhizobacterial strains.
Journal ArticleDOI
The enhancement of plant growth by free-living bacteria
TL;DR: The ways in which plant growth promoting rhizobacteria facilitate the growth of plants are considered and discussed and the possibility of improving plant growth promotion by specific genetic manipulation is critically examined.
Journal ArticleDOI
Microbial interactions and biocontrol in the rhizosphere
TL;DR: Multiple microbial interactions involving bacteria and fungi in the rhizosphere are shown to provide enhanced biocontrol in many cases in comparison with biocOntrol agents used singly.
Journal ArticleDOI
Soil Fertility and Fertilizers
TL;DR: Soil fertility and fertilizers, Soil fertility, fertilizers and soil fertility and fertility, this paper, soil fertility, soil fertility, fertility, and fertilization, etc.
Journal ArticleDOI
A Model For the Lowering of Plant Ethylene Concentrations by Plant Growth-promoting Bacteria
TL;DR: It is argued that the simplest explanation for the observed biological activity of plant growth promoting rhizobacteria relates to the relative amounts of 1-aminocyclopropane-1-carboxylate deaminase and 1-amino-2-car boxylate oxidase in the system under consideration.
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