Pseudomonas fluorescens not only enhances the plant growth but also controls the fungal pathogens by production of anti fungal metabolites. The objective of this experiment was to identify P. fluorescens using different biochemical tests. This research was carried out in Plant Pathology Laboratory at Agriculture and Forestry University (AFU), Rampur, Chitwan, Nepal. The result of this experiment indicated that P. fluorescens gave positive result for Catalase test, Gelatin liquefaction, Fluorescent pigment and Oxidase test but negative result for starch hydrolysis test. The colony of P. fluorescens was maximum in maize seed than that of rice seed after two hours of inoculation, whereas higher number of colony was found in rice seed than tha...
Native fluorescent Pseudomonas isolates from the rhizosphere of various crops grown in the state of ...
For the control of bacterial blight of rice caused by Xanthomonasoryzaepv. oryzae, sixty four Pseudo...
Not AvailablePlant–bacterial interactions in the rhizosphere are complex and determine the plant hea...
Fusarium oxysporum is an abundant plant pathogen in the soil and is found in the rhizosphere of many...
Soil-borne plant pathogenic fungi are of major concern problem in agriculture which affects yield an...
Fluorescent Pseudomonas spp. are an important group of plant growth promoting rhizobacteria (PGPR). ...
Fluorescent pseudomonads, acclaimed plant associated bacterial group, are well-known plant growth pr...
Soil samples of five different locations of rhizosphere of tomato. The sample used for identific...
Not AvailableAbstractTraits involved in plant growth promotion by bacteria are ambiguously decided a...
The present study emphasizes on the isolation and characterization of strains of fluorescent Pseudom...
This study focused on the antagonistic potential of fluorescent Pseudomonas in vitro, and its inocul...
MSc (Biology), North-West University, Mafikeng CampusContamination of maize (Zea mays L.) with fumon...
This study focused on the antagonistic potential of fluorescent Pseudomonas in vitro, and its inoc...
fluorescens and 15 P. aeruginosa) were obtained from different plant rhizospheres and were character...
peer-reviewedLand plants exist in close association with bacterial and fungal microbes, where some a...
Native fluorescent Pseudomonas isolates from the rhizosphere of various crops grown in the state of ...
For the control of bacterial blight of rice caused by Xanthomonasoryzaepv. oryzae, sixty four Pseudo...
Not AvailablePlant–bacterial interactions in the rhizosphere are complex and determine the plant hea...
Fusarium oxysporum is an abundant plant pathogen in the soil and is found in the rhizosphere of many...
Soil-borne plant pathogenic fungi are of major concern problem in agriculture which affects yield an...
Fluorescent Pseudomonas spp. are an important group of plant growth promoting rhizobacteria (PGPR). ...
Fluorescent pseudomonads, acclaimed plant associated bacterial group, are well-known plant growth pr...
Soil samples of five different locations of rhizosphere of tomato. The sample used for identific...
Not AvailableAbstractTraits involved in plant growth promotion by bacteria are ambiguously decided a...
The present study emphasizes on the isolation and characterization of strains of fluorescent Pseudom...
This study focused on the antagonistic potential of fluorescent Pseudomonas in vitro, and its inocul...
MSc (Biology), North-West University, Mafikeng CampusContamination of maize (Zea mays L.) with fumon...
This study focused on the antagonistic potential of fluorescent Pseudomonas in vitro, and its inoc...
fluorescens and 15 P. aeruginosa) were obtained from different plant rhizospheres and were character...
peer-reviewedLand plants exist in close association with bacterial and fungal microbes, where some a...
Native fluorescent Pseudomonas isolates from the rhizosphere of various crops grown in the state of ...
For the control of bacterial blight of rice caused by Xanthomonasoryzaepv. oryzae, sixty four Pseudo...
Not AvailablePlant–bacterial interactions in the rhizosphere are complex and determine the plant hea...