Phosphate-solubilizing bacterial strains(6 Nos.) were isolated from the rhizosphere soils of two seagrasses(Halophila ovalis(R.Br.) Hook and Halodule pinifolia(Miki) Hartog) in the Vellar estuary.Experimental studies ...Phosphate-solubilizing bacterial strains(6 Nos.) were isolated from the rhizosphere soils of two seagrasses(Halophila ovalis(R.Br.) Hook and Halodule pinifolia(Miki) Hartog) in the Vellar estuary.Experimental studies found that the strain PSSG6 was effective in phosphate solubilization with Phosphate Solubilization efficiency index E = 375 ± 8.54,followed by the strain PSSG5 with Phosphate Solubilization efficiency index E = 275 ± 27.3.Of the 6 strains isolated,the strains PSSG4 and PSSG5 be-longed to the genus Bacillus,and PSSG1,PSSG2 and PSSG3 were identified as Citrobacter sp.,Shigella sp.,and Klebsiella sp.,respectively,by conventional method,and PSSG6 was identified as Bacillus circulans using conventional and molecular methods.展开更多
Forty-five rhizofungal isolates were isolated, identified and characterized from 11 herbicides polluted-soil. Among the isolates, 10 fungal species proved to be the most potent and promising ones in herbicides toleran...Forty-five rhizofungal isolates were isolated, identified and characterized from 11 herbicides polluted-soil. Among the isolates, 10 fungal species proved to be the most potent and promising ones in herbicides tolerance. The herbicides exhibited severe and dramatic effect and modulation on fungal DNA and protein represented in DNA and protein profile. Severely loss in the total soluble cell ions (SCI) and total cell protein percentage (TCPC) concentrations were observed. The loss of SCI by glyphosate, Aspergillus flavus (86,30%) was the most affected one, followed by Penicillium spiculisporus (76,30%), Penicilliurn verruculosum (64.40%) and Alternaria tenuissima (64%), respectively. For pendimethalin, Alternaria tenuissima (54.01%) was the most affected fungi. For diclofop-methyl, Penicillium spiculisporus (74.20%) was the most affected fungi. The loss of TCPC by glyphosate, Alternaria tenuissima (64.71%) was the most effected fungi, followed by Penicillium spiculisporus (57.14%), respectively. For pendimethalin, A. terreus (54.29%) w, as the most affected fungi. For diclofop-methyl, Penicillium spiculisporus (60%) was the most affected fungi, fbllowed by Alternaria tenuissima (58.82%), Aspergillus tamarii (55.56%), respectively. The results proved severe reductions and alteration in protein, SCI, TCPC and DNA in fungal strains exposed to these herbicides which might reflex a degree of tolerance occurred during the assimilation of those toxic compounds from the pesticides polluted-soil.展开更多
文摘Phosphate-solubilizing bacterial strains(6 Nos.) were isolated from the rhizosphere soils of two seagrasses(Halophila ovalis(R.Br.) Hook and Halodule pinifolia(Miki) Hartog) in the Vellar estuary.Experimental studies found that the strain PSSG6 was effective in phosphate solubilization with Phosphate Solubilization efficiency index E = 375 ± 8.54,followed by the strain PSSG5 with Phosphate Solubilization efficiency index E = 275 ± 27.3.Of the 6 strains isolated,the strains PSSG4 and PSSG5 be-longed to the genus Bacillus,and PSSG1,PSSG2 and PSSG3 were identified as Citrobacter sp.,Shigella sp.,and Klebsiella sp.,respectively,by conventional method,and PSSG6 was identified as Bacillus circulans using conventional and molecular methods.
文摘Forty-five rhizofungal isolates were isolated, identified and characterized from 11 herbicides polluted-soil. Among the isolates, 10 fungal species proved to be the most potent and promising ones in herbicides tolerance. The herbicides exhibited severe and dramatic effect and modulation on fungal DNA and protein represented in DNA and protein profile. Severely loss in the total soluble cell ions (SCI) and total cell protein percentage (TCPC) concentrations were observed. The loss of SCI by glyphosate, Aspergillus flavus (86,30%) was the most affected one, followed by Penicillium spiculisporus (76,30%), Penicilliurn verruculosum (64.40%) and Alternaria tenuissima (64%), respectively. For pendimethalin, Alternaria tenuissima (54.01%) was the most affected fungi. For diclofop-methyl, Penicillium spiculisporus (74.20%) was the most affected fungi. The loss of TCPC by glyphosate, Alternaria tenuissima (64.71%) was the most effected fungi, followed by Penicillium spiculisporus (57.14%), respectively. For pendimethalin, A. terreus (54.29%) w, as the most affected fungi. For diclofop-methyl, Penicillium spiculisporus (60%) was the most affected fungi, fbllowed by Alternaria tenuissima (58.82%), Aspergillus tamarii (55.56%), respectively. The results proved severe reductions and alteration in protein, SCI, TCPC and DNA in fungal strains exposed to these herbicides which might reflex a degree of tolerance occurred during the assimilation of those toxic compounds from the pesticides polluted-soil.
