Direct and indirect plant growth-promoting abilities of Bacillus species on chickpea, isolated from compost and rhizosphere soils
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M. Sreevidya, Subramaniam Gopalakrishnan. (31/3/2017). Direct and indirect plant growth-promoting abilities of Bacillus species on chickpea, isolated from compost and rhizosphere soils. Organic Agriculture, 7 (1), pp. 31-40.
Abstract
A study was carried out to test the effect of
direct and indirect plant growth-promoting traits of bacteria,
isolated from compost and rhizosphere soils, on
chickpea. A total of 74 bacteria were isolated from herbal
vermicomposts and rhizosphere soils of chickpea and
screened for their antagonistic potential against
soil-borne fungal pathogens of chickpea. Of which, four
bacterial isolates (VBI-4, VBI-19, VBI-23, and SBI-23)
were found to be promising in both dual culture and
metabolite production assays. These isolates were identified
as Bacillus species by 16S ribosomal DNA (rDNA)
sequence analysis. Under in vitro conditions, all the
isolates were found to produce protease, cellulase,
β-1,3-glucanase, siderophore, indole acetic acid, lipase
(except VBI-19), and hydrocyanic acid (except VBI-23
and SBI-23). All the isolates were tolerant to fungicides
such as bavistin, captan, benlate, ridomil (only VBI-23
and SBI-23), and thiram (only VBI-4 and VBI-19) at
field application rates. The isolates were also found to
tolerate NaCl concentration of up to 8 % (VBI-23 up to
10 %), temperature range of 20 to 40 °C, and a pH range
of 7 to 11 (SBI-23 up to only 9). When the isolates were
evaluated for their plant growth promotion (PGP) ability under greenhouse and field conditions on chickpea, all
the isolates were able to increase growth parameters
including nodule number, plant growth, and yield parameters
when compared to uninoculated control. The isolates
also increased the soil mineral properties including
total N, available P, organic carbon (OC) %, microbial
biomass C, and dehydrogenase activity in rhizosphere, at
both flowering and harvest stages over the uninoculated
control plots. All the isolates were found to colonize
chickpea roots when observed under scanning electron
microscope. This investigation indicated the PGP potential
of selected bacteria in chickpea cultivation.
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Gopalakrishnan, Subramaniam https://orcid.org/0000-0003-4053-7016