Damini Maithani scite author profile

In the present study we examined the effect of nanogypsum and Pseudomonas taiwanensis strain BCRC 17751on plant and soil health using conventional and metagenomics approaches. Soil physicochemical properties and agronomical parameters of maize plants were reported to be better when applied with nanogypsum and bacterial inoculum together. When compared to control a significant increase in total bacterial counts, nitrogen, phosphorus, potassium (NPK) solubilizing bacterial population and soil enzyme activities (fluorescein diacetate, alkaline phosphatase, dehydrogenase, β-glucosidase, arylesterase and amylase) was reported in treatments. The metagenomics studies revealed dominance of beneficial bacteria such as Proteobacteria, Bacteriodetes, Planctomycetes, Acidobacteria and Nitrospirae in treated soil. On the other hand some novel bacterial diversity was also reported in treated soil which was evident from presence of taxonomically unclassified sequences. Hence, it can be concluded that combined application of nanogypsum and Pseudomonas taiwanensis in maize help in improving the structure and function of soil which affects the plant health without causing any toxic effect. However, in situ validation of the prescribed treatment is required under field conditions on different crops in order to give maximum benefits to the farmers and the environment.

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Plasmid-mediated catabolism for the removal of xenobiotics from the environment

Bhatt

Bhandari

Bhatt

et al. 2021

Journal of Hazardous Materials

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Influence of nanosilicon dioxide along with bioinoculants on Zea mays and its rhizospheric soil

et al. 2020

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Illumina based high throughput analysis of microbial diversity of maize rhizosphere treated with nanocompounds and Bacillus sp.

Chaudhary

Sharma

Chaudhary

et al. 2021

Applied Soil Ecology

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Damini Maithani

New insights into the degradation of synthetic pollutants in contaminated environments

Cultivable and metagenomic approach to study the combined impact of nanogypsum and Pseudomonas taiwanensis on maize plant health and its rhizospheric microbiome

Plasmid-mediated catabolism for the removal of xenobiotics from the environment

Influence of nanosilicon dioxide along with bioinoculants on Zea mays and its rhizospheric soil

Illumina based high throughput analysis of microbial diversity of maize rhizosphere treated with nanocompounds and Bacillus sp.

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