Sonam Tripathi
Central University, India
39 Papers
51 Citations
Sonam Tripathi is an academic researcher from Central University, India. The author has contributed to research in topics: Chemistry & Phytoremediation. The author has an hindex of 11, co-authored 30 publications. Previous affiliations of Sonam Tripathi include Madan Mohan Malaviya University of Technology & Babasaheb Bhimrao Ambedkar University.
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Papers
Newly isolated Bacillus sp. PS-6 assisted phytoremediation of heavy metals using Phragmites communis: Potential application in wastewater treatment.
TL;DR: Results revealed that heavy metal contents in wastewater were reduced after in-situ phytoremediation for Fe, Cu, Zn, Cd, Mn, Ni, Pb, and As.
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Heavy metal phytoextraction potential of native weeds and grasses from endocrine-disrupting chemicals rich complex distillery sludge and their histological observations during in-situ phytoremediation
TL;DR: In this paper, a study revealed that distillery sludge contains not only mixture of complex organic pollutants but also retains high quantity of Fe (5264.49), Zn (43.47), Cu (847.46), Mn (238.60), and Pb (31.22
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Highly efficient phytoremediation potential of metal and metalloids from the pulp paper industry waste employing Eclipta alba (L) and Alternanthera philoxeroide (L): Biosorption and pollution reduction.
TL;DR: It was concluded that E. alba (L.) and A. philoxeroide (L) could be effectively used for the removal of metals and metalloids from effluent and sludge of pulp and paper mill waste that may help to reduce adverse health effects of metal accumulation in humans and animals via their food chain.
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Metagenomic analysis for profiling of microbial communities and tolerance in metal-polluted pulp and paper industry wastewater.
TL;DR: In this article, the profiling and efficiency of microbial communities and their abundance in pulp and paper industry wastewater, which contained toxic metals, high biological oxygen demands, chemical oxygen demand, and ions contents.
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Phytoremediation potential of heavy metal accumulator plants for waste management in the pulp and paper industry.
TL;DR: The result revealed that arsenic has been accumulated in higher amount root, shoot and leaves of all tested plants and may be used as biotechnological tools for the eco-restoration of polluted sites.
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