Kadiyala Venkateswarlu scite author profile

For more than a decade, the primary focus of environmental experts has been to adopt riskbased management approaches to cleanup PAH polluted sites that pose potentially destructive ecological consequences. This focus had led to the development of several physical, chemical, thermal and biological technologies that are widely implementable. Established remedial options available for treating PAH contaminated soils are incineration, thermal conduction, solvent extraction/soil washing, chemical oxidation, bioaugmentation, biostimulation, phytoremediation, composting/biopiles and bioreactors. Integrating physico-chemical and biological technologies is also widely practiced for better cleanup of PAH contaminated soils. Electrokinetic remediation, vermiremediation and biocatalyst assisted remediation are still at the development stage. Though several treatment methods to remediate PAH polluted soils 3 currently exist, a comprehensive overview of all the available remediation technologies to date is necessary so that the right technology for field-level success is chosen. The objective of this review is to provide a critical overview in this respect, focusing only on the treatment options available for field soils and ignoring the spiked ones. The authors also propose the development of novel multifunctional green and sustainable systems like mixed cell culture system, biosurfactant flushing, transgenic approaches and nanoremediation in order to overcome the existing soil-contaminant-and microbial-associated technological limitations in tackling high molecular weight PAHs. The ultimate objective is to ensure the successful remediation of long-term PAH contaminated soils.

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Consortia of cyanobacteria/microalgae and bacteria: Biotechnological potential

Subashchandrabose

Ramakrishnan

Megharaj

et al. 2011

Biotechnology Advances

385

168

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Pesticides in the urban environment: A potential threat that knocks at the door

Meftaul

Venkateswarlu

Dharmarajan

et al. 2020

Science of The Total Environment

269

114

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Mixotrophic cyanobacteria and microalgae as distinctive biological agents for organic pollutant degradation

Subashchandrabose

Ramakrishnan

Megharaj

et al. 2013

Environment International

293

103

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Millions of natural and synthetic organic chemical substances are present in both soil and aquatic environments. Toxicity and/or persistence determine the polluting principle of these substances. The biological responses to these pollutants include accumulation and degradation. The responses of environments with organic pollutants are perceptible from the dwindling degradative abilities of microorganisms. Among different biological members, cyanobacteria and microalgae are highly adaptive through many eons, and can grow autotrophically, heterotrophically or mixotrophically. Mixotrophy in cyanobacteria and microalgae can provide many competitive advantages over bacteria and fungi in degrading organic pollutants. Laboratory culturing of strict phototrophic algae has limited the realization of their potential as bioremediation agents. In the natural assemblages, mixotrophic algae can contribute to sequestration of carbon, which is otherwise emitted as carbon dioxide to the atmosphere under heterotrophic conditions by other organisms. Molecular methods and metabolic and genomic information will help not only in identification and selection of mixotrophic species of cyanobacteria and microalgae with capabilities to degrade organic pollutants but also in monitoring the efficiency of remediation efforts under the field conditions. These organisms are relatively easier for genetic engineering with desirable traits. This review presents a new premise from the literature that mixotrophic algae and cyanobacteria are distinctive bioremediation agents with capabilities to sequester carbon in the environment.

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Agronomic and remedial benefits and risks of applying biochar to soil: Current knowledge and future research directions

Kuppusamy

Thavamani

Megharaj³

et al. 2016

Environment International

291

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Veterinary antibiotics (VAs) contamination as a global agro-ecological issue: A critical view

Kuppusamy

Kakarla

Venkateswarlu

et al. 2018

Agriculture, Ecosystems & Environment

219

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Controversies over human health and ecological impacts of glyphosate: Is it to be banned in modern agriculture?

Meftaul

Venkateswarlu

Dharmarajan

et al. 2020

Environmental Pollution

132

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