2009
DOI: 10.1016/j.biortech.2008.10.036
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Involvement and interaction of microbial communities in the transformation and stabilization of chromium during the composting of tannery effluent treated biomass of Vallisneria spiralis L.

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Cited by 54 publications
(25 citation statements)
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“…However, this natural attenuation process can be complemented by in situ application of chemical technologies, as organic and inorganic amendments [14]. In situ chemical immobilization is a cost-effective remediation approach that stabilizes HM in contaminated soil [15,16]. Generally, these technologies reduce HM availability, improve soil fertility, and increase plant growth [17,18].…”
Section: Introductionmentioning
confidence: 99%
“…However, this natural attenuation process can be complemented by in situ application of chemical technologies, as organic and inorganic amendments [14]. In situ chemical immobilization is a cost-effective remediation approach that stabilizes HM in contaminated soil [15,16]. Generally, these technologies reduce HM availability, improve soil fertility, and increase plant growth [17,18].…”
Section: Introductionmentioning
confidence: 99%
“…Voluminous research literature is available addressing the issues of aquatic pollution (Nagai et al 2007;Camargo and Alonso 2006;Khan and Srivastava 2008;Shukla et al 2009) and its biological remediation (Sooknah and Wilkie 2004;Nahlik and Mitsch 2006;Hadad et al 2006;Srivastava et al 2014) and the references therein. Furthermore, earlier scientific researches apparently indicate that most of the water quality improvement studies have been carried on the environmental pollutants and their removal either by aquatic plants (in situ and ex situ) or by microbes alone and only few reports are available indicating direct impact of the interaction of the aquatic macrophytes and microbes (Stout and Nüsslein 2010;Sharma et al 2013;Lamers et al 2012;Lu et al 2014) and its possible influence on water quality (Stottmeister et al 2003;Radhika and Rodrigues 2007;Srivastava et al 2007;Toyama et al 2011;Chakraborty et al 2013).…”
Section: Introductionmentioning
confidence: 99%
“…In general, toxic elemental pollution is one of the major concerns of environmentalists and biologists because the disposal of toxic metals to the surface, subsurface soils and waters causes unacceptable health risks (Kaewsarn and Yu 2001). Microbiological removal of metal ions from the environment is a new biotechnique (Shukla et al 2009) and the most cost-effective approach in mitigation of elemental pollution. Heavy metals and their removal are well-researched issues as evident from the existing research literatures (Lovely and Coates 1997;Lovely and Lloyd 2000;Garbisu and Alkorta 2003;Malik 2004;Shukla and Rai 2006;Kabata-Pendias and Mukherjee 2007;Kim et al 2007;Srivastava et al 2008;Badri et al 2009;Rajkumar et al 2013) and the references therein.…”
Section: Microbial Remediation Of Inorganic Contaminantsmentioning
confidence: 99%
“…The literature is vast and is far beyond the capacity to be included here, however, e.g., Lovely (2003), Paul et al (2005), Singh et al (2006), Wei et al (2007), Badri et al (2009), Chojnacka (2010, Magan et al (2010), Rajkumar et al (2010), Glick (2010), Maphosa et al (2012) and Zhang et al (2012), delineating latest and upgraded techniques involving living organisms, specifically plants and microbes, for the removal and/or immobilization of contaminants, known as bioremediation. Phytoremediation (remediation through plants) is a novel approach (Shukla et al 2009), however; it has certain technical shortcomings such as management of biomass (Wei et al 2007) and the growth conditions as plants are restricted only to certain geographical regions. As far as the microbial species are concerned, only 5 % microbial diversity is known to date and 95 % is yet to explore.…”
Section: Introductionmentioning
confidence: 99%