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      Bioremediation of polyaromatic hydrocarbons (PAHs) using rhizosphere technology

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          Abstract

          The remediation of polluted sites has become a priority for society because of increase in quality of life standards and the awareness of environmental issues. Over the past few decades there has been avid interest in developing in situ strategies for remediation of environmental contaminants, because of the high economic cost of physicochemical strategies, the biological tools for remediation of these persistent pollutants is the better option. Major foci have been considered on persistent organic chemicals i.e. polyaromatic hydrocarbons (PAHs) due to their ubiquitous occurrence, recalcitrance, bioaccumulation potential and carcinogenic activity. Rhizoremediation, a specific type of phytoremediation that involves both plants and their associated rhizospheric microbes is the creative biotechnological approach that has been explored in this review. Moreover, in this review we showed the significance of rhizoremediation of PAHs from other bioremediation strategies i.e. natural attenuation, bioaugmentation and phytoremediation and also analyze certain environmental factor that may influence the rhizoremediation technique. Numerous bacterial species were reported to degrade variety of PAHs and most of them are isolated from contaminated soil, however few reports are available from non contaminated soil. Pseudomonas aeruginosa , Pseudomons fluoresens , Mycobacterium spp., Haemophilus spp., Rhodococcus spp., Paenibacillus spp. are some of the commonly studied PAH-degrading bacteria. Finally, exploring the molecular communication between plants and microbes, and exploiting this communication to achieve better results in the elimination of contaminants, is a fascinating area of research for future perspective.

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          Microbial diversity in soil: selection microbial populations by plant and soil type and implications for disease suppressiveness.

          An increasing interest has emerged with respect to the importance of microbial diversity in soil habitats. The extent of the diversity of microorganisms in soil is seen to be critical to the maintenance of soil health and quality, as a wide range of microorganisms is involved in important soil functions. This review focuses on recent data relating how plant type, soil type, and soil management regime affect the microbial diversity of soil and the implication for the soil's disease suppressiveness. The two main drivers of soil microbial community structure, i.e., plant type and soil type, are thought to exert their function in a complex manner. We propose that the fact that in some situations the soil and in others the plant type is the key factor determining soil microbial diversity is related to the complexity of the microbial interactions in soil, including interactions between microorganisms and soil and microorganisms and plants. A conceptual framework, based on the relative strengths of the shaping forces exerted by plant and soil versus the ecological behavior of microorganisms, is proposed.
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            Phytoremediation.

            Phytoremediation, the use of plants and their associated microbes for environmental cleanup, has gained acceptance in the past 10 years as a cost-effective, noninvasive alternative or complementary technology for engineering-based remediation methods. Plants can be used for pollutant stabilization, extraction, degradation, or volatilization. These different phytoremediation technologies are reviewed here, including their applicability for various organic and inorganic pollutants, and most suitable plant species. To further enhance the efficiency of phytoremediation, there is a need for better knowledge of the processes that affect pollutant availability, rhizosphere processes, pollutant uptake, translocation, chelation, degradation, and volatilization. For each of these processes I review what is known so far for inorganic and organic pollutants, the remaining gaps in our knowledge, and the practical implications for designing phytoremediation strategies. Transgenic approaches to enhance these processes are also reviewed and discussed.
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              Microbial co-operation in the rhizosphere.

              Soil microbial populations are immersed in a framework of interactions known to affect plant fitness and soil quality. They are involved in fundamental activities that ensure the stability and productivity of both agricultural systems and natural ecosystems. Strategic and applied research has demonstrated that certain co-operative microbial activities can be exploited, as a low-input biotechnology, to help sustainable, environmentally-friendly, agro-technological practices. Much research is addressed at improving understanding of the diversity, dynamics, and significance of rhizosphere microbial populations and their co-operative activities. An analysis of the co-operative microbial activities known to affect plant development is the general aim of this review. In particular, this article summarizes and discusses significant aspects of this general topic, including (i) the analysis of the key activities carried out by the diverse trophic and functional groups of micro-organisms involved in co-operative rhizosphere interactions; (ii) a critical discussion of the direct microbe-microbe interactions which results in processes benefiting sustainable agro-ecosystem development; and (iii) beneficial microbial interactions involving arbuscular mycorrhiza, the omnipresent fungus-plant beneficial symbiosis. The trends of this thematic area will be outlined, from molecular biology and ecophysiological issues to the biotechnological developments for integrated management, to indicate where research is needed in the future.
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                Author and article information

                Journal
                Braz J Microbiol
                Braz. J. Microbiol
                Brazilian Journal of Microbiology
                Sociedade Brasileira de Microbiologia
                1517-8382
                1678-4405
                01 March 2015
                March 2015
                : 46
                : 1
                : 7-21
                Affiliations
                [1 ]Department of Molecular Biology and Biotechnology, VCSG College of Horticulture, Uttarakhand University of Horticulture & Forestry, Uttarakhand, India.
                [2 ]Department of Microbiology, Assam University, Silchar, India.
                [3 ]Department of Floriculture & Landscaping Architecture, VCSG College of Horticulture, Uttarakhand University of Horticulture & Forestry, Uttarakhand, India.
                [4 ]Department of Biotechnology, National Institute of Technology, Allahabad, India.
                [5 ]Amity Institutite of Microbial Technology, Amity Univeristy, Noida, India.
                [6 ]VCSG College of Horticulture, Uttarakhand University of Horticulture & Forestry, Uttarakhand, India.
                Author notes
                Send correspondence to S. Bisht. Department of Molecular Biology and Biotechnology, VCSG College of Horticulture, Uttarakhand University of Horticulture & Forestry Bharsar, 246123 Pauri, India. E-mail: sandeepmicro83@ 123456gmail.com .

                Associate Editor: Lara Durães Sette

                Article
                1517-8382-bjm-46-01-0007
                10.1590/S1517-838246120131354
                4512045
                26221084
                562d2997-3ee6-4573-bd41-3cc91c92c43e
                Copyright © 2015, Sociedade Brasileira de Microbiologia

                All the content of the journal, except where otherwise noted, is licensed under a Creative Commons License CC BY-NC.

                History
                : 24 December 2013
                : 06 June 2014
                Page count
                Figures: 1, Tables: 3, Equations: 0, References: 132, Pages: 15
                Categories
                Review

                bioremediation,pah,rhizoremediation,enzyme,plant microbe pair

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