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      Production and Multiplication of Native Compost Fungal Activator by Using Different Substrates and Its Influence on Growth and Development of Capsicum chinensis Jacq. “Bhut Jolokia”

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      Biotechnology Research International
      Hindawi Publishing Corporation

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          Abstract

          In vitro experiment was carried out to see the effect of saw dusts of Pinus kesiya, Shorea robusta, and Callicarpa arborea on Trichoderma harzianum, isolate TH-13 mass production, along with its biotization effect on Capsicum chinensis Jacq. “Bhut Jolokia.” Early mycelium initiation (2 days) occurred in S. robusta followed by P. kesiya and C. arborea (3.5 days). The sporulation was observed earlier in S. robusta (100% after 6 days) than P. kesiya (33.4% after 8 days) and C. arborea (16.7% after 9 days) but no sporulation was observed in control. The complete sporulation was also earlier in S. robusta (100% after 10 days) than P. kesiya (33.4% after 15 days) and C. arborea (16.4% after 18 days). Higher conidial yield (86 × 10 6) was also in S. robusta than P. kesiya (70 × 10 6) and C. arborea (45 × 10 6), respectively. The increase in height (60–70 cm), number of leaves (600–650), and yield of chili (120–150 fruits) were also more in inoculated C. chinensis seedlings than control. It is concluded that S. robusta saw dust is the best substrate for mass production of compost fungal activator and can be used in nursery practices for quality stock production of various crops/plantations.

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          Most cited references58

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          Myths and Dogmas of Biocontrol Changes in Perceptions Derived from Research onTrichoderma harzinumT-22

          G. Harman (2000)
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            Induction of defense responses in cucumber plants (Cucumis sativus L. ) By the biocontrol agent trichoderma harzianum

            The potential of the biocontrol agent Trichoderma harzianum T-203 to trigger plant defense responses was investigated by inoculating roots of cucumber seedlings with Trichoderma in an aseptic, hydroponic system. Trichoderma-treated plants were more developed than nontreated plants throughout the experiment. Electron microscopy of ultrathin sections from Trichoderma-treated roots revealed penetration of Trichoderma into the roots, restricted mainly to the epidermis and outer cortex. Strengthening of the epidermal and cortical cell walls was observed, as was the deposition of newly formed barriers. These typical host reactions were found beyond the sites of potential fungal penetration. Wall appositions contained large amounts of callose and infiltrations of cellulose. The wall-bound chitin in Trichoderma hyphae was preserved, even when the hyphae had undergone substantial disorganization. Biochemical analyses revealed that inoculation with Trichoderma initiated increased peroxidase and chitinase activities within 48 and 72 h, respectively. These results were observed for both the roots and the leaves of treated seedlings, providing evidence that T. harzianum may induce systemic resistance mechanisms in cucumber plants.
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              Bioconversion of lignocellulose in solid substrate fermentation

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                Author and article information

                Journal
                Biotechnol Res Int
                Biotechnol Res Int
                BTRI
                Biotechnology Research International
                Hindawi Publishing Corporation
                2090-3138
                2090-3146
                2015
                6 January 2015
                : 2015
                : 481363
                Affiliations
                Mycology and Soil Microbiology Research Laboratory, Rain Forest Research Institute (ICFRE), An Autonomous Council of Ministry of Environment & Forests, Government of India, Deovan, Jorhat, Assam 785001, India
                Author notes

                Academic Editor: Manuel Canovas

                Article
                10.1155/2015/481363
                4303005
                fafe59f5-85d3-419a-a014-1949dfa9ee6d
                Copyright © 2015 V. Parkash and A. J. Saikia.

                This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

                History
                : 10 July 2014
                : 12 December 2014
                : 12 December 2014
                Categories
                Research Article

                Biotechnology
                Biotechnology

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