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W3100981197 endingPage "124397" @default.
W3100981197 startingPage "124397" @default.
W3100981197 abstract "Lignin modifying or extracellular enzymes secreted by the white rot fungi have the ability of degrading wide range of lignocellulosic substrates and organic pollutants. Lignocellulosic biomass, despite being a renewable source of energy, is difficult to hydrolyse (hydrolysis being rate-limiting stage in anaerobic digestion process). Various pre-treatment techniques like physical, chemical, thermo-chemical and biological to enhance the accessibility of microbes to carbohydrates have been studied. Recently, usage of white- rot fungi in a biological pre-treatment technique have received renewed interest due to its low cost and eco-friendly nature. This review deals with: a) lignocellulosic biomass recalcitrance, b) various pre-treatment techniques and its economic feasibility, c) delignification and hydrolysis mechanism using white-rot fungi, d) factors controlling white-rot fungi pre- treatment process, and e) improvement in methane production through solid-state anaerobic digestion of white-rot fungi pre-treated lignocellulosic biomass. Finally a future perspective is also included." @default.
W3100981197 created "2020-11-23" @default.
W3100981197 creator A5032506836 @default.
W3100981197 creator A5040476911 @default.
W3100981197 creator A5053943953 @default.
W3100981197 creator A5063562746 @default.
W3100981197 date "2021-02-01" @default.
W3100981197 modified "2023-09-30" @default.
W3100981197 title "An overview of fungal pretreatment processes for anaerobic digestion: Applications, bottlenecks and future needs" @default.
W3100981197 cites W1569671234 @default.
W3100981197 cites W1731820012 @default.
W3100981197 cites W1761770787 @default.
W3100981197 cites W1965343715 @default.
W3100981197 cites W1966401214 @default.
W3100981197 cites W1967294711 @default.
W3100981197 cites W1973694427 @default.
W3100981197 cites W1974049396 @default.
W3100981197 cites W1978381467 @default.
W3100981197 cites W1979870045 @default.
W3100981197 cites W1981397124 @default.
W3100981197 cites W1982394424 @default.
W3100981197 cites W1982430443 @default.
W3100981197 cites W1986550193 @default.
W3100981197 cites W1987383396 @default.
W3100981197 cites W1987693291 @default.
W3100981197 cites W1990833513 @default.
W3100981197 cites W2004042043 @default.
W3100981197 cites W2012675010 @default.
W3100981197 cites W2025351279 @default.
W3100981197 cites W2027814219 @default.
W3100981197 cites W2028188866 @default.
W3100981197 cites W2028740877 @default.
W3100981197 cites W2033713301 @default.
W3100981197 cites W2037179587 @default.
W3100981197 cites W2041644889 @default.
W3100981197 cites W2043402970 @default.
W3100981197 cites W2045234380 @default.
W3100981197 cites W2047168645 @default.
W3100981197 cites W2051319928 @default.
W3100981197 cites W2056209499 @default.
W3100981197 cites W2065771966 @default.
W3100981197 cites W2069730216 @default.
W3100981197 cites W2071537234 @default.
W3100981197 cites W2080715303 @default.
W3100981197 cites W2087588890 @default.
W3100981197 cites W2089848749 @default.
W3100981197 cites W2111858949 @default.
W3100981197 cites W2117761850 @default.
W3100981197 cites W2136167936 @default.
W3100981197 cites W2140133474 @default.
W3100981197 cites W2153973578 @default.
W3100981197 cites W2159620031 @default.
W3100981197 cites W2165194405 @default.
W3100981197 cites W2194678634 @default.
W3100981197 cites W2238245138 @default.
W3100981197 cites W2266060710 @default.
W3100981197 cites W2272381625 @default.
W3100981197 cites W2276481930 @default.
W3100981197 cites W2301980466 @default.
W3100981197 cites W2339278708 @default.
W3100981197 cites W2460533754 @default.
W3100981197 cites W2501481753 @default.
W3100981197 cites W2512713438 @default.
W3100981197 cites W2516504805 @default.
W3100981197 cites W2560333845 @default.
W3100981197 cites W2596203436 @default.
W3100981197 cites W2596694229 @default.
W3100981197 cites W2603407349 @default.
W3100981197 cites W2614985724 @default.
W3100981197 cites W2615613186 @default.
W3100981197 cites W2751850647 @default.
W3100981197 cites W2783673705 @default.
W3100981197 cites W2790246726 @default.
W3100981197 cites W2790394651 @default.
W3100981197 cites W2792954094 @default.
W3100981197 cites W2802474109 @default.
W3100981197 cites W2803290603 @default.
W3100981197 cites W2807756532 @default.
W3100981197 cites W2891619059 @default.
W3100981197 cites W2910105583 @default.
W3100981197 cites W2951638082 @default.
W3100981197 cites W2990959585 @default.
W3100981197 cites W3019545753 @default.
W3100981197 cites W3039555899 @default.
W3100981197 cites W4235196689 @default.
W3100981197 doi "https://doi.org/10.1016/j.biortech.2020.124397" @default.
W3100981197 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/33249324" @default.
W3100981197 hasPublicationYear "2021" @default.
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