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W4312129675 abstract "The main objective of present study was to understand the community succession of microbial populations related to carbon-nitrogen-phosphorus-sulfur (CNPS) biogeochemical cycles during cow-manure-driven composting and their correlation with product maturity. The abundance of microbial populations associated with C degradation, nitrification, cellular-P transport, inorganic-P dissolution, and organic-P mineralization decreased gradually with composting but increased at the maturation phase. The abundance of populations related to N-fixation, nitrate-reduction, and ammonification increased during the mesophilic stage and decreased during the thermophilic and maturation stages. The abundance of populations related to C fixation and denitrification increased with composting; however, the latter tended to decrease at the maturation stage. Populations related to organic-P mineralization were the key manipulators regulating compost maturity, followed by those related to denitrification and nitrification; those populations were mediated by inorganic N and available P content. This study highlighted the consequence of microbe-driven P mineralization in improving composting efficiency and product quality." @default.
W4312129675 created "2023-01-04" @default.
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W4312129675 date "2023-02-01" @default.
W4312129675 modified "2023-09-29" @default.
W4312129675 title "Community succession of microbial populations related to C N P S biological transformations regulates product maturity during cow-manure-driven composting" @default.
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W4312129675 doi "https://doi.org/10.1016/j.biortech.2022.128493" @default.
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