Indoor composting and conventional composting for white button mushroom (Agaricus bisporus) cultivation during composting phase I were compared based on chemical composition, time of composting, and yields of mushrooms. Chemical compositions were similar between indoor and conventional composts. The C/N ratios were 19.0 for conventional and indoor compost. Indoor compost was ready for use in 18 days, while conventional compost required more than 30 days of production time. The yields of mushroom strain MS and F4KN cultivated on indoor compost were higher than those cultivated on conventional compost by 10.8% and 29.6% (P<0.05), respectively. This study suggests that indoor composting is a better practice for mushroom production because it shortens the period of composting, produces higher quality of compost and increases mushroom yield.
Indoor composting and conventional composting for white button mushroom (Agaricus bisporus) cultivation during composting phase I were compared based on chemical composition, time of composting, and yields of mushrooms. Chemical compositions were similar between indoor and conventional composts. The C/N ratios were 19.0 for conventional and indoor compost. Indoor compost was ready for use in 18 days, while conventional compost required more than 30 days of production time. The yields of mushroom strain MS and F4KN cultivated on indoor compost were higher than those cultivated on conventional compost by 10.8% and 29.6% (P<0.05), respectively. This study suggests that indoor composting is a better practice for mushroom production because it shortens the period of composting, produces higher quality of compost and increases mushroom yield.
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