Feso4 Influences Phosphorus Transport by Crucial Bacteria During the Thermophilic Composting Phase: Enhancement of Phosphorus Efficiency DOI
Lihong Jiang,

Lutong Wang,

Jiapeng Dai

и другие.

Опубликована: Янв. 1, 2023

Despite FeSO4 as a nitrogen-retaining agent has been extensively explored, the role of in improving compost phosphorus efficiency is rarely addressed. The results demonstrated that addition 1% and 2% significantly boosted available (AP) content by 32.42% 119.42% CK. correlation analysis showed dominant bacterial genera (Pseudogracilibacillus Tissierella) unclassified_Lachnospiraceae, Paenalcaligenes thermophilic phase were identified crucial microorganisms on AP maturity phase. Based cycle genes, it appears phosphorus-transports system may be main pathway through which acquired during chicken manure composting. By enhancing activity AP-related genera, improve ability ugp phn systems to transport phosphorus, thereby increasing efficacy products.

Язык: Английский

Feso4 Influences Phosphorus Transport by Crucial Bacteria During the Thermophilic Composting Phase: Enhancement of Phosphorus Efficiency DOI
Lihong Jiang,

Lutong Wang,

Jiapeng Dai

и другие.

Опубликована: Янв. 1, 2023

Despite FeSO4 as a nitrogen-retaining agent has been extensively explored, the role of in improving compost phosphorus efficiency is rarely addressed. The results demonstrated that addition 1% and 2% significantly boosted available (AP) content by 32.42% 119.42% CK. correlation analysis showed dominant bacterial genera (Pseudogracilibacillus Tissierella) unclassified_Lachnospiraceae, Paenalcaligenes thermophilic phase were identified crucial microorganisms on AP maturity phase. Based cycle genes, it appears phosphorus-transports system may be main pathway through which acquired during chicken manure composting. By enhancing activity AP-related genera, improve ability ugp phn systems to transport phosphorus, thereby increasing efficacy products.

Язык: Английский

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