Gypsum amendment to rice paddy soil stimulated bacteria involved in sulfur cycling but largely preserved the phylogenetic composition of the total bacterial community.
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Influence of water management on the active root-associated microbiota involved in arsenic, iron, and sulfur cycles in rice paddies.A Small Number of Low-abundance Bacteria Dominate Plant Species-specific Responses during Rhizosphere Colonization.Rice Paddy Nitrospirae Carry and Express Genes Related to Sulfate Respiration: Proposal of the New Genus "Candidatus Sulfobium".Identification of Syntrophobacteraceae as major acetate-degrading sulfate reducing bacteria in Italian paddy soil.Syntrophobacteraceae-affiliated species are major propionate-degrading sulfate reducers in paddy soil.Influence of Altered Microbes on Soil Organic Carbon Availability in Karst Agricultural Soils Contaminated by Pb-Zn Tailings
P2860
Gypsum amendment to rice paddy soil stimulated bacteria involved in sulfur cycling but largely preserved the phylogenetic composition of the total bacterial community.
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2016 nî lūn-bûn
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2016年学术文章
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name
Gypsum amendment to rice paddy ...... the total bacterial community.
@ast
Gypsum amendment to rice paddy ...... the total bacterial community.
@en
type
label
Gypsum amendment to rice paddy ...... the total bacterial community.
@ast
Gypsum amendment to rice paddy ...... the total bacterial community.
@en
prefLabel
Gypsum amendment to rice paddy ...... the total bacterial community.
@ast
Gypsum amendment to rice paddy ...... the total bacterial community.
@en
P2860
P50
P356
P1476
Gypsum amendment to rice paddy ...... the total bacterial community
@en
P2093
Jianguo Dan
P2860
P304
P356
10.1111/1758-2229.12413
P577
2016-05-11T00:00:00Z