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Competition between ammonia-oxidizing archaea and complete ammonia oxidizers from freshwater environments. [PDF]
Appl Environ MicrobiolGhimire-Kafle S +3 more
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From lab reagent to metabolite: the riboswitch ligand guanidine as a relevant compound in bacterial physiology. [PDF]
J BacteriolBowman P, Salvail H.
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Inhibition profile of three biological nitrification inhibitors and their response to soil pH modification in two contrasting soils. [PDF]
FEMS Microbiol EcolRojas-Pinzon PA +7 more
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Microbial mechanisms underlying the reduction of N2O emissions from submerged plant covered system. [PDF]
Water Res XHuang Y +7 more
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Metabolic capacity is maintained despite shifts in microbial diversity in estuary sediments. [PDF]
ISME CommunLangwig MV +8 more
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Inoculation Improves Microbial Manganese Removal during the Start-Up of Rapid Sand Filters. [PDF]
ACS ES T WaterHaukelidsaeter S +10 more
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Dominance of comammox Nitrospira in soil nitrification
Science of the Total Environment, 2021The first and limiting step of nitrification is catalyzed by ammonia-oxidizing archaea (AOA) and bacteria (AOB). Recently, complete ammonia oxidizers (comammox Nitrospira) have been discovered to perform complete nitrification in one cell, yet their role in soil nitrification is still unclear.
Yuxiang Zhao, Jiaqi Wang, Chuanwu Xi
exaly +3 more sources