about
Succession of sulfur-oxidizing bacteria in the microbial community on corroding concrete in sewer systemsSulfate-reducing bacterial community structure and their contribution to carbon mineralization in a wastewater biofilm growing under microaerophilic conditions.Isolation, characterization, and in situ detection of a novel chemolithoautotrophic sulfur-oxidizing bacterium in wastewater biofilms growing under microaerophilic conditions.Succession of internal sulfur cycles and sulfur-oxidizing bacterial communities in microaerophilic wastewater biofilms.Fate of 14C-labeled microbial products derived from nitrifying bacteria in autotrophic nitrifying biofilms.Identification of a novel acetate-utilizing bacterium belonging to Synergistes group 4 in anaerobic digester sludge.Successional development of sulfate-reducing bacterial populations and their activities in a wastewater biofilm growing under microaerophilic conditions.Analysis of size distribution and areal cell density of ammonia-oxidizing bacterial microcolonies in relation to substrate microprofiles in biofilms.Application of a direct fluorescence-based live/dead staining combined with fluorescence in situ hybridization for assessment of survival rate of Bacteroides spp. in drinking water.Long-term natural remediation process in textile dye-polluted river sediment driven by bacterial community changes.Phylogenetic and functional diversity of propionate-oxidizing bacteria in an anaerobic digester sludge.Photodecomposition of humic acid and natural organic matter in swamp water using a TiO(2)-coated ceramic foam filter: potential for the formation of disinfection byproducts.Identification and quantification of key microbial trophic groups of methanogenic glucose degradation in an anaerobic digester sludge.Suppression of cadmium uptake in rice using fermented bark as a soil amendment.Microbial community structures and in situ sulfate-reducing and sulfur-oxidizing activities in biofilms developed on mortar specimens in a corroded sewer system.Characterization of microbial community structures and their activities in single anaerobic granules by beta imaging, microsensors and fluorescence in situ hybridization
P50
Q30479007-DC8B919C-D604-4ACB-B96C-A1F0B3615D7EQ31150474-68B211B4-9CC0-4B1F-B6F3-01BEC6DCBE0DQ33202638-42E8F54C-9E21-41D9-BAF4-CA3435C2B536Q33769700-2AEA6F95-A287-4D05-AFC5-04A9719A3C7AQ33884815-3E59519C-5716-4909-B057-3DE1DB63E9AFQ33895969-AF2C4922-ED1D-42BE-BAF7-B2C4D3F4045CQ34051110-FE0540E6-8D52-4698-A7B7-C8455B8AF7CFQ39672874-9E2AB571-FBC3-4F35-B15E-F3A064D31721Q39723842-E385E3FB-DEE0-4E40-8902-C6E6F63AE7B7Q39731121-9F03E770-98F2-47FF-ABB0-94FAB143A335Q39783991-ED3170EC-B21D-49B8-A8CF-42FF9D2C742BQ43348515-EEE43B8A-A425-4BA9-AED7-73ECBDD001CCQ45967001-54170A8F-F168-491B-9563-C6425521B217Q46601007-E81B14A4-CEF4-4354-B332-D64DF4E0B46EQ53375222-BB9CC8E3-B0A7-4DE9-BA49-A5C12AAC3BBAQ84240411-CE5B844A-95C1-4B5C-B31C-24DF29560A48
P50
description
microbiology researcher
@en
wetenschapper
@nl
name
Ito T
@nl
Tsukasa Ito
@en
type
label
Ito T
@nl
Tsukasa Ito
@en
altLabel
Ito T
@en
prefLabel
Ito T
@nl
Tsukasa Ito
@en
P106
P31
P496
0000-0002-3315-5653