about
Bacterial epibionts of Daphnia: a potential route for the transfer of dissolved organic carbon in freshwater food webs.Does a barcoding gap exist in prokaryotes? Evidences from species delimitation in cyanobacteriaNetwork of Interactions Between Ciliates and Phytoplankton During SpringDiverse distribution of Toxin-Antitoxin II systems in Salmonella enterica serovars.Co-occurrence of integrase 1, antibiotic and heavy metal resistance genes in municipal wastewater treatment plants.Daphnia as a refuge for an antibiotic resistance gene in an experimental freshwater community.Rainfall increases the abundance of antibiotic resistance genes within a riverine microbial community.Microplastics increase impact of treated wastewater on freshwater microbial community.The microbiome associated with two Synechococcus ribotypes at different levels of ecological interaction.Defence strategies and antibiotic resistance gene abundance in enterococci under stress by exposure to low doses of peracetic acid.Constitutive presence of antibiotic resistance genes within the bacterial community of a large subalpine lake.Tracing particulate matter and associated microorganisms in freshwatersCo-selection of antibiotic and heavy metal resistance in freshwater bacteriaRapid successions affect microbial N-acetyl-glucosamine uptake patterns during a lacustrine spring phytoplankton bloomEffluents of wastewater treatment plants promote the rapid stabilization of the antibiotic resistome in receiving freshwater bodiesHigh-quality treated wastewater causes remarkable changes in natural microbial communities and intI1 gene abundanceAntibiotic disturbance affects aquatic microbial community composition and food web interactions but not community resilienceEvery fifth published metagenome is not available to scienceThe mesopelagic anoxic Black Sea as an unexpected habitat for Synechococcus challenges our understanding of global "deep red fluorescence"
P50
Q34072009-87BF0F2C-9292-4BFD-AC1A-5115C9D3D820Q35333960-C70D329E-A79B-4EC5-8DB6-730412CE956DQ36301468-5A064B41-701B-48CC-B61B-A71E9BF194C4Q37054360-7AECFFFC-F65A-4D91-9853-C5A54A06F7CBQ38439124-3AFA7CA2-7AB5-4C98-93BA-45BB61E1BC20Q39559186-FDC37E69-BEE5-483A-AECC-60C3D18B4593Q40239672-A3730029-48EA-40DF-A108-B044F45F1A64Q46245870-70206DBE-D6A4-4142-9061-8212E06EF4CEQ46306438-32EBBA3A-66FE-4185-AB2C-A113D24F233AQ46334788-E9688304-E67C-464E-8FB4-4D1624AC7546Q46708632-05414A52-6CAA-4088-9ABA-806D9DB67D26Q56886482-8FC72CB3-297A-4A89-9997-6A2E1F94AC15Q56979506-58025F1D-AF9F-4EE9-8CBD-0B28D7CB6ED9Q62386409-2EE87106-F90F-440A-A001-9C398AD15D84Q90249640-3E795CB3-A19E-401A-BBD2-F789336C0EC5Q90281685-336B0F0A-EEBA-4765-AE3E-C5A6BD7E0C19Q91274887-722357EE-AEB9-485F-BC3D-4C572B80DDB8Q91533318-C1298832-334A-4A29-B4A2-43EE7EFA21F1Q92023435-FF5828A4-D0F9-4CC6-B9A4-7DCC478DDC21
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Ester M Eckert
@ast
Ester M Eckert
@en
Ester M Eckert
@es
Ester M Eckert
@nl
type
label
Ester M Eckert
@ast
Ester M Eckert
@en
Ester M Eckert
@es
Ester M Eckert
@nl
prefLabel
Ester M Eckert
@ast
Ester M Eckert
@en
Ester M Eckert
@es
Ester M Eckert
@nl
P106
P31
P496
0000-0002-7314-1715