about
Diverse styles of submarine venting on the ultraslow spreading Mid-Cayman RiseMicrobial diversity in the deep sea and the underexplored "rare biosphere"Hydrogen Limitation and Syntrophic Growth among Natural Assemblages of Thermophilic Methanogens at Deep-sea Hydrothermal VentsAccuracy and quality of massively parallel DNA pyrosequencing.Detection of putatively thermophilic anaerobic methanotrophs in diffuse hydrothermal vent fluids.Microbiological characterization of post-eruption "snowblower" vents at Axial Seamount, Juan de Fuca Ridge.Microbial life in ridge flank crustal fluids.Microbial population structures in the deep marine biosphere.Exploring microbial diversity and taxonomy using SSU rRNA hypervariable tag sequencing.Effect of PCR amplicon size on assessments of clone library microbial diversity and community structureIsolated communities of Epsilonproteobacteria in hydrothermal vent fluids of the Mariana Arc seamounts.Temporal changes in archaeal diversity and chemistry in a mid-ocean ridge subseafloor habitatHydrogen-limited growth of hyperthermophilic methanogens at deep-sea hydrothermal ventsDecoupled distance-decay patterns between dsrA and 16S rRNA genes among salt marsh sulfate-reducing bacteria.MICROBIAL ECOLOGY. Making methane down deep.A distinct and active bacterial community in cold oxygenated fluids circulating beneath the western flank of the Mid-Atlantic ridge.Phylogenetic diversity and functional gene patterns of sulfur-oxidizing subseafloor Epsilonproteobacteria in diffuse hydrothermal vent fluids.Subseafloor microbial communities in hydrogen-rich vent fluids from hydrothermal systems along the Mid-Cayman RiseGene-centric approach to integrating environmental genomics and biogeochemical models.Strain-level genomic variation in natural populations of Lebetimonas from an erupting deep-sea volcano.Microbial provinces in the subseafloor.Coupled RNA-SIP and metatranscriptomics of active chemolithoautotrophic communities at a deep-sea hydrothermal ventGrowth kinetics and energetics of a deep-sea hyperthermophilic methanogen under varying environmental conditions.Genomic variation in microbial populations inhabiting the marine subseafloor at deep-sea hydrothermal vents.Incidence of novel and potentially archaeal nitrogenase genes in the deep Northeast Pacific Ocean.A dynamic microbial community with high functional redundancy inhabits the cold, oxic subseafloor aquifer.Spatially distinct, temporally stable microbial populations mediate biogeochemical cycling at and below the seafloor in hydrothermal vent fluids.Function and functional redundancy in microbial systemsUsing maximum entropy production to describe microbial biogeochemistry over time and space in a meromictic pondGenome-resolved metagenomics and metatranscriptomics reveal niche differentiation in functionally redundant microbial communities at deep-sea hydrothermal ventsActive subseafloor microbial communities from Mariana back-arc venting fluids share metabolic strategies across different thermal niches and taxaSelection Is a Significant Driver of Gene Gain and Loss in the Pangenome of the Bacterial Genus Sulfurovum in Geographically Distinct Deep-Sea Hydrothermal VentsFluid geochemistry, local hydrology, and metabolic activity define methanogen community size and composition in deep-sea hydrothermal ventsTake to the high seas: microbiology labs below the ocean surface
P50
Q24631102-1BC5D645-3C36-454E-AD17-3BABE4DA49D6Q24685531-BB123BDC-02FE-4984-9163-9FC9D7F79B83Q28831316-C2A656FA-4BBA-40BD-A802-366FCC7CD3F5Q29622857-415A02C0-CAB9-4BC9-A2BD-8F5BACB61D90Q30535257-9B5300DE-3D72-49A0-9958-FEB598E82282Q30540669-A27ADE9C-0AF1-4DC7-B8C8-2C72D12D5094Q33229164-3EBECB92-97E1-459F-8954-FC286074F931Q33301618-C452F806-9F7C-471C-BED4-6A5424EB38FAQ33385985-56ECE36B-4C3B-40D5-AFE0-64CCFA1A16AAQ33409647-510B0A5D-4362-4D62-AF4F-40C55BF4AB43Q33599206-77B37397-7EBE-4D4B-9D53-31AB84829E82Q34052431-E7A5E42E-01CD-4D1D-81C5-2523FD80FD13Q34368535-94C6165B-3955-4FE1-90A1-4B201D2A4B51Q35569608-9724E11E-9C08-4B3D-9351-01519CD9950AQ35710043-6A576F18-D049-4F7B-8842-91D5D19021E8Q35943545-0404148E-37B5-41B4-8BFE-A65851B2B635Q36989080-84231DF2-2EE7-423E-A7DB-F03F8E79B758Q37252648-8D972028-624A-431F-9BF6-F867FBC7AA51Q37571168-26491296-C93A-4A04-AEEC-0F8127810A97Q37650443-6F0E4D18-84BB-446C-805C-F1FED56F7EF7Q37818051-F9FDE1BD-9BBC-4C9E-AF72-C5EB6D616361Q41130352-ADEABFE6-6E59-4100-BCFF-2F96C9A6B74FQ41966843-EECEE9B8-DEF3-4689-8F91-44D346464F61Q42638376-CACB7C7D-B1BE-4D21-AE22-743F14127632Q43018140-3E203776-C5BB-4DDD-A8C7-A6F9113F076AQ46094024-9B046730-6141-4E3E-ADE2-E08E1E50D2D4Q48178406-5755291E-4D84-4D79-8F5B-DCA9E7DAD57EQ57180879-9E49F2D6-F854-4330-8185-BFAE030CCAC7Q57180885-80F3E725-C316-4F83-99A6-442C7CD61081Q90407017-E46DA720-316C-4A21-AB86-8FE13C8B2EEDQ91899989-8B0AEFE8-2489-4C02-84B8-46ECD87827D3Q91933663-A8C02A95-EE3F-42E5-9716-A6D20E6432A6Q92179267-A3D3DC87-1D2F-4BB2-8D5C-C4EC8AD1DB8FQ93365002-4FBC62D8-6163-44DB-8393-EF6A819C0973
P50
description
hulumtuese
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Julie A Huber
@nl
Julie A Huber
@sl
Julie A. Huber
@en
Julie A. Huber
@es
type
label
Julie A Huber
@nl
Julie A Huber
@sl
Julie A. Huber
@en
Julie A. Huber
@es
prefLabel
Julie A Huber
@nl
Julie A Huber
@sl
Julie A. Huber
@en
Julie A. Huber
@es
P106
P1153
8734097400
P21
P31
P3835
julie-huber
P496
0000-0002-4790-7633