about
Diversity of Archaea in marine sediments from Skan Bay, Alaska, including cultivated methanogens, and description of Methanogenium boonei sp. novLatent hydrocarbons from cyanobacteriaTargeted diversity generation by intraterrestrial archaea and archaeal virusesFallout plume of submerged oil from Deepwater HorizonIsotopic remembrance of metabolism pastFunctional metagenomic profiling of nine biomesChemical data quantify Deepwater Horizon hydrocarbon flow rate and environmental distribution.Dynamic autoinoculation and the microbial ecology of a deep water hydrocarbon irruption.Methanogenium marinum sp. nov., a H2-using methanogen from Skan Bay, Alaska, and kinetics of H2 utilization.Archaeal and bacterial communities respond differently to environmental gradients in anoxic sediments of a California hypersaline lake, the Salton SeaBiodiversity and biogeography of phages in modern stromatolites and thrombolites.A persistent oxygen anomaly reveals the fate of spilled methane in the deep Gulf of Mexico.New perspectives on anaerobic methane oxidation.Identification of novel methane-, ethane-, and propane-oxidizing bacteria at marine hydrocarbon seeps by stable isotope probingPure-culture growth of fermentative bacteria, facilitated by H2 removal: bioenergetics and H2 production.Adaptations to energy stress dictate the ecology and evolution of the Archaea.Biogeochemistry and microbial ecology of methane oxidation in anoxic environments: a review.Omega-3 fatty acids in cellular membranes: a unified concept.Natural gas and temperature structured a microbial community response to the Deepwater Horizon oil spill.Emerging topics in marine methane biogeochemistry.Recurrent oil sheens at the deepwater horizon disaster site fingerprinted with synthetic hydrocarbon drilling fluids.Fate of dispersants associated with the deepwater horizon oil spill.A culture apparatus for maintaining H2 at sub-nanomolar concentrations.Recalcitrance and degradation of petroleum biomarkers upon abiotic and biotic natural weathering of Deepwater Horizon oil.Measure methane to quantify the oil spill.Retroelement-guided protein diversification abounds in vast lineages of Bacteria and Archaea.Propane respiration jump-starts microbial response to a deep oil spill.High resolution measurements of methane and carbon dioxide in surface waters over a natural seep reveal dynamics of dissolved phase air-sea flux.Microbiology: intraterrestrial lifestyles.Weathering and the fallout plume of heavy oil from strong petroleum seeps near Coal Oil Point, CA.Disentangling oil weathering at a marine seep using GC x GC: broad metabolic specificity accompanies subsurface petroleum biodegradation.Short-chain alkanes fuel mussel and sponge Cycloclasticus symbionts from deep-sea gas and oil seeps.Hydrogen production by methanogens under low-hydrogen conditions.Ocean Dumping of Containerized DDT Waste Was a Sloppy ProcessTop-Down Enrichment Guides in Formation of Synthetic Microbial Consortia for Biomass Degradation
P50
Q24676345-AC15E7AB-4399-4473-A72D-5B4C5BFAD51AQ28607589-90617F6B-65F8-4A71-A5DE-9FCE15E83984Q28651699-F2C41D7D-7715-41DA-AF04-5548F582B0A4Q28652067-0CE6350F-44CF-4DBA-AAE0-0A6022167459Q28752023-AC4D383B-F10F-4D75-8822-7FD7F563C65EQ30014835-C41311F7-2B2D-44D5-82E2-38D25DD28295Q30459462-8A312980-5A59-47B1-A136-2715E4B103D5Q30530420-B1FFE2AA-6E9A-4BBF-92DA-C45C975B45C7Q30748649-4B0F9A74-B236-444C-B672-99FBBFD3D043Q30933274-5EDC6F95-E2FF-4D89-9B18-2CC5B050910FQ33321846-7BCE7047-3F82-4BE8-967A-73F256D5865DQ34157905-3D51E316-5107-4817-A424-A7115A461F2FQ34171707-B94268CB-9042-45EA-8D09-87312293F069Q34177764-A682DD3D-0801-48FD-98BC-5CBA672E8C2BQ34431363-9B1141EF-19BC-4DFE-B688-7120F2FFFE98Q34576774-80DE08D0-0338-4C4E-962B-3D39A721795DQ35007714-F11C435F-AD35-467B-81EC-F7BF8893EE41Q35905744-A2E8098F-5A29-4E8D-AE24-29C3E7E12B7AQ36483454-D78E964E-19B6-4DE8-90D5-4F8C5BECF28CQ37844112-D0A191CE-562F-43F9-B475-6903BC611415Q39200906-A0ABB37E-B150-480C-84E0-F9379EFA916DQ39790028-A4DA20C6-3D7D-4595-BC28-2568EF95FE5CQ41719001-7BB6DDC1-BF4B-49ED-9A1F-3BF7E9C5EA85Q41962219-69376655-8756-4E4C-8320-16CC54C6AD29Q41988351-A30E73A5-C5D5-4E53-998A-ACF3A526F0C7Q42160544-B1C7F599-D494-4F47-8B75-CC6C0D55F280Q42905374-1DB89AC3-422B-4DD3-949F-F8769B5C1A53Q43854022-D1886A75-034A-44EA-8EA4-9A20DA99B236Q44211465-98530AD9-7389-41D3-A689-B955370C563FQ45959099-7B5087E7-ED4B-4AEF-B7AA-9299965D33DCQ46139589-0696493F-34EC-4901-A631-D0E286F2F819Q46348057-ACF817EC-7BD5-4A01-AEFC-AA05AEA8AF17Q46670093-33249572-F838-435E-AE9C-4C1ADBA17D18Q92093353-BB7A5948-23E2-445A-A05C-BD0F69D2809FQ92955178-08185078-D65A-4558-A53B-B8964A104D2A
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
David Valentine
@ast
David Valentine
@en
David Valentine
@es
David Valentine
@nl
David Valentine
@sl
Давид Валентайн
@ru
type
label
David Valentine
@ast
David Valentine
@en
David Valentine
@es
David Valentine
@nl
David Valentine
@sl
Давид Валентайн
@ru
prefLabel
David Valentine
@ast
David Valentine
@en
David Valentine
@es
David Valentine
@nl
David Valentine
@sl
Давид Валентайн
@ru
P106
P1153
34972181800
P21
P31
P496
0000-0001-5914-9107