Microbial methane oxidation and sulfate reduction at cold seeps of the deep Eastern Mediterranean Sea
about
Methane-carbon flow into the benthic food web at cold seeps--a case study from the Costa Rica subduction zoneThe unique chemistry of Eastern Mediterranean water masses selects for distinct microbial communities by depthMethane seep carbonates yield clumped isotope signatures out of equilibrium with formation temperaturesSpatial variations of community structures and methane cycling across a transect of Lei-Gong-Hou mud volcanoes in eastern TaiwanIn situ environment rather than substrate type dictates microbial community structure of biofilms in a cold seep system.Prokaryotic diversity of an active mud volcano in the Usu City of Xinjiang, China.Distribution of anaerobic methane-oxidizing and sulfate-reducing communities in the G11 Nyegga pockmark, Norwegian Sea.Environmental evidence for net methane production and oxidation in putative ANaerobic MEthanotrophic (ANME) archaea.Diverse sulfate-reducing bacteria of the Desulfosarcina/Desulfococcus clade are the key alkane degraders at marine seeps.Distribution and in situ abundance of sulfate-reducing bacteria in diverse marine hydrocarbon seep sediments.Spatial scales of bacterial community diversity at cold seeps (Eastern Mediterranean Sea)Changing composition of microbial communities indicates seepage fluid difference of the Thuwal Seeps in the Red Sea.Fickle or Faithful: The Roles of Host and Environmental Context in Determining Symbiont Composition in Two Bathymodioline Mussels.Temporal and Spatial Variations of Bacterial and Faunal Communities Associated with Deep-Sea Wood Falls.A novel, mat-forming Thiomargarita population associated with a sulfidic fluid flow from a deep-sea mud volcano.Niche differentiation among mat-forming, sulfide-oxidizing bacteria at cold seeps of the Nile Deep Sea Fan (Eastern Mediterranean Sea).
P2860
Q27306286-43699C84-3DAC-477C-82F9-CA41E9384138Q28545004-42A45D30-05FC-497D-96F0-CDAC815772B5Q28595802-8B565E44-EF88-4067-8F5A-51DE42F0C191Q28660521-2462E05E-3790-4ECC-A495-B92F4B025F11Q30843759-CD15A157-B11F-4CD3-AD9B-3FF92EA98306Q33927811-CA0729A2-44E8-4F28-9A0D-0FE2D7298BD6Q33959516-4EEDEA73-C6F4-49EB-81A3-C53D0627C7DCQ33977567-D296FF24-FA68-4F80-8425-31EF5326AA2EQ34284478-1F39165E-ADB5-40BD-A798-C4E912C1BF63Q34375456-F06C81DA-444D-48C9-98F5-BEACF2AD2BEEQ35513500-FBD9A354-0AA4-459E-A196-FE90937166EDQ35659087-DC40678C-6BE8-4053-9015-A79EB99B7BE0Q35879740-63AA96C1-9295-48FD-89E2-170DCFAEB4E4Q36259856-5B6E5AC2-E440-44C5-80DD-4115B2C17B09Q41985409-37764B19-7828-4E17-A709-49E00283CC19Q51600311-4F596166-6503-4558-A77E-BDCB0BEB947A
P2860
Microbial methane oxidation and sulfate reduction at cold seeps of the deep Eastern Mediterranean Sea
description
wetenschappelijk artikel
@nl
наукова стаття, опублікована в червні 2009
@uk
name
Microbial methane oxidation an ...... deep Eastern Mediterranean Sea
@en
Microbial methane oxidation an ...... deep Eastern Mediterranean Sea
@nl
type
label
Microbial methane oxidation an ...... deep Eastern Mediterranean Sea
@en
Microbial methane oxidation an ...... deep Eastern Mediterranean Sea
@nl
prefLabel
Microbial methane oxidation an ...... deep Eastern Mediterranean Sea
@en
Microbial methane oxidation an ...... deep Eastern Mediterranean Sea
@nl
P2093
P50
P1433
P1476
Microbial methane oxidation an ...... deep Eastern Mediterranean Sea
@en
P2093
Alina Stadnitskaia
Gert J. de Lange
Jean Mascle
Jean-Paul Foucher
Vincent Mastalerz
P304
P356
10.1016/J.MARGEO.2009.02.001
P577
2009-06-01T00:00:00Z