about
Linking hydrothermal geochemistry to organismal physiology: physiological versatility in Riftia pachyptila from sedimented and basalt-hosted ventsHydrogen is an energy source for hydrothermal vent symbiosesExpression and putative function of innate immunity genes under in situ conditions in the symbiotic hydrothermal vent tubeworm Ridgeia piscesaeOpinion: Telepresence is a potentially transformative tool for field scienceCoupling metabolite flux to transcriptomics: insights into the molecular mechanisms underlying primary productivity by the hydrothermal vent tubeworm Ridgeia piscesae.Quantitative population dynamics of microbial communities in plankton-fed microbial fuel cells.Anaerobic methane oxidation in metalliferous hydrothermal sediments: influence on carbon flux and decoupling from sulfate reduction.In situ chemistry and microbial community compositions in five deep-sea hydrothermal fluid samples from Irina II in the Logatchev field.Thermodynamics and kinetics of sulfide oxidation by oxygen: a look at inorganically controlled reactions and biologically mediated processes in the environment.Growth and methane oxidation rates of anaerobic methanotrophic archaea in a continuous-flow bioreactorEvidence for the role of endosymbionts in regional-scale habitat partitioning by hydrothermal vent symbioses.Anaerobic oxidation of short-chain alkanes in hydrothermal sediments: potential influences on sulfur cycling and microbial diversityGeomicrobiological linkages between short-chain alkane consumption and sulfate reduction rates in seep sedimentsHarnessing energy from marine productivity using bioelectrochemical systems.Respiration control of multicellularity in Bacillus subtilis by a complex of the cytochrome chain with a membrane-embedded histidine kinaseAutonomous application of quantitative PCR in the deep sea: in situ surveys of aerobic methanotrophs using the deep-sea environmental sample processor.
P50
Q21089951-2F2813E2-A83F-43BF-8A2A-5E2EE77D1144Q28245338-2C519352-04AA-426A-A7ED-AC2C68A9AB64Q28484177-0513BA18-A175-4BFD-B986-1DB6B0397C9AQ29960512-8E66DA0B-C352-43BB-B662-53685EB51F4BQ33346005-F0F2D505-29EB-4074-8F63-ED3C57BE0176Q33412348-0579A5BF-E783-46B5-8CB2-C3351F7CA142Q34350071-42C9F020-21D8-48AE-B724-593393C38413Q34484703-AC30B5F1-5AF7-450D-A7AC-A35BD3349319Q35155301-8121DA79-8CE0-46E8-B7AB-4170BBD3B73EQ35943235-9906A185-4AED-42DF-A565-BC49E6BBBA51Q36436896-0D271D6D-5ABA-48E7-A0C2-12B94BEB095DQ36841196-4D1DD628-5AD8-44DD-BD1C-A46DF41AA5D2Q37386012-3F819B0C-7C20-4032-A643-E60B8235DF7BQ37728711-9F8C803C-5219-497C-8D88-052FD10CE235Q40595809-9B4839C7-6F5B-43E4-9C52-F98B4D065B02Q46146717-3409AB6F-2C5F-4C52-ACEE-A007CAA6370E
P50
description
Profesor de biología marina
@es
Professor of Marine Biology
@en
onderzoeker
@nl
հետազոտող
@hy
海洋生物学教授
@zh
海洋生物學教授
@zh-hant
name
Peter R Girguis
@nl
Peter R Girguis
@sl
Peter R. Girguis
@en
Peter R. Girguis
@es
Peter R. Girguis
@zh
Peter R. Girguis
@zh-hant
type
label
Peter R Girguis
@nl
Peter R Girguis
@sl
Peter R. Girguis
@en
Peter R. Girguis
@es
Peter R. Girguis
@zh
Peter R. Girguis
@zh-hant
prefLabel
Peter R Girguis
@nl
Peter R Girguis
@sl
Peter R. Girguis
@en
Peter R. Girguis
@es
Peter R. Girguis
@zh
Peter R. Girguis
@zh-hant
P106
P1153
7801588496
P21
P31
P496
0000-0002-3599-8160