Life without light: microbial diversity and evidence of sulfur- and ammonium-based chemolithotrophy in Movile Cave.
about
Microbial communities in dark oligotrophic volcanic ice cave ecosystems of Mt. Erebus, AntarcticaQuantitative and phylogenetic study of the Deep Sea Archaeal Group in sediments of the Arctic mid-ocean spreading ridgeBiota and biomolecules in extreme environments on Earth: implications for life detection on MarsBacterial metabolism of methylated amines and identification of novel methylotrophs in Movile CaveLava cave microbial communities within mats and secondary mineral deposits: implications for life detection on other planetsProkaryotic diversity pattern in high-altitude ecosystems of the Chilean AltiplanoPyrosequencing analysis of bacterial biofilm communities in water meters of a drinking water distribution system.Community structure of subsurface biofilms in the thermal sulfidic caves ofAcquasanta Terme, Italy.Characterization of archaeal community in contaminated and uncontaminated surface stream sediments.Autotrophic growth of nitrifying community in an agricultural soil.Environmental factors determining ammonia-oxidizing organism distribution and diversity in marine environments.Calcite biomineralization by bacterial isolates from the recently discovered pristine karstic herrenberg cave.Unravelling the carbon and sulphur metabolism in coastal soil ecosystems using comparative cultivation-independent genome-level characterisation of microbial communitiesImproved isolation strategies allowed the phenotypic differentiation of two Nitrospira strains from widespread phylogenetic lineages.Evidence for niche partitioning revealed by the distribution of sulfur oxidation genes collected from areas of a terrestrial sulfidic spring with differing geochemical conditions.Structure and community composition of sprout-like bacterial aggregates in a Dinaric Karst subterranean stream.Mass effects meet species sorting: transformations of microbial assemblages in epiphreatic subsurface karst water pools.Making a living while starving in the dark: metagenomic insights into the energy dynamics of a carbonate cave.Cultivation-independent detection of autotrophic hydrogen-oxidizing bacteria by DNA stable-isotope probing.Profiling bacterial diversity in a limestone cave of the western Loess Plateau of China.Analysis of microbial communities in the oil reservoir subjected to CO2-flooding by using functional genes as molecular biomarkers for microbial CO2 sequestrationDifferential distribution and abundance of diazotrophic bacterial communities across different soil niches using a gene-targeted clone library approach.Microbiology of healing mud (fango) from Roman thermae aquae iasae archaeological site (Varaždinske Toplice, Croatia).Cropping systems modulate the rate and magnitude of soil microbial autotrophic CO2 fixation in soilCave microbial community composition in oceanic islands: disentangling the effect of different colored mats in diversity patterns of Azorean lava caves.Metagenomics and Bioinformatics in Microbial Ecology: Current Status and Beyond.Dominant bacterial phyla in caves and their predicted functional roles in C and N cycleDiversity of Ammonia Oxidation (amoA) and Nitrogen Fixation (nifH) Genes in Lava Caves of Terceira, Azores, PortugalRelative Abundance of Nitrotoga spp. in a Biofilter of a Cold-Freshwater Aquaculture Plant Appears To Be Stimulated by Slightly Acidic pH.Metagenomic evidence for sulfur lithotrophy by Epsilonproteobacteria as the major energy source for primary productivity in a sub-aerial arctic glacial deposit, Borup Fiord PassPhysiological and Metagenomic Analyses of Microbial Mats Involved in Self-Purification of Mine Waters Contaminated with Heavy MetalsNitrogen fixation in distinct microbial niches within a chemoautotrophy-driven cave ecosystem.Culture-independent methods for studying environmental microorganisms: methods, application, and perspective.Microbiological and environmental issues in show caves.Characterization of an autotrophic bioreactor microbial consortium degrading thiocyanate.Large perturbations in CO2 flux and subsequent chemosynthesis are induced in agricultural soil by the addition of elemental sulfur.Diversity of Miscellaneous Crenarchaeotic Group archaea in freshwater karstic lakes and their segregation between planktonic and sediment habitats.Draft Genome Sequence of the Methane-Oxidizing Bacterium "Candidatus Methylomonas sp. LWB" Isolated from Movile Cave.Comparison of oxidation kinetics of nitrite-oxidizing bacteria: nitrite availability as a key factor in niche differentiationDraft Genome Sequences of Facultative Methylotrophs, Gemmobacter sp. Strain LW1 and Mesorhizobium sp. Strain 1M-11, Isolated from Movile Cave, Romania.
P2860
Q21131078-FE454C4A-F92B-4810-BC45-E6FC91111B7CQ21131114-A514F2E3-1A16-4D5F-9813-A6A5FA61E8C8Q26862566-2638A659-AFE8-43AB-AFBD-1BEB72BB4062Q28244448-94C6277A-65DB-449C-AB7D-CEDE165E6A0CQ28744691-81B1ABD3-AF82-4098-880D-D26B417F0FF4Q29540866-BB7BE83D-178F-4077-8A3C-0B7FA69E5A99Q33617349-1C7302DC-1C53-431A-B01E-F69DA298719BQ33635184-A7DE27EF-A7FA-4F7B-B464-0072D7FD7AF3Q33666980-4C5981A8-B850-4687-9001-D123FE1DAA09Q33821942-CD4BF7F8-8295-42BA-8A76-39CB75D0D135Q34066105-4B6AE7C9-437C-4255-B9F3-76FAFAD98224Q34104673-4222ED8E-57BE-49AD-BABE-E5F43532C5AFQ34203943-3474C54E-D76E-4AE3-BE00-7B729FDABC19Q34466842-69A2C799-275F-43E4-BABE-68F4DE9D27FAQ34503758-13B0DD35-08C5-4CC6-ACCA-2A83716D7BA4Q34546568-6BB45F70-79D4-42EE-95C0-C9926F8C4309Q34686273-6E804809-0147-4C08-B6FF-9613A8F96933Q34986223-535781FF-53AE-4AE5-BF8B-31074C503429Q35138861-7A6CE3B2-78E4-4902-ACD3-45AA907064A3Q35229026-01056ECC-0551-4106-8172-D93BF6F9F6DDQ35233703-066301B7-7997-456A-A9B5-BEBD415C14F8Q35241710-94FD082C-8024-49C9-9AAF-8AF85101B8A9Q35267082-F58BE0B0-DEAF-4931-8CE6-F56E87239654Q35585368-BF44B30D-89FC-44A1-B37F-B0F6235F696BQ35840483-044CD043-D2EF-40EF-A39C-2ED220036C46Q36068973-141B7057-C30A-4F42-9804-C89AD17A79F2Q36343732-2E1CB17D-3E63-477C-9D8D-F6981BB8DED7Q36458486-F8B1C377-0B74-4550-9149-D4A3E9BC2F3DQ36667328-6D0CE88B-6D10-4B49-AE72-ADA023244182Q36782251-A39F9D57-BE8C-4E3A-A0FB-2DDE72F3821DQ37162563-E2ADAF0D-BD88-48F7-8198-EFA5E0CFADA9Q37327683-798F342E-B59B-47F3-B728-74386E67FD0AQ37970612-D9CB1A42-8A08-48A3-A496-13D4A71DA50AQ38027052-3D2FFA31-0123-4954-9E87-F18D890DBFD4Q39582006-8CCCA31D-CDFE-43B2-A2B2-D008CC90E75EQ40957148-8892FF46-50A8-4F1C-8DC2-E028F0B03DA5Q41236654-75D99492-6B7B-40BE-87BE-C997A18CBAF5Q41829083-9F464DE6-8CDD-4D00-960D-55CCED3E7E0BQ41987180-2CA09AAF-8671-4EC5-B132-BE3EAC157F92Q42280588-491956A4-FBB3-4D08-9463-6538FFAF2138
P2860
Life without light: microbial diversity and evidence of sulfur- and ammonium-based chemolithotrophy in Movile Cave.
description
2009 nî lūn-bûn
@nan
2009 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
Life without light: microbial ...... emolithotrophy in Movile Cave.
@ast
Life without light: microbial ...... emolithotrophy in Movile Cave.
@en
type
label
Life without light: microbial ...... emolithotrophy in Movile Cave.
@ast
Life without light: microbial ...... emolithotrophy in Movile Cave.
@en
prefLabel
Life without light: microbial ...... emolithotrophy in Movile Cave.
@ast
Life without light: microbial ...... emolithotrophy in Movile Cave.
@en
P2093
P2860
P50
P356
P1433
P1476
Life without light: microbial ...... emolithotrophy in Movile Cave.
@en
P2093
Alexandra Hillebrand
Hélène Moussard
J Colin Murrell
Mihai Baciu
P2860
P2888
P304
P356
10.1038/ISMEJ.2009.57
P577
2009-05-28T00:00:00Z
P5875
P6179
1042921595