Two decades of describing the unseen majority of aquatic microbial diversity.
about
A virocentric perspective on the evolution of lifeArchaea in Natural and Impacted Brazilian Environments.Microbial Community Patterns Associated with Automated Teller Machine Keypads in New York CityMan and his spaceships: Vehicles for extraterrestrial colonization?DNA metabarcoding multiplexing and validation of data accuracy for diet assessment: application to omnivorous diet.Pyrosequencing for assessing diversity of eukaryotic microbes: analysis of data on marine planktonic ciliates and comparison with traditional methods.A guide to statistical analysis in microbial ecology: a community-focused, living review of multivariate data analyses.Replication levels, false presences and the estimation of the presence/absence from eDNA metabarcoding data.New insights into the fungal community from the raw genomic sequence data of fig wasp Ceratosolen solmsi.Improved inference of taxonomic richness from environmental DNALong-term dynamics in microbial eukaryotes communities: a palaeolimnological view based on sedimentary DNA.Inferring neutral biodiversity parameters using environmental DNA data sets.Ecological coherence of diversity patterns derived from classical fingerprinting and Next Generation Sequencing techniques.Investigating microbial eukaryotic diversity from a global census: insights from a comparison of pyrotag and full-length sequences of 18S rRNA genesBioinformatic challenges for DNA metabarcoding of plants and animals.Accuracy of protist diversity assessments: morphology compared with cloning and direct pyrosequencing of 18S rRNA genes and ITS regions using the conspicuous tintinnid ciliates as a case study.Microbial Communities on Seafloor Basalts at Dorado Outcrop Reflect Level of Alteration and Highlight Global Lithic Clades.Next-generation sequencing to inventory taxonomic diversity in eukaryotic communities: a test for freshwater diatoms.A unifying quantitative framework for exploring the multiple facets of microbial biodiversity across diverse scales.Phyllosphere bacterial community of floating macrophytes in paddy soil environments as revealed by illumina high-throughput sequencing.Evaluating detection limits of next-generation sequencing for the surveillance and monitoring of international marine pests.A high-throughput sequencing ecotoxicology study of freshwater bacterial communities and their responses to tebuconazole.Metabarcoding vs. morphological identification to assess diatom diversity in environmental studies.Microbial community transcriptional networks are conserved in three domains at ocean basin scales.Marked seasonality and high spatial variability of protist communities in shallow freshwater systems.Stream microbial diversity in response to environmental changes: review and synthesis of existing researchDetermining Microeukaryotic Plankton Community around Xiamen Island, Southeast China, Using Illumina MiSeq and PCR-DGGE Techniques.Seasonality in molecular and cytometric diversity of marine bacterioplankton: the re-shuffling of bacterial taxa by vertical mixing.Multi-stressor impacts on fungal diversity and ecosystem functions in streams: natural vs. anthropogenic stress.Biodiversity patterns of plankton assemblages at the extremes of the Red Sea.Resilience of Freshwater Communities of Small Microbial Eukaryotes Undergoing Severe Drought EventsComparative metagenome of a stream impacted by the urbanization phenomenon.Regulation of immunity and disease resistance by commensal microbes and chromatin modifications during zebrafish development.Potential applications of next generation DNA sequencing of 16S rRNA gene amplicons in microbial water quality monitoring.Patterns and processes in microbial biogeography: do molecules and morphologies give the same answers?Ultrastructural and Single-Cell-Level Characterization Reveals Metabolic Versatility in a Microbial Eukaryote Community from an Ice-Covered Antarctic Lake.One step forwards for the routine use of high-throughput DNA sequencing in environmental monitoring. An efficient and standardizable method to maximize the detection of environmental bacteria.A Pelagic Microbiome (Viruses to Protists) from a Small Cup of Seawater.Microbial Community Structure and Function Decoupling Across a Phosphorus Gradient in Streams.Year-Long Metagenomic Study of River Microbiomes Across Land Use and Water Quality.
P2860
Q26864700-21B305AC-7EDF-4D69-963D-7BD669399879Q28070889-2CF528B5-8833-4B27-8935-DAFDDC760EA8Q28595670-D83947AF-5A9F-46F4-BCD4-A3582635CB0CQ28708842-DA066AD7-2EC3-4422-8949-7CE469D45EB0Q30678001-AFEE062D-D1A9-4888-BD18-8318A6AAB6D1Q30738106-8C1212E8-A9DB-465A-B48C-39EA3A198ABFQ30860214-1317B1AF-E9CA-42E7-A779-3CDBFF14A81AQ30862480-6BDCC9FC-5884-409A-8590-8481A52FE878Q30935470-42195D61-D064-4251-8B63-CB63E17E5948Q31132010-C5F33493-26F7-45DE-B67C-B66332F08FAFQ31137977-D9826282-38D7-4BDA-B421-5B4C969244A1Q31137996-E5379977-B2D3-450C-A17C-DA3397F00128Q31142245-B89BBBAD-30DE-49A0-94AB-5551E263752AQ33798727-5D3FA4A1-AACB-4A84-ABDB-B1CD6A52522CQ34225603-ADB259C3-80A1-44B3-954E-DDF73B3C790BQ34434402-27DA013B-C6A4-4B60-B2E3-2460ADFF1935Q34509499-5986D8A2-59F1-4D6D-B06E-C2E84B1F847CQ34670345-E560A58E-8B3F-494F-AC79-9A9FFD6861D8Q34753401-7094BA57-B6A4-4938-B84C-212CA5515F63Q34777574-5FAE5707-51E1-40ED-BF28-14CF5208E2C5Q34984583-D5FE8C61-0C8A-4A8F-B9C8-68E01421057EQ35227516-8A590C19-D3E0-4E83-A661-C4CA510AC077Q35289939-1540EAA3-5B55-4131-BA52-A6DD475704A8Q35567171-3ECABDD8-1027-4B6A-8D84-59681079BD4BQ35597542-F32F8287-080A-4602-B415-CEE2DA7E99EEQ35617519-2A7FD4D7-86C6-4D28-B26D-A4F942CB2968Q35644685-B1B3C26B-8C70-4FD3-BB63-6F9F65CEBB69Q35696807-EDAEF10C-9588-47C1-A0C2-B2DB29309E08Q35734564-691C28F0-5AA9-4657-A2F7-37576DB68EAFQ35887300-BD595D9E-5A49-4687-84E1-5F111DFCB289Q36052607-09BC7C30-9770-48D0-8912-D1D05DA4438AQ36103712-F0DE3F41-4A46-4B7F-8BB7-CBDB51884ED7Q36300939-77A1D6AE-48DC-4827-B8B0-E66384CCD591Q36945411-C02768DD-AF07-49C7-A87C-69C36FD64EA5Q37031960-01FC1266-5FFF-41C2-9101-FDDC93FBC414Q37122176-FB58986D-F571-495F-B855-DFC08ED33FC2Q37634501-757494FD-9754-4C2E-905A-ED03407653CBQ37727834-B39C9BC5-573F-412E-8680-522AEC2B73FCQ38672945-750FAAA0-52EB-45A3-A20C-839BCD323C71Q38924343-0435CB7D-DC4B-4505-B3AA-A93AD165F877
P2860
Two decades of describing the unseen majority of aquatic microbial diversity.
description
2011 nî lūn-bûn
@nan
2011 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年学术文章
@wuu
2011年学术文章
@zh-cn
2011年学术文章
@zh-hans
2011年学术文章
@zh-my
2011年学术文章
@zh-sg
2011年學術文章
@yue
name
Two decades of describing the unseen majority of aquatic microbial diversity.
@ast
Two decades of describing the unseen majority of aquatic microbial diversity.
@en
Two decades of describing the unseen majority of aquatic microbial diversity.
@nl
type
label
Two decades of describing the unseen majority of aquatic microbial diversity.
@ast
Two decades of describing the unseen majority of aquatic microbial diversity.
@en
Two decades of describing the unseen majority of aquatic microbial diversity.
@nl
prefLabel
Two decades of describing the unseen majority of aquatic microbial diversity.
@ast
Two decades of describing the unseen majority of aquatic microbial diversity.
@en
Two decades of describing the unseen majority of aquatic microbial diversity.
@nl
P2860
P1433
P1476
Two decades of describing the unseen majority of aquatic microbial diversity.
@en
P2093
Thomas Pommier
P2860
P304
P356
10.1111/J.1365-294X.2011.05362.X
P577
2011-11-18T00:00:00Z