about
High genetic diversity and fine-scale spatial structure in the marine flagellate Oxyrrhis marina (Dinophyceae) uncovered by microsatellite lociLarge-scale patterns in biodiversity of microbial eukaryotes from the abyssal sea floorA chemosynthetic weed: the tubeworm Sclerolinum contortum is a bipolar, cosmopolitan speciesSurviving rapid climate change in the deep sea during the Paleogene hyperthermalsMitochondrial genome diversity and population structure of the giant squid Architeuthis: genetics sheds new light on one of the most enigmatic marine speciesUltra-deep sequencing of foraminiferal microbarcodes unveils hidden richness of early monothalamous lineages in deep-sea sediments.Low endemism, continued deep-shallow interchanges, and evidence for cosmopolitan distributions in free-living marine nematodes (order Enoplida).Worldwide genotyping in the planktonic foraminifer Globoconella inflata: implications for life history and paleoceanographyThe dynamics of biogeographic ranges in the deep seaPhylogeography of a pan-Atlantic abyssal protobranch bivalve: implications for evolution in the Deep Atlantic.Population genetic structure in Sabatieria (Nematoda) reveals intermediary gene flow and admixture between distant cold seeps from the Mediterranean Sea.Metagenetic community analysis of microbial eukaryotes illuminates biogeographic patterns in deep-sea and shallow water sediments.Analysis of the community structure of abyssal kinetoplastids revealed similar communities at larger spatial scales.Eukaryotic richness in the abyss: insights from pyrotag sequencing.Genetic and morphological divergences in the cosmopolitan deep-sea amphipod Eurythenes gryllus reveal a diverse abyss and a bipolar species.Global Identification of Genes Specific for Rice Meiosis.Combining marine macroecology and palaeoecology in understanding biodiversity: microfossils as a model.Pole-to-pole biogeography of surface and deep marine bacterial communities.Tying new knots in synthetic biology.Invertebrate population genetics across Earth's largest habitat: The deep-sea floor.Do some deep-sea, sediment-dwelling species of harpacticoid copepods have 1000-km-scale range sizes?Vermistella arctica n. sp. Nominates the Genus Vermistella as a Candidate for Taxon with Bipolar Distribution.Phylogeographical pattern of Euplotes nobilii, a protist ciliate with a bipolar biogeographical distribution.Holarctic phylogeography of the testate amoeba Hyalosphenia papilio (Amoebozoa: Arcellinida) reveals extensive genetic diversity explained more by environment than dispersal limitation.Assessing SSU rDNA Barcodes in Foraminifera: A Case Study using Bolivina quadrata.Spatial and temporal patterns of genetic variation in the widespread antitropical deep-sea coral Paragorgia arborea.Phylogenetic placement of Cibicidoides wuellerstorfi (Schwager, 1866) from methane seeps and non-seep habitats on the Pacific margin.Retention of high thermal tolerance in the invasive foraminifera Amphistegina lobifera from the Eastern Mediterranean and the Gulf of AqabaPatterns, processes and vulnerability of Southern Ocean benthos: a decadal leap in knowledge and understandingSize is not everything: a meta-analysis of geographic variation in microscopic eukaryotesInvertebrate diversity of the unexplored marine western margin of Australia: taxonomy and implications for global biodiversityWorldwide sampling reveals low genetic variability in populations of the freshwater ciliate Paramecium biaurelia (P. aurelia species complex, Ciliophora, Protozoa)The distribution of Oxyrrhis marina: a global disperser or poorly characterized endemic?
P2860
Q21562130-1826F4F4-023E-42FE-88EC-350AF5B3797CQ24646353-7AB60DB0-6C56-41FF-9806-921B164B4DF5Q28604264-5C2C8BD7-F4EB-4065-BBC7-221A4BB498D0Q28681644-7B96DD24-1B37-4F0A-A348-C4676F7CC3FCQ28709243-7666A6EC-E537-4408-A196-0709D315F711Q28741432-F2D4B96C-7B45-4188-9799-17E89D050A4EQ28743466-F525DA4E-5556-4419-A9FF-3A039C61246DQ28743639-52B54138-CD9E-4C7B-85D7-7D9A13D63814Q28748345-8CB4340E-F61B-417F-81C5-B8A5AEEEFD30Q33783978-D636C47E-8F12-4B8D-A96C-917EF64CFB78Q33862632-FEE3E79B-1874-44FC-BA88-D12FB488D2C9Q34045498-C9472B19-500F-48B3-B4D8-70B2C11B3702Q34071038-D26533A8-9B09-4561-9F1D-F4C06E9AF740Q34761712-C0BD5C53-DA01-4E95-A237-584BAFC60137Q35004921-88010859-56C4-4EC0-B34D-E565D4D0B69FQ35783726-62DB45AE-B463-4CD6-80F6-1893DBA0804EQ35792645-9EE22572-76F1-4D6A-BF6E-4190FADA8D18Q36378492-130A0B56-918C-48D8-A71B-73CFEA2D83A2Q37104172-E8037DC5-8F35-4CCD-9CAD-82467CEE4A03Q38611904-F8394498-BA1A-4615-9800-C2CF8A181A75Q39644390-0EA3FF96-F5BD-40FA-8A28-41EE71FAD926Q40524893-AFD29DF0-6717-4CAB-BCC6-4F40A7A3CA35Q46070178-BE75521D-DAE5-4B80-9190-94F62FDA94FAQ46226101-2DA1868C-60D3-431D-ADE6-76E726F610FFQ46312998-31083B28-F146-486F-ADBD-74381C989452Q46387132-6F48F941-8423-4052-88B7-E05684C31571Q46812896-027F08EB-F54F-4C29-99C6-9F6032C5EB89Q56379616-43FCFA08-00E9-4EB6-AF74-999CEE142F8AQ57042391-7BFE4C90-5307-49D1-834E-8486F47DACDDQ57615360-0684B39D-FB27-4E0C-B591-B22F902CDAACQ57852512-57C371CB-9825-450E-8C50-7C0945B1C04CQ58804942-9A18C554-DD6F-4CB7-A334-6E7049E6FF46Q58868944-C73B88BB-0F04-452A-9417-3238483D571B
P2860
description
2007 nî lūn-bûn
@nan
2007 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2007 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
name
Bipolar gene flow in deep-sea benthic foraminifera.
@ast
Bipolar gene flow in deep-sea benthic foraminifera.
@en
type
label
Bipolar gene flow in deep-sea benthic foraminifera.
@ast
Bipolar gene flow in deep-sea benthic foraminifera.
@en
prefLabel
Bipolar gene flow in deep-sea benthic foraminifera.
@ast
Bipolar gene flow in deep-sea benthic foraminifera.
@en
P2093
P2860
P1433
P1476
Bipolar gene flow in deep-sea benthic foraminifera.
@en
P2093
P2860
P304
P356
10.1111/J.1365-294X.2007.03465.X
P577
2007-08-23T00:00:00Z