Ecological and life history characteristics predict population genetic divergence of two salmonids in the same landscape. - Wikidata - awgldk - TriplyDB

Ecological and life history characteristics predict population genetic divergence of two salmonids in the same landscape.

Ecological and life history characteristics predict population genetic divergence of two salmonids in the same landscape.

http://www.wikidata.org/entity/Q51192921

about

Population Structure in the Roundtail Chub (Gila robusta Complex) of the Gila River Basin as Determined by Microsatellites: Evolutionary and Conservation Implications Seasonal movement and distribution of fluvial adult bull trout in selected watersheds in the mid-Columbia River and Snake River basins Small body size increases the regional differentiation of populations of tropical mantellid frogs (Anura: Mantellidae)Genetic diversity is related to climatic variation and vulnerability in threatened bull trout.The influence of life-history strategy on genetic differentiation and lineage divergence in darters (Percidae: Etheostomatinae).Contemporary effective population and metapopulation size (N e and meta-N e): comparison among three salmonids inhabiting a fragmented system and differing in gene flow and its asymmetries.Yangtze River, an insignificant genetic boundary in tufted deer (Elaphodus cephalophus): the evidence from a first population genetics study.Significant genetic boundaries and spatial dynamics of giant pandas occupying fragmented habitat across southwest China.The influence of breeding phenology on the genetic structure of four pond-breeding salamanders.Does fish ecology predict dispersal across a river drainage divide?Syntopic frogs reveal different patterns of interaction with the landscape: A comparative landscape genetic study of Pelophylax nigromaculatus and Fejervarya limnocharis from central China.How do rivers, geographic distance, and dispersal behavior influence genetic structure in two sympatric New World monkeys?The architecture of river networks can drive the evolutionary dynamics of aquatic populations.Post-glacial history of the dominant alpine sedge Carex curvula in the European Alpine System inferred from nuclear and chloroplast markers.Microhabitat differences impact phylogeographic concordance of codistributed species: genomic evidence in montane sedges (Carex L.) from the Rocky Mountains.Contrasting genetic metrics and patterns among naturalized rainbow trout (Oncorhynchus mykiss) in two Patagonian lakes differentially impacted by trout aquaculture.Cryptic species and parallel genetic structuring in Lethrinid fish: Implications for conservation and management in the southwest Indian Ocean.Ecological correlates of population genetic structure: a comparative approach using a vertebrate metacommunity.Linking extinction-colonization dynamics to genetic structure in a salamander metapopulation.Testing the effect of palaeodrainages versus habitat stability on genetic divergence in riverine systems: study of a Neotropical fish of the Brazilian coastal Atlantic Forest Contrasting life histories contribute to divergent patterns of genetic diversity and population connectivity in freshwater sculpin fishes.Fine-scale habitat preferences influence within-river population connectivity: a case-study using two sympatric New ZealandGalaxiasfish species A comparative analysis of population structuring and genetic diversity in sympatric lineages of freshwater shrimp (Atyidae: Paratya): concerted or independent responses to hydrographic factors?How much genetic variation is stored in the endangered and fragmented shrub Maxim?

P2860

Q28611033-DF935742-A016-456B-A2F9-51AF02C5A092 Q28729222-617E768F-A4A8-4746-8A3F-0DA17AA4CAC2 Q29392199-EA74FB9B-0D13-449D-8A21-4A89621BD1FB Q30888462-C6AB9110-1CBD-4966-A9D7-DC7D943B2597 Q34433936-F807AA74-FE8A-428D-969B-117F421BFEC3 Q36709176-151EBE98-ADF0-4F14-8AC8-044C4DCD21B4 Q37406659-D55AA760-6F4A-4C98-AF08-FC0E13418B50 Q38425178-F71CB5FD-0DAE-4F5D-BAD3-05CFFDF225AA Q38687299-8400EFBA-603B-480D-B375-8E5BCAF632EE Q42649186-28285EC1-D644-4CC3-98E2-AC4643392F75 Q46251599-771120E3-D7F3-401E-B5C3-6F43A7A5ACEB Q46396037-F967B7D1-1615-4342-A2B5-84FE111EE47A Q46594335-B2E298F1-C9DA-4CC0-8C75-6201A0B57E89 Q46636233-970C8656-1249-4F09-BAAC-9D5CB8572D40 Q46864358-40A1C2AE-39CB-419C-A09B-235AD0E37E53 Q48266399-7E565885-4F4F-46F6-87F1-548147B39AFD Q50226771-BFCAC189-FB13-40AF-85FE-30EE2C86557D Q51188044-51B62FF8-0969-4481-AB37-3FDF68FE05E3 Q51579041-9F4BE41A-1033-401E-ACFD-33A7E65FA042 Q54639977-4593EA5B-9ECA-4692-B935-2D07E6925ADC Q55038800-530FB113-F1B0-441E-BE9C-983F05E5F6CB Q56997680-4248D07C-CE0F-498D-8C4F-8126528592B7 Q58258828-42C08C1F-8AF1-42D9-A48C-A66F01038688 Q58706337-4351E8BF-14CB-4E11-946D-8D2DE5E697C0

P2860

Ecological and life history characteristics predict population genetic divergence of two salmonids in the same landscape.

http://www.wikidata.org/entity/Q51192921

description

2004 nî lūn-bûn

@nan

2004年の論文

@ja

2004年学术文章

@wuu

2004年学术文章

@zh

2004年学术文章

@zh-cn

2004年学术文章

@zh-hans

2004年学术文章

@zh-my

2004年学术文章

@zh-sg

2004年學術文章

@yue

2004年學術文章

@zh-hant

name

Ecological and life history ch ...... lmonids in the same landscape.

@en

Ecological and life history ch ...... lmonids in the same landscape.

@nl

type

label

Ecological and life history ch ...... lmonids in the same landscape.

@en

Ecological and life history ch ...... lmonids in the same landscape.

@nl

prefLabel

Ecological and life history ch ...... lmonids in the same landscape.

@en

Ecological and life history ch ...... lmonids in the same landscape.

@nl

P1433

Q51192921-B35E8056-D5F1-4A06-9334-841D4956525A

P1476

Q51192921-BC1B10C1-7FEE-4400-A2A4-59664A055A6C

P2093

Q51192921-0B02F94F-4667-4A42-9C09-D3647D77CC14

Q51192921-1CDA3FBA-1E4A-4A3F-B8E2-043DC2EB1724

Q51192921-4849545B-CDBB-4AC1-B91B-9E4B2E5800D5

P2860

Q51192921-22E9A24E-8CE4-41AE-B4BC-124458646EE6

Q51192921-9FD107EB-C16A-4E91-B812-D270FD9BE0B4

Q51192921-BA248189-5949-4447-BCF2-D91BD45A30ED

Q51192921-DBFD6FD7-F43A-4693-B68D-CD67A4703711

P304

Q51192921-29A3F7E3-2239-4A83-AA75-02975D32FDF1

P31

Q51192921-9B1BC178-A0F7-4939-BA7F-DE408E5603FF

P356

Q51192921-D92EAD20-B8A6-468B-9600-E954D78FA0EC

P433

Q51192921-15B9B3CB-7944-4AB4-A62E-6EE4170C7772

P478

Q51192921-5C0A3F80-A2C3-4A95-9DF3-322DC42D1D0A

P577

Q51192921-103B73A3-0AE8-4896-8958-B2A1ABD2CD19

P5875

Q51192921-1080369A-40AE-4C09-AEAF-F6BE518A613F

P698

Q51192921-FBD1E6BF-97FA-4E04-848B-75241132F8FF

P921

Q51192921-E9C19CDE-DE97-4974-AACE-CB13F30C7EF5

P356

J.1365-294X.2004.02365.X

P1433

Molecular Ecology

P1476

Ecological and life history ch ...... lmonids in the same landscape.

@en

P2093

Andrew R Whiteley

http://www.w3.org/2001/XMLSchema#string

Fred W Allendorf

http://www.w3.org/2001/XMLSchema#string

Paul Spruell

http://www.w3.org/2001/XMLSchema#string

P2860

Adaptive divergence and the balance between selection and gene flow: lake and stream stickleback in the Misty system.

The influence of history and contemporary stream hydrology on the evolution of genetic diversity within species: an examination of microsatellite DNA variation in bull trout, Salvelinus confluentus (Pisces: Salmonidae).

Clinal variation at microsatellite loci reveals historical secondary intergradation between glacial races of Coregonus artedi (Teleostei: Coregoninae).

Patterns of genetic architecture for life-history traits and molecular markers in a subdivided species.

P304

3675-3688

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1111/J.1365-294X.2004.02365.X

http://www.w3.org/2001/XMLSchema#string

P433

12

http://www.w3.org/2001/XMLSchema#string

P478

13

http://www.w3.org/2001/XMLSchema#string

P577

2004-12-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

8179416

http://www.w3.org/2001/XMLSchema#string

P698

15548282

http://www.w3.org/2001/XMLSchema#string

P921

population genetics