A rapid, strong, and convergent genetic response to urban habitat fragmentation in four divergent and widespread vertebrates.
about
Demographic history and gene flow during silkworm domesticationWildlife habitat connectivity in the changing climate of New York's Hudson Valley.Desperately seeking stable 50-year-old landscapes with patches and long, wide corridorsDisrupted fine-scale population processes in fragmented landscapes despite large-scale genetic connectivity for a widespread and common cooperative breeder: the superb fairy-wren (Malurus cyaneus).Disease and freeways drive genetic change in urban bobcat populations.Fine-scale genetic response to landscape change in a gliding mammalMorphological clines and weak drift along an urbanization gradient in the butterfly, Pieris rapae.Urban park characteristics, genetic variation, and historical demography of white-footed mouse (Peromyscus leucopus) populations in New York City.Isotopic niche variation in a higher trophic level ectotherm: highlighting the role of succulent plants in desert food webs.Comparative Population Genetic Structure of the Endangered Southern Brown Bandicoot, Isoodon obesulus, in Fragmented Landscapes of Southern Australia.Landscape determinants of fine-scale genetic structure of a small rodent in a heterogeneous landscape (Hluhluwe-iMfolozi Park, South Africa)Effects of landscape matrix on population connectivity of an arboreal mammal, Petaurus breviceps.Cityscape genetics: structural vs. functional connectivity of an urban lizard population.Persistence of long-distance, insect-mediated pollen movement for a tropical canopy tree species in remnant forest patches in an urban landscape.Genetic effects of landscape, habitat preference and demography on three co-occurring turtle species.Variegated tropical landscapes conserve diverse dung beetle communitiesPeak and persistent excess of genetic diversity following an abrupt migration increase.Conservation genetics of extremely isolated urban populations of the northern dusky salamander (Desmognathus fuscus) in New York City.Microgeographic maladaptive performance and deme depression in response to roads and runoff.Urban landscape genetics: canopy cover predicts gene flow between white-footed mouse (Peromyscus leucopus) populations in New York City.Trapped within the city: integrating demography, time since isolation and population-specific traits to assess the genetic effects of urbanization.Ecological connectivity in the three-dimensional urban green volume using waveform airborne lidar.Islands within islands: two montane palaeo-endemic birds impacted by recent anthropogenic fragmentation.Habitat fragmentation in coastal southern California disrupts genetic connectivity in the cactus wren (Campylorhynchus brunneicapillus).Spatial population genomics of the brown rat (Rattus norvegicus) in New York City.Evolution of life in urban environments.Divergent landscape effects on population connectivity in two co-occurring amphibian species.Evolution of genomic variation in the burrowing owl in response to recent colonization of urban areas.Identifying eradication units in an invasive mammalian pest speciesThe role of golf courses in maintaining genetic connectivity between common frog (Rana temporaria) populations in an urban settingWildlife Conservation and Solar Energy Development in the Desert Southwest, United StatesAre species genetically more sensitive to habitat fragmentation on the periphery of their range compared to the core? A case study on the sand lizard (Lacerta agilis)
P2860
Q28652000-73131EB4-F01B-4CBA-8991-2740BFECA1C2Q30650064-10DD6F2D-CD21-4A0F-B893-C7EA7A2ED839Q34149868-AE100E42-2421-43F2-AF82-5D8D0C316A16Q34494409-B39E540A-0C1A-4398-9E7E-64B7BFF7650AQ35026979-18BCCE8B-6BE9-4535-A992-E370381A088EQ35079950-D9E22518-1C91-4D81-B63A-4155032ABB9FQ35080169-B3C433A8-C53C-46EA-BB05-B467BE5A289AQ35136647-93D61D1D-113A-4EF5-A96E-B297B964061BQ35606894-09F81409-8077-449E-B443-DBEE6E7980B3Q35994835-662C1732-2780-4F7D-97C8-7F733FBA6317Q36074373-D7B02A69-3F5D-4C8A-B3E4-9325A69E6A17Q36107009-B22B6AE0-848D-4179-AFFA-B63CD9436761Q36108454-7897B7C6-7B28-40A2-9D94-D55A73537CC0Q36153074-C070E10D-C482-43A2-A142-3E6DB627EB96Q36229346-7C8A1A68-7CF7-44F8-9743-864EFCF41FF8Q36341553-DA2B449F-0B7A-4EA5-A2EF-0BBE7744FA1CQ36643925-835BF96D-5770-424D-8883-3F647F11E131Q36812799-3A1A2D12-F90C-4F81-AC70-682243D2BA6FQ37219352-8A156CAE-D002-4C32-9347-418D0E3E7413Q38418169-69163DDE-FB74-4D1C-BA52-297D71411ECEQ40436236-1111D275-6AF0-4685-8F8F-D74FDC06F54CQ40459165-ED4057D7-7D99-4430-8EA6-724151773DDDQ40776927-9DFCEE69-75ED-4600-93B3-FB94480112A9Q46227778-81A64FFB-0445-4595-A8EE-0A07B9BB36CDQ46256093-E64834E2-2CA5-4999-89C8-F82A4947628AQ46269820-39A7C76E-082C-4440-AD58-4EE07BEEE453Q47575430-634F510E-4447-4FC2-AB64-D8A83CFF9C0EQ54942029-94E15180-D85A-44D5-A656-5B54F3EF5295Q56450524-29805838-0261-4FFE-BC62-0B2F745D9C54Q57236952-F75FBA22-75D5-41F7-8273-ABE908066499Q58242439-7C986FFC-D153-4EB6-BD9F-581D5FAE9EE5Q59269547-AFD30A15-16B7-4133-AE76-5703F09BF6B4
P2860
A rapid, strong, and convergent genetic response to urban habitat fragmentation in four divergent and widespread vertebrates.
description
2010 nî lūn-bûn
@nan
2010 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
A rapid, strong, and convergen ...... nt and widespread vertebrates.
@ast
A rapid, strong, and convergen ...... nt and widespread vertebrates.
@en
type
label
A rapid, strong, and convergen ...... nt and widespread vertebrates.
@ast
A rapid, strong, and convergen ...... nt and widespread vertebrates.
@en
prefLabel
A rapid, strong, and convergen ...... nt and widespread vertebrates.
@ast
A rapid, strong, and convergen ...... nt and widespread vertebrates.
@en
P2093
P2860
P1433
P1476
A rapid, strong, and convergen ...... nt and widespread vertebrates.
@en
P2093
Kathleen Semple Delaney
Robert N Fisher
Seth P D Riley
P2860
P304
P356
10.1371/JOURNAL.PONE.0012767
P407
P577
2010-09-16T00:00:00Z