Metapopulation dynamics and conservation: A spatially explicit model applied to butterflies
about
Moving forward: dispersal and species interactions determine biotic responses to climate change.Microsatellite markers to assess the influence of population size, isolation and demographic change on the genetic structure of the UK butterfly Polyommatus bellargus.Spatially and financially explicit population viability analysis of Maculinea alcon in The Netherlands.Causes and consequences of animal dispersal strategies: relating individual behaviour to spatial dynamics.Modeling habitat split: landscape and life history traits determine amphibian extinction thresholdsFactors mediating co-occurrence of an economically valuable introduced fish and its native frog prey.Head lice prevalence among households in Norway: importance of spatial variables and individual and household characteristics.Fine-scale population genetic structure and sex-biased dispersal in the smooth snake (Coronella austriaca) in southern England.An empiricist's guide to theoretical predictions on the evolution of dispersalBiased dispersal of Metrioptera bicolor, a wing dimorphic bush-cricket.Habitat predictors of genetic diversity for two sympatric wetland-breeding amphibian species.Computational Population Biology: Linking the inner and outer worlds of organisms.Spatial population structure in a patchily distributed beetle.Parentage assignment detects frequent and large-scale dispersal in water voles.Habitat-Specific Occupancy and a Metapopulation Model of Triatoma sordida (Hemiptera: Reduviidae), a Secondary Vector of Chagas Disease, in Northeastern Argentina.Host-parasitoid evolution in a metacommunity.Habitat-quality effects on metapopulation dynamics in greater white-toothed shrews, Crocidura russula.Distribution and conservation requirements ofNotoreassp., an unnamed Geometrid moth on the Taranaki coast, North Island, New ZealandExtinction, colonization, and distribution patterns of common eider populations nesting in a naturally fragmented landscapeA new Red List of British butterfliesFrequent Usage of Tributaries by the Endangered Fishes of the Upper Colorado River Basin: Observations from the San Rafael River, UtahApodemia mormo in Canada: population genetic data support prior conservation rankingThe genetic structure of populations of Metrioptera bicolor in a spatially structured landscape: effects of dispersal barriers and geographic distanceImpacts of climate warming and habitat loss on extinctions at species' low-latitude range boundariesButterflies on the brink: habitat requirements for declining populations of the marsh fritillary (Euphydryas aurinia) in SW EnglandCan the assumption of a non-random search improve our prediction of butterfly fluxes between resource patches?The parasitoid complex attacking Finnish populations of the Glanville fritillaryMelitaea cinxia(Lep: Nymphalidae), and endangered butterflySpatial ecology of host–parasitoid interactions: a threatened butterfly and its specialised parasitoidMETAPOPULATIONS OF FOUR LEPIDOPTERAN HERBIVORES ON A SINGLE HOST PLANT,LOTUS CORNICULATUSThe spatial structure of populationsScale-dependent, contrasting effects of habitat fragmentation on host-natural enemy trophic interactionsGenetic Variation in Past and Current Landscapes: Conservation Implications Based on Six Endemic Florida Scrub PlantsDiversity and composition of tropical butterflies along an Afromontane agricultural gradient in the Jimma Highlands, EthiopiaSpecialization within a shifting habitat mosaic underpins the seasonal abundance of a tropical fish
P2860
Q30652719-2C169AB3-E128-4F9D-84EE-AF0FF7C4F10EQ31027585-49C19D98-93EE-4599-81BC-B62085070F01Q31066606-483B052D-051F-4A46-9D58-F04DBB454962Q34421993-A2997385-0DF4-4049-9C24-32983E20B399Q34789660-7E5298D4-94A0-4AAC-8FF6-E332477A5713Q35076657-BC768942-1A69-4AF5-ACB1-95057BA4507FQ35235916-290FA4A4-2C6D-42A3-AB97-E8913E07DB69Q35247438-D0142C3D-F6A7-47D0-934C-78769D916870Q37561459-2444BDFF-25E0-472B-94D6-330DD51D337BQ39255903-E34ADA99-2F9F-420C-9725-747CF59D1C29Q41546537-2659B119-C96A-4BAF-B47B-29F39D9F4D27Q42379515-C34FF6D2-0D61-4D66-A4DE-64D19E55105EQ45271996-2AB4C273-47C3-419D-AFDF-9B09A64B1E7AQ47838703-CC1675AD-D4A7-44A4-99D4-F2F9B5520F3CQ49616962-BDED509B-81AA-4EBE-BFBB-0A5FFD1811D7Q51288894-353E5296-6E8C-44D0-A2CD-9BFE8714F9D6Q51676053-1EE77477-D4CD-4409-A847-87872CC84039Q54637587-B8EA14B6-2302-41DA-85DD-A86DBF09E7BDQ56020425-B31C7AC3-1E47-4D65-8147-1C069D42CAD6Q56288578-2E5F3810-AE98-40CF-8F8D-1AF791765049Q56501677-68ECAACD-8287-4001-94AD-D2513A4159ECQ56805445-B08D6CCA-56FD-4B43-9762-49FAF03CD6F0Q57016343-3D448873-8205-42B7-A567-7D0E1F502DA0Q57030662-764B6375-64B3-453D-87F3-D51F7A207DEFQ57057288-36D8E606-CEF8-4EE1-8B5A-498F2578E07AQ57057607-5290F650-4B9E-4B6F-A6E6-9303F11562FFQ57135141-A8F8C4A0-2A9C-456B-BEBC-2B85521FC88DQ57196909-A247CA58-F7AE-4410-B6E1-6FBF1A804352Q57251337-2A3CA29F-53EE-43C3-A0C3-042C263DABB5Q57251354-57925F63-ACAA-40C5-8F72-C519BD494799Q58422418-D89B10CC-20C5-40B6-8BDB-D7F35BC8BB90Q58651094-C62AC39A-1CCD-4309-AFA0-FAB966C06435Q58840938-881A5010-3D26-45B9-8502-2762FE78174FQ59138676-7D7CDB50-1684-4B75-81BE-3E7CBA7FC23C
P2860
Metapopulation dynamics and conservation: A spatially explicit model applied to butterflies
description
article
@en
im Januar 1994 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в 1994
@uk
name
Metapopulation dynamics and co ...... t model applied to butterflies
@en
Metapopulation dynamics and co ...... t model applied to butterflies
@nl
type
label
Metapopulation dynamics and co ...... t model applied to butterflies
@en
Metapopulation dynamics and co ...... t model applied to butterflies
@nl
prefLabel
Metapopulation dynamics and co ...... t model applied to butterflies
@en
Metapopulation dynamics and co ...... t model applied to butterflies
@nl
P1476
Metapopulation dynamics and co ...... t model applied to butterflies
@en
P2093
Chris D. Thomas
Ilkka Hanski
P304
P356
10.1016/0006-3207(94)90348-4
P577
1994-01-01T00:00:00Z