The altitude-for-latitude disparity in the range retractions of woody species.
about
Some poleward movement of British native vascular plants is occurring, but the fingerprint of climate change is not evidentMacrolepidoptera biodiversity in Wooster, Ohio from 2001 through 2009Following the trail: factors underlying the sudden expansion of the Egyptian mongoose (Herpestes ichneumon) in PortugalSmall-scale patterns in snowmelt timing affect gene flow and the distribution of genetic diversity in the alpine dwarf shrub Salix herbaceaImprints of natural selection along environmental gradients in phenology-related genes of Quercus petraeaPotential for evolutionary responses to climate change - evidence from tree populationsAnthropogenic refugia ameliorate the severe climate-related decline of a montane mammal along its trailing edgeProjected impacts of climate change on regional capacities for global plant species richnessManaging climate change in conservation practice: an exploration of the science-management interface in beech forest managementElevational adaptation and plasticity in seedling phenology of temperate deciduous tree species.Stream isotherm shifts from climate change and implications for distributions of ectothermic organisms.Evidence of current impact of climate change on life: a walk from genes to the biosphere.Spatio-temporal characteristics of global warming in the Tibetan Plateau during the last 50 years based on a generalised temperature zone-elevation model.Vulnerability of dynamic genetic conservation units of forest trees in Europe to climate change.Patterns of climate-induced density shifts of species: poleward shifts faster in northern boreal birds than in southern birds.Asymmetric changes of growth and reproductive investment herald altitudinal and latitudinal range shifts of two woody species.A new tool for exploring climate change induced range shifts of conifer species in China.Microrefugia: Not for everyone.Evidence of tree species' range shifts in a complex landscapeIn the right place at the right time: habitat representation in protected areas of South American Nothofagus-dominated plants after a dispersal constrained climate change scenario.Fitness declines towards range limits and local adaptation to climate affect dispersal evolution during climate-induced range shifts.Unravelling the evolutionary history and future prospects of endemic species restricted to former glacial refugia.Simulating the Interacting Effects of Intraspecific Variation, Disturbance, and Competition on Climate-Driven Range Shifts in Trees.Adapting to a Changing Environment: Modeling the Interaction of Directional Selection and Plasticity.Early signs of range disjunction of submountainous plant species: an unexplored consequence of future and contemporary climate changes.Potential Implications of Climate Change on Aegilops Species Distribution: Sympatry of These Crop Wild Relatives with the Major European Crop Triticum aestivum and Conservation IssuesHighest drought sensitivity and lowest resistance to growth suppression are found in the range core of the tree Fagus sylvatica L. not the equatorial range edge.Climate and landscape drivers of tree decline in a Mediterranean ecoregionEcological constraints increase the climatic debt in forests.Influence of altitude on local adaptation in upland tree species from central Argentina.Tree range expansion in eastern North America fails to keep pace with climate warming at northern range limits.Forest responses to increasing aridity and warmth in the southwestern United States.Comparative phylogeography of two related plant species with overlapping ranges in Europe, and the potential effects of climate change on their intraspecific genetic diversityChanges in plant community composition lag behind climate warming in lowland forests.Coping with temperature at the warm edge--patterns of thermal adaptation in the microbial eukaryote Paramecium caudatumComment on "Disentangling the drivers of β diversity along latitudinal and elevational gradients".North American vegetation model for land-use planning in a changing climate: a solution to large classification problems.Impacts of predicted climate change on recruitment at the geographical limits of Scots pine.Local adaptation at range edges: comparing elevation and latitudinal gradients.Mating system shifts on the trailing edge.
P2860
Q21128698-8BEB5586-861A-4248-8DF9-27848B23059CQ22680942-581C1DB6-0D0E-4F23-A3A3-52DEA2E0842FQ27302038-B26DF209-A097-4137-903A-2FF593B411F6Q28601560-F00EF4BC-C5AB-4A6E-9EAD-793D076DB69DQ28679294-F9823028-980F-4929-9126-C80CEB51DCB7Q28686886-C294A374-E2AD-4D0C-A276-5019D29307DBQ28727839-33BB590F-92C0-4787-856D-86F6EF557795Q28750740-B2A05491-4EE7-489B-84E0-08C65C697119Q30387825-1EFE9E3F-E581-42F2-A2A2-695046F5FE11Q30585581-BDC68EEB-8C27-4B92-998F-0F658DC830A3Q30601456-9EC9284D-53CB-48D1-A3AB-01E029EB20BDQ30602393-CD9A46F8-6136-4E6A-96C1-3B3AF842D246Q30613189-C823CB3C-C3A6-4957-A22C-148DB8C0813EQ30700841-3D1915F4-B617-4B73-8FFB-6ADAADE84D0DQ30799851-CB5AF3FE-A505-4E14-B6FB-5A59A313B676Q30837574-43076B88-39B2-4AD7-B6CD-75F1C51993F6Q30856364-311C9409-389B-43FE-ADCC-20A6630546BFQ30883863-F49FC734-DBE9-4FB6-8C4A-01B30258E608Q30886651-A0C4587B-4BAC-429C-835B-EF0C64FCDC4BQ30912218-2FC96039-639A-42E7-A35C-B7AF7247F14EQ30972910-4FC57CD7-F1AA-4166-9402-E9CEC4EBC067Q30992086-3878E2BB-4E4C-46BA-A188-A2DE5E477767Q31021981-257F59CD-B3DE-4D2F-BAEF-FB85E216AA9EQ31022437-554A319A-5534-4CB6-AE72-5D8405B1A65AQ31043040-65155B97-8155-4251-9334-107A0F6D56ACQ31082553-277BEC26-D328-4B0D-98C4-4E4151400912Q31107916-265B5C5D-6D2A-4C42-94EC-F4E0EA1F2072Q31110816-44927B7E-B5B9-4CE2-B394-5E5590F66532Q31123592-47B9FB9C-E2F7-4AF6-A7F0-829E210567CFQ31135444-95408F28-4AFF-46ED-9F84-B98EE37168FEQ31159756-F7DF9C4F-8A03-4CEE-B2B9-192C691270C0Q33768415-C45F90AF-5B8E-4983-9154-6F3171AE4BACQ33805385-75979E86-5BDD-459B-BA61-06DC83F600B2Q34051989-1B97EF30-A3F2-4FAC-BF58-5B50ED2A5D02Q34199615-1AC07B31-680F-4083-B319-7291E23CF605Q34213636-63EA6991-36ED-4473-B30E-A3A89BB8074AQ34218075-117159D2-C65C-4845-963A-C0F0F094C696Q35039546-14004844-ADF4-4021-9C7E-C975C869FEB0Q35706125-3106D7D4-AFF8-42B3-8155-F915DA356BD4Q35753270-C4BF8322-DE0F-4200-BE45-F1CAA175B0AB
P2860
The altitude-for-latitude disparity in the range retractions of woody species.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 18 August 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
The altitude-for-latitude disparity in the range retractions of woody species.
@en
The altitude-for-latitude disparity in the range retractions of woody species.
@nl
type
label
The altitude-for-latitude disparity in the range retractions of woody species.
@en
The altitude-for-latitude disparity in the range retractions of woody species.
@nl
prefLabel
The altitude-for-latitude disparity in the range retractions of woody species.
@en
The altitude-for-latitude disparity in the range retractions of woody species.
@nl
P1476
The altitude-for-latitude disparity in the range retractions of woody species.
@en
P2093
Csaba Mátyás
P304
P356
10.1016/J.TREE.2009.06.007
P577
2009-08-18T00:00:00Z