Rapid climate change-related growth decline at the southern range edge of Fagus sylvatica
about
Variation in Ecophysiological Traits and Drought Tolerance of Beech (Fagus sylvatica L.) Seedlings from Different Populations.Managing climate change in conservation practice: an exploration of the science-management interface in beech forest managementIntra- and interspecific tree growth across a long altitudinal gradient in the Peruvian Andes.Evidence of current impact of climate change on life: a walk from genes to the biosphere.Disparity in elevational shifts of European trees in response to recent climate warming.Stronger spatial genetic structure in recolonized areas than in refugia in the European beech.Summer rainfall variability in European Mediterranean mountains from the sixteenth to the twentieth century reconstructed from tree rings.Oak decline analyzed using intraannual radial growth indices, δ(13)C series and climate data from a rural hemiboreal landscape in southwesternmost Finland.Evidence for environmentally enhanced forest growthAsymmetric changes of growth and reproductive investment herald altitudinal and latitudinal range shifts of two woody species.Cryptic no more: soil macrofossils uncover Pleistocene forest microrefugia within a periglacial desert.How climate, migration ability and habitat fragmentation affect the projected future distribution of European beech.Acclimation of photosynthetic temperature optima of temperate and boreal tree species in response to experimental forest warming.Intra-specific variations in expression of stress-related genes in beech progenies are stronger than drought-induced responses.Detecting long-term growth trends using tree rings: a critical evaluation of methods.Site-adapted admixed tree species reduce drought susceptibility of mature European beech.How adaptable is the hydraulic system of European beech in the face of climate change-related precipitation reduction?Modelization of the Current and Future Habitat Suitability of Rhododendron ferrugineum Using Potential Snow AccumulationHighest 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 ecoregionIntraspecific Variation in Wood Anatomical, Hydraulic, and Foliar Traits in Ten European Beech Provenances Differing in Growth Yield.Recent climate hiatus revealed dual control by temperature and drought on the stem growth of Mediterranean Quercus ilex.Climate change and the ash dieback crisis.Rubisco, Rubisco activase, and global climate change.Contrasting growth forecasts across the geographical range of Scots pine due to altitudinal and latitudinal differences in climatic sensitivity.Long-term effects of climate change on carbon storage and tree species composition in a dry deciduous forest.Water fluxes within beech stands in complex terrain.Simulations show decreasing carbon stocks and potential for carbon emissions in Rocky Mountain forests over the next century.Multiplexed microsatellite markers for genetic studies of beech.Physical factors driving intertidal macroalgae distribution: physiological stress of a dominant fucoid at its southern limit.Assessments of Drought Impacts on Vegetation in China with the Optimal Time Scales of the Climatic Drought Index.Trade-offs between life-history traits at range-edge and central locations.Structural overshoot of tree growth with climate variability and the global spectrum of drought-induced forest dieback.Climate- and successional-related changes in functional composition of European forests are strongly driven by tree mortality.Increasing carbon discrimination rates and depth of water uptake favor the growth of Mediterranean evergreen trees in the ecotone with temperate deciduous forests.Contributions of insects and droughts to growth decline of trembling aspen mixed boreal forest of western Canada.Climate threats on growth of rear-edge European beech peripheral populations in Spain.Intra-population variability in the drought response of a beech (Fagus sylvatica L.) population in the southwest of Europe.Biodiversity as a solution to mitigate climate change impacts on the functioning of forest ecosystems.Variation in photosynthetic performance and hydraulic architecture across European beech (Fagus sylvatica L.) populations supports the case for local adaptation to water stress.
P2860
Q30382704-8FEB5BB8-B182-4710-894B-2A0402E24C2AQ30387825-9452134B-CA1A-4AAE-98F7-FC51BBE33205Q30574593-B2C9EE40-D65D-4874-99B1-06CC26B7A0DCQ30602393-6CA9309E-ED60-4342-BA57-ECD447124508Q30614349-473FF55C-266E-4E7D-91FD-AA026C2995ADQ30663616-55D03229-9D2F-48AB-9367-CF7FF6BADB2DQ30710945-5FC35A6B-C95F-428E-B5F9-AA0199E22250Q30799814-7FB90752-E0A5-468E-8385-BB3EB37AF498Q30834125-219B1D05-C988-40B7-90C8-4BD2B214D709Q30837574-F79336F6-9473-46C9-9381-76BBCE4018FCQ30860076-6F0AFDDF-488B-4E29-8AFF-6754317BB20AQ30862906-DFB9AA52-9B1B-4057-A52B-892EF56F0BEFQ30865302-8E663107-4500-48AB-8C09-7BC6BD380BADQ30872298-39EDA47C-7A73-4325-A5C1-C35A33308004Q30875321-667563C9-940F-4B1E-90B4-61A0CD94AAD0Q31000200-300C556A-6CD9-4EF7-B7FC-14F0EA160129Q31034609-07688C1E-41F6-45A4-A74F-2432251DE708Q31041128-9481C995-0CF1-4089-8D4D-3404FBB336F9Q31107916-5F59E9BF-5AAF-4172-BF90-FA0B43AC9295Q31110816-3B743775-FFBB-4EBE-8F26-9129F684765BQ31112518-7B5A1036-BD90-4A30-9FC1-83A1953893C7Q31129062-9847A136-80A7-4F1B-A6BC-C9EA9869C29CQ31136578-40A74389-509B-4838-8B07-43552BAEA3D9Q31153627-54EB1934-79F0-4F98-A22A-9F22717F2B83Q31155267-585DCDD3-32F4-4869-B661-2B343936F1C7Q31164444-5C0660A7-724B-4784-A56B-FB02118C714EQ33486579-628BF4CA-F31D-401B-90DF-4F725E0209ADQ33643313-2E272778-1435-4690-B80E-D8F86700CFDAQ34092785-B46DAFCF-4BFF-4D97-AE32-77D37E3A4960Q34242833-430EDC21-876C-41B3-B64B-3362D8253090Q35890915-D6379A6C-40A7-4B78-91B5-54C2A4428FE9Q35961104-D109EE44-E44B-4EB4-8EAF-80107AF72D6EQ36263699-3DF90F7F-94F9-4C51-93CD-A205C26B053BQ36349445-8EA3DABD-A9A3-458A-A422-0ACDF55606DDQ36381330-8D482E09-F79A-445C-8801-A255D9A9BD2AQ38649765-74E8057C-5FD3-4DFC-B6DB-40E249ADCBAAQ38653435-F6B20256-2EAF-4D1A-8D81-91C9023F5E24Q38673191-3EBD6DF6-3555-41F1-BB66-520CD1F60D6BQ38684708-5AF7C3E1-B2E4-4DBE-8A98-DBFEBED75C97Q38878253-7571E232-DAB9-4BC1-A37C-B5997C0FA3BD
P2860
Rapid climate change-related growth decline at the southern range edge of Fagus sylvatica
description
im November 2006 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в листопаді 2006
@uk
name
Rapid climate change-related growth decline at the southern range edge of Fagus sylvatica
@en
Rapid climate change-related growth decline at the southern range edge of Fagus sylvatica
@nl
type
label
Rapid climate change-related growth decline at the southern range edge of Fagus sylvatica
@en
Rapid climate change-related growth decline at the southern range edge of Fagus sylvatica
@nl
prefLabel
Rapid climate change-related growth decline at the southern range edge of Fagus sylvatica
@en
Rapid climate change-related growth decline at the southern range edge of Fagus sylvatica
@nl
P2860
P1476
Rapid climate change-related growth decline at the southern range edge of Fagus sylvatica
@en
P2093
JENNY M. HUNT
JOSEP PEÑUELAS
P2860
P304
P356
10.1111/J.1365-2486.2006.01250.X
P577
2006-11-01T00:00:00Z