TOLERANCE TO SHADE, DROUGHT, AND WATERLOGGING OF TEMPERATE NORTHERN HEMISPHERE TREES AND SHRUBS
about
An individual-based forest model links canopy dynamics and shade tolerances along a soil moisture gradientPresence of Inulin-Type Fructo-Oligosaccharides and Shift from Raffinose Family Oligosaccharide to Fructan Metabolism in Leaves of Boxtree (Buxus sempervirens)Stability in ecosystem functioning across a climatic threshold and contrasting forest regimesChilling outweighs photoperiod in preventing precocious spring development.Climate change and fire effects on a prairie-woodland ecotone: projecting species range shifts with a dynamic global vegetation model.Wildfire and drought dynamics destabilize carbon stores of fire-suppressed forests.Acclimation of photosynthetic temperature optima of temperate and boreal tree species in response to experimental forest warming.Acclimation of leaf cohorts expanded under light and water stresses: an adaptive mechanism of Eucryphia cordifolia to face changes in climatic conditions?Predicting species' tolerance to salinity and alkalinity using distribution data and geochemical modelling: a case study using Australian grasses.Morphological and structural plasticity of grassland species in response to a gradient in saline-sodic soils.Substrate influences ecophysiological performance of tree seedlings.The relative influences of climate and competition on tree growth along montane ecotones in the Rocky Mountains.Tree Size Inequality Reduces Forest Productivity: An Analysis Combining Inventory Data for Ten European Species and a Light Competition Model.US forest response to projected climate-related stress: a tolerance perspective.Is shade beneficial for mediterranean shrubs experiencing periods of extreme drought and late-winter frosts?Environmental change controls postglacial forest dynamics through interspecific differences in life-history traits.Phylogenetic analysis of local-scale tree soil associations in a lowland moist tropical forest.Simulation of oak early life history and interactions with disturbance via an individual-based model, SOELNon-linear effects of drought under shade: reconciling physiological and ecological models in plant communitiesNorway maple displays greater seasonal growth and phenotypic plasticity to light than native sugar maple.Significant mean and extreme climate sensitivity of Norway spruce and silver fir at mid-elevation mesic sites in the AlpsRelationships of tree height and diameter at breast height revisited: analyses of stem growth using 20-year data of an even-aged Chamaecyparis obtusa standWinning and losing tree species of reassembly in Minnesota's mixed and broadleaf forestsAn appraisal of the classic forest succession paradigm with the shade tolerance index.A comparative study of physiological and morphological seedling traits associated with shade tolerance in introduced red oak (Quercus rubra) and native hardwood tree species in southwestern Germany.Does probability of occurrence relate to population dynamics?Tree height-diameter allometry across the United StatesThe effects of drought and shade on the performance, morphology and physiology of Ghanaian tree species.Tree diversity, tree height and environmental harshness in eastern and western North America.Taxonomic and ecological relevance of the chlorophyll a fluorescence signature of tree species in mixed European forests.Complementarity effects on tree growth are contingent on tree size and climatic conditions across Europe.A synthesis of radial growth patterns preceding tree mortality.Benefits from living together? Clades whose species use similar habitats may persist as a result of eco-evolutionary feedbacks.Do David and Goliath Play the Same Game? Explanation of the Abundance of Rare and Frequent Invasive Alien Plants in Urban Woodlands in Warsaw, Poland.Coexistence trend contingent to Mediterranean oaks with different leaf habits.Ecological limits to plant phenotypic plasticity.A plant's perspective of extremes: terrestrial plant responses to changing climatic variabilityLimited acclimation in leaf anatomy to experimental drought in tropical rainforest trees.Volatile isoprenoid emissions from plastid to planet.Leaf venation: structure, function, development, evolution, ecology and applications in the past, present and future.
P2860
Q28602957-658A8C8C-2FE4-4F3F-9E4E-6FAA2969ABF6Q28603581-151A815C-003F-4F3C-AC2F-663F7CC03DB0Q28743452-4A3FC702-F28E-4247-8DAF-8ECACE078C25Q30712158-55902B0E-C50D-492B-A1E5-01159F2F1625Q30740641-EF0D65C1-7F93-47AC-9963-54BD090E07B0Q30834776-CCDD360C-B701-4658-9DED-4ABE6F825800Q30865302-760D3921-159D-4215-8EFE-5D037721C739Q30869944-B04CB489-C6E2-4C3D-AD35-3975397700B1Q30881776-A11C0378-E50D-4256-BD57-0813A7AC2BAFQ30980683-E0DC0B89-A15E-4ECB-AEAA-3E613D67F7B3Q31002827-1AA6FB81-4590-4494-BE2E-EE47D9D6F09DQ31044958-B1957D71-8D49-4798-B2FA-BCDDE2DE26B9Q31061409-8BB7E851-079D-4046-A226-C2C96C4F86B1Q31084826-9C92B554-BFA2-4E45-9981-FB149A47BB92Q33372279-A54DBB6F-CC23-4E1B-9C1E-2EB83310FFBCQ33501286-4D52E206-6EA8-480F-AD2D-403554C50B64Q33741802-E91ED01C-869C-469A-890D-706E5DFB4CB8Q33817451-71A1BF68-6332-4778-AF83-CC454C66E7A4Q34074286-A9C4587D-709C-452B-840D-2E2A59A3F6AAQ34450074-D72FD7B5-E3E6-47AB-A57F-07468656D4E7Q34500692-01BA3239-5226-4C2F-9462-AA3BFDF63957Q34543213-18F7DA05-D4C2-4655-87E9-08B6E25C9C83Q34684920-F2E27924-5D08-467B-952C-93CC7F53C8B9Q35057767-650714C1-E9AA-4F3B-8058-14E2793FA9B2Q35095018-2316BEF2-033E-4AE0-B0EB-8E98A4671D1CQ35114164-C71B3499-81C8-48ED-901F-8E822A5822A8Q35226337-B988ECAB-E0D3-45D4-9867-45CD65EA7BE9Q35593698-DF956ED9-8918-4C08-B171-2928A9BCD0E8Q36008841-FEA13DA6-D268-430C-B3E2-F43EF47B4046Q36041606-2B4F74B9-57B6-469E-837B-FE2782B91F3FQ36116164-CA08BD30-657D-4BA3-8014-46D75085EAB3Q36167614-6F509F0B-2553-436E-9B64-2D4EE71060BBQ36202345-F4C24DB5-00D9-471D-BE78-4DD8595D25EAQ36228324-357A845D-569F-4F42-9C69-2C23214B6AEEQ36365281-B60706CA-7B18-41F4-A1B2-FB25A3F397FDQ36998903-6A714314-B0E7-4EF9-AB52-691C242F701DQ37379196-D360B144-F0A1-485C-9DFD-520961C4CDFCQ37513532-0C987CAD-5C3F-4458-9888-30D713E18385Q38059227-7D062195-E154-420B-962F-59A8B1F289B6Q38100205-D209D8AC-E727-4C61-94B5-AABABA65816E
P2860
TOLERANCE TO SHADE, DROUGHT, AND WATERLOGGING OF TEMPERATE NORTHERN HEMISPHERE TREES AND SHRUBS
description
im November 2006 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в листопаді 2006
@uk
name
TOLERANCE TO SHADE, DROUGHT, A ...... RN HEMISPHERE TREES AND SHRUBS
@en
TOLERANCE TO SHADE, DROUGHT, A ...... RN HEMISPHERE TREES AND SHRUBS
@nl
type
label
TOLERANCE TO SHADE, DROUGHT, A ...... RN HEMISPHERE TREES AND SHRUBS
@en
TOLERANCE TO SHADE, DROUGHT, A ...... RN HEMISPHERE TREES AND SHRUBS
@nl
prefLabel
TOLERANCE TO SHADE, DROUGHT, A ...... RN HEMISPHERE TREES AND SHRUBS
@en
TOLERANCE TO SHADE, DROUGHT, A ...... RN HEMISPHERE TREES AND SHRUBS
@nl
P2860
P921
P1476
TOLERANCE TO SHADE, DROUGHT, A ...... RN HEMISPHERE TREES AND SHRUBS
@en
P2860
P304
P356
10.1890/0012-9615(2006)076[0521:TTSDAW]2.0.CO;2
P577
2006-11-01T00:00:00Z