Vulnerability to xylem cavitation and the distribution of Sonoran Desert vegetation.
about
What plant hydraulics can tell us about responses to climate-change droughtsThe physiological resilience of fern sporophytes and gametophytes: advances in water relations offer new insights into an old lineageHow to quantify conduits in wood?The relationships between xylem safety and hydraulic efficiency in the Cupressaceae: the evolution of pit membrane form and functionIndependence of stem and leaf hydraulic traits in six Euphorbiaceae tree species with contrasting leaf phenology.Elevated CO₂ does not offset greater water stress predicted under climate change for native and exotic riparian plants.Global convergence in the vulnerability of forests to drought.Response of vegetation to drought time-scales across global land biomes.The temporal response to drought in a Mediterranean evergreen tree: comparing a regional precipitation gradient and a throughfall exclusion experiment.Leaf hydraulic vulnerability to drought is linked to site water availability across a broad range of species and climates.Incorporating climate change and exotic species into forecasts of riparian forest distribution.Vulnerability to cavitation differs between current-year and older xylem: non-destructive observation with a compact magnetic resonance imaging system of two deciduous diffuse-porous species.Contrasting drought-response strategies in California redwoods.Cutting stems before relaxing xylem tension induces artefacts in Vitis coignetiae, as evidenced by magnetic resonance imaging.Functional traits variation explains the distribution of Aextoxicon punctatum (Aextoxicaceae) in pronounced moisture gradients within fog-dependent forest fragments.Indirect Evidence for Genetic Differentiation in Vulnerability to Embolism in Pinus halepensis.Warming combined with more extreme precipitation regimes modifies the water sources used by trees.Correlated evolution of stem and leaf hydraulic traits in Pereskia (Cactaceae).Ecophysiology of riparian cottonwood and willow before, during, and after two years of soil water removal.Comparative water use of native and invasive plants at multiple scales: a global meta-analysis.Variation in species-level plant functional traits over wetland indicator status categories.Genetic variation of hydraulic and wood anatomical traits in hybrid poplar and trembling aspen.Associations between growth, wood anatomy, carbon isotope discrimination and mortality in a Quercus robur forest.Plant dieback under exceptional drought driven by elevation, not by plant traits, in Big Bend National Park, Texas, USA.Genome wide expression profiling of two accession of G. herbaceum L. in response to drought.Mind the bubbles: achieving stable measurements of maximum hydraulic conductivity through woody plant samples.Cavitation, stomatal conductance, and leaf dieback in seedlings of two co-occurring Mediterranean shrubs during an intense drought.Determinants of change in subtropical tree diameter growth with ontogenetic stage.Woody plant encroachment of grasslands: a comparison of terrestrial and wetland settings.Weak tradeoff between xylem safety and xylem-specific hydraulic efficiency across the world's woody plant species.Vulnerability to xylem embolism as a major correlate of the environmental distribution of rain forest species on a tropical island.Vulnerability to cavitation, hydraulic efficiency, growth and survival in an insular pine (Pinus canariensis).Population structure, physiology and ecohydrological impacts of dioecious riparian tree species of western North America.Plasticity in Vulnerability to Cavitation of Pinus canariensis Occurs Only at the Driest End of an Aridity Gradient.Variation in seedling freezing response is associated with climate in Larrea.Water stress-induced xylem hydraulic failure is a causal factor of tree mortality in beech and poplar.Root traits contributing to plant productivity under drought.Contrasting xylem vessel constraints on hydraulic conductivity between native and non-native woody understory species.Effect of Leaf Water Potential on Internal Humidity and CO2 Dissolution: Reverse Transpiration and Improved Water Use Efficiency under Negative Pressure.Vulnerability to drought-induced cavitation in poplars: synthesis and future opportunities.
P2860
Q28081447-920D9FAB-60E1-4BA4-A44A-82131FE922F8Q28688006-FE877C83-FC1C-4711-A7AE-2FC696D2F81FQ28703209-F3D2413B-EC5E-46D7-8096-85D14E8491F2Q28749639-DE34D4BD-E7CB-484D-B836-81E6F82FA1CFQ30487985-ED8C68DE-5AB7-45F4-9172-3518D5DB0215Q30578165-6EFAC6D3-90E9-4D4D-A4C2-0F88FC80C107Q30578178-55356D23-4FAA-4B72-AAC6-23139436E4B0Q30582161-710A90AA-FA91-4DA2-A57A-D60C5FC95BE5Q30611794-F21CBB90-DF55-433D-B9F5-399D6BB07A2FQ30835715-B5E3446B-4AE8-4C1A-BB72-1C1DE9119004Q30850905-18652D06-4037-43C9-B004-767DDED0D519Q30886506-46896D99-F509-4148-A558-31B2E214F567Q30912285-C11CA6A0-1F04-4115-BED5-4BB7DBE2411FQ30984514-2B52F239-5F22-4CD5-9DB9-478501AF7EFCQ30986082-E066E07D-4A05-451E-AE27-582685D63B97Q31108705-3424973F-CC7D-4503-B01A-2F22A7D8C9EFQ31128375-0EE71EDD-2B2B-48DC-B1B0-1E17157B38A0Q33262648-5A9A57F6-B944-48E6-AC19-2135E205F5F5Q33560102-2346280A-E7B4-4970-89A8-E9480FD33A23Q33722357-7F709CBA-BA2B-4C46-9C7A-650618DA700AQ33789130-24549A10-FBB1-4C10-AB3D-F17DC8EBC330Q33790324-2ADC111F-F15E-43B7-831D-637AF9A0E0A1Q33835024-CE34F421-5E16-4844-B913-AD372EE08255Q33930677-D6D52896-C3F4-4846-9658-72C21FC4076BQ34198274-EF0E83B4-652B-431C-B383-E526BE137272Q34497910-D4677034-59E5-40C2-BEC9-A5745C590877Q35186791-2BDF3CD6-723F-4B74-9014-8E49B157B718Q35189945-7D3EAAE2-4882-4C06-A35E-ADBEC10A7496Q35569902-FF9A11BC-9400-4617-BE0B-30425CF32D1BQ35778455-51A2A668-06AF-48E9-9AFE-22E54E5E378BQ36197807-687323B0-D66D-4687-8E7B-E23EFB797DC5Q36870845-591BA2C3-97CB-4A11-AE02-898424DD401CQ36897110-43480B43-D0EB-4C72-B764-257B9F2EA618Q36963821-FA6AB240-FF6B-4F21-9471-D0E35D9E5920Q37012071-D1DE7F19-2977-41AE-BCD1-A1CED0D872B7Q37250922-F9290688-78FA-424F-B2CA-CFD6EB54C640Q37280880-DA881F0C-E553-462B-AA29-0B6E0818B9A0Q37348485-26D8E3A8-8B07-4106-9916-CEDFC6A42BBEQ37625895-E9608BDB-37F8-48A6-8773-C33EDF34628CQ38274696-2C1ACE83-132B-4A76-B253-08FAD416B523
P2860
Vulnerability to xylem cavitation and the distribution of Sonoran Desert vegetation.
description
2000 nî lūn-bûn
@nan
2000年の論文
@ja
2000年学术文章
@wuu
2000年学术文章
@zh-cn
2000年学术文章
@zh-hans
2000年学术文章
@zh-my
2000年学术文章
@zh-sg
2000年學術文章
@yue
2000年學術文章
@zh
2000年學術文章
@zh-hant
name
Vulnerability to xylem cavitation and the distribution of Sonoran Desert vegetation.
@en
Vulnerability to xylem cavitation and the distribution of Sonoran Desert vegetation.
@nl
type
label
Vulnerability to xylem cavitation and the distribution of Sonoran Desert vegetation.
@en
Vulnerability to xylem cavitation and the distribution of Sonoran Desert vegetation.
@nl
prefLabel
Vulnerability to xylem cavitation and the distribution of Sonoran Desert vegetation.
@en
Vulnerability to xylem cavitation and the distribution of Sonoran Desert vegetation.
@nl
P356
P1476
Vulnerability to xylem cavitation and the distribution of Sonoran Desert vegetation.
@en
P2093
P304
P356
10.2307/2656722
P407
P577
2000-09-01T00:00:00Z