Elevated CO₂ enhances leaf senescence during extreme drought in a temperate forest.
about
Elevated-CO2 Response of Stomata and Its Dependence on Environmental FactorsThe effects of rising atmospheric carbon dioxide on shoot-root nitrogen and water signalingThe effect of heat waves, elevated [CO2 ] and low soil water availability on northern red oak (Quercus rubra L.) seedlings.Large-scale variations in the vegetation growing season and annual cycle of atmospheric CO2 at high northern latitudes from 1950 to 2011.Effects of elevated CO₂, warming and precipitation change on plant growth, photosynthesis and peroxidation in dominant species from North China grassland.Divergent phenological response to hydroclimate variability in forested mountain watersheds.Utilizing intraspecific variation in phenotypic plasticity to bolster agricultural and forest productivity under climate change.Alteration of the phenology of leaf senescence and fall in winter deciduous species by climate change: effects on nutrient proficiency.Carbon dioxide stimulation of photosynthesis in Liquidambar styraciflua is not sustained during a 12-year field experiment.The space-time continuum: the effects of elevated CO2 and temperature on trees and the importance of scaling.Canopy leaf area of a mature evergreen Eucalyptus woodland does not respond to elevated atmospheric [CO2] but tracks water availability.Photosynthetic limitation of several representative subalpine species in the Catalan Pyrenees in summer.Elevated CO2 can modify the response to a water status gradient in a steppe grass: from cell organelles to photosynthetic capacity to plant growth.A synthesis of the effects of atmospheric carbon dioxide enrichment on plant hydraulics: implications for whole-plant water use efficiency and resistance to drought.Ecophysiological responses of Betula pendula, Pinus uncinata and Rhododendron ferrugineum in the Catalan Pyrenees to low summer rainfall.CO2 studies remain key to understanding a future world.Sensitivity of plants to changing atmospheric CO2 concentration: from the geological past to the next century.Stomatal control and leaf thermal and hydraulic capacitances under rapid environmental fluctuations.Forest water use and water use efficiency at elevated CO2 : a model-data intercomparison at two contrasting temperate forest FACE sites.Responses of beech and spruce foliage to elevated carbon dioxide, increased nitrogen deposition and soil type.Model-data synthesis for the next generation of forest free-air CO2 enrichment (FACE) experiments.Woody-plant ecosystems under climate change and air pollution-response consistencies across zonobiomes?Exposure of trees to drought-induced die-off is defined by a common climatic threshold across different vegetation typesThermotolerance capacities of native and exotic coastal plants will lead to changes in species composition under increased heat waves.Drought responses of two gymnosperm species with contrasting stomatal regulation strategies under elevated [CO2] and temperature.Elevated [CO2] does not ameliorate the negative effects of elevated temperature on drought-induced mortality in Eucalyptus radiata seedlings.CO2 enrichment alters diurnal stem radius fluctuations of 36-yr-old Larix decidua growing at the alpine tree line.Nocturnal stomatal conductance responses to rising [CO2], temperature and drought.A meta-analysis of plant physiological and growth responses to temperature and elevated CO(2).Timing and magnitude of C partitioning through a young loblolly pine (Pinus taeda L.) stand using 13C labeling and shade treatments.The effects of elevated CO2 and nitrogen fertilization on stomatal conductance estimated from 11 years of scaled sap flux measurements at Duke FACE.Increases in atmospheric CO2 have little influence on transpiration of a temperate forest canopy.Differences in leaf thermoregulation and water use strategies between three co-occurring Atlantic forest tree species.Forest resilience and tipping points at different spatio-temporal scales: approaches and challengesUsing ecosystem experiments to improve vegetation modelsComprehensive ecosystem model-data synthesis using multiple data sets at two temperate forest free-air CO2enrichment experiments: Model performance at ambient CO2concentrationForest phenology and a warmer climate - growing season extension in relation to climatic provenanceEvaluating the Community Land Model in a pine stand with shading manipulations and <sup>13</sup>CO<sub>2</sub> labelingElevated CO2increases tree-level intrinsic water use efficiency: insights from carbon and oxygen isotope analyses in tree rings across three forest FACE sites
P2860
Q26744586-FEC3C573-2DE6-4444-B3AB-7ABEF3C2F26BQ28685333-B1BD495C-3FEE-434D-B16C-7971A477FA07Q30601274-019497F5-E262-4D35-A00B-A75A21575A81Q30643674-48607AF1-D9F4-44D7-A0FA-8B5912AFC1D9Q30742110-2E92F7E9-55C3-47DA-AE7D-4FF856703558Q30787859-C84CA07D-B7CE-4278-8BFF-A49B32866734Q30843354-1F78CC3B-76DA-40F3-9BBE-568AF512CD4CQ30868589-CC6E5498-89A6-4171-A15D-17E9E529E6ADQ30870428-B8FEE299-68C6-4283-880A-4F717197EA55Q30903547-5E8E8AEC-D796-4516-A011-D81A7F19691FQ31019194-82EE0398-0B86-4A4F-A595-B273D0C6E03EQ31042020-220DE0E4-25E0-4FA0-AD35-8BB813E1C037Q31114121-B00CEB5A-31B2-4061-BCA1-53D39F9F8AE2Q31136583-B91E54FC-2CE2-438E-BA42-94E5C535E3B5Q31139263-08F01E91-1AA8-4A4D-B136-E6646927EC20Q31144983-554DBA1F-DBBA-4922-B91A-BD4875A1EA25Q34560915-59B320FF-562C-49A1-A347-5AE908828429Q34566492-558D6639-7F85-4808-B560-12257DE4F772Q34625025-38DCF04E-394E-431E-A0CB-2D95DC56909BQ35669103-D4C94047-034F-477E-B975-0B7394C512B0Q35739183-C489CE12-57BD-4E46-A352-370984397CA3Q36321902-52238090-57B4-480E-9845-00E825529E6BQ37719493-165AFD82-8016-4DF4-B3FD-6F0EDC64CFC1Q38685427-A43276AE-036D-4099-969C-A70011CA13C0Q38978588-528781E9-E490-4F24-9CA2-005D305BB014Q38978593-F83B02C2-BF5D-4E75-A98A-D9234BF8D2ECQ39126157-94F2B7FD-B7E4-41D8-B93C-408D3C6AD3ECQ39624571-E3ED6EF9-0AF8-4A39-A222-7B902AB17C3CQ39692248-70A9D433-4BF5-4DB1-A434-7E0243A8F1F8Q42499746-E9DE1207-DC43-4FD0-891A-D0956F54665AQ45834757-399F3FAE-1D38-4A95-981C-E54046BDE6A3Q46821485-3F6AAE41-15AC-4403-B7FD-2E4B119582AFQ55527253-60BA1FEF-5233-4A5B-B80E-D49774D6FB9CQ56441500-9EAA867C-1D73-4E55-9E14-3ED5E0489F09Q57160922-4A9593CD-1891-4FC2-9496-B82DFB8AF5E1Q57160931-A9F4A2F2-E6A3-49BD-A9CA-B8BD88EB4179Q57263213-44CB4527-E8CC-45A9-956D-B7AC0C1DC9ACQ57889469-FAC6C4A8-D0FA-4740-9978-A973CD53184AQ58384996-BE8A24E1-F267-49F2-9C73-B31343755A07
P2860
Elevated CO₂ enhances leaf senescence during extreme drought in a temperate forest.
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
2011年论文
@zh
2011年论文
@zh-cn
name
Elevated CO₂ enhances leaf senescence during extreme drought in a temperate forest.
@en
Elevated CO₂ enhances leaf senescence during extreme drought in a temperate forest.
@nl
type
label
Elevated CO₂ enhances leaf senescence during extreme drought in a temperate forest.
@en
Elevated CO₂ enhances leaf senescence during extreme drought in a temperate forest.
@nl
prefLabel
Elevated CO₂ enhances leaf senescence during extreme drought in a temperate forest.
@en
Elevated CO₂ enhances leaf senescence during extreme drought in a temperate forest.
@nl
P50
P356
P1433
P1476
Elevated CO₂ enhances leaf senescence during extreme drought in a temperate forest.
@en
P304
P356
10.1093/TREEPHYS/TPR002
P577
2011-02-01T00:00:00Z