Evergreens favored by higher responsiveness to increased CO₂.
about
Heathlands confronting global change: drivers of biodiversity loss from past to future scenariosEvolutionary context for understanding and manipulating plant responses to past, present and future atmospheric [CO2Using modern plant trait relationships between observed and theoretical maximum stomatal conductance and vein density to examine patterns of plant macroevolutionGrowth habit and leaf economics determine gas exchange responses to high elevation in an evergreen tree, a deciduous shrub and a herbaceous annualImpact of mesophyll diffusion on estimated global land CO2 fertilizationContrasting trait syndromes in angiosperms and conifers are associated with different responses of tree growth to temperature on a large scaleTesting for the effects and consequences of mid paleogene climate change on insect herbivoryIncrease in forest water-use efficiency as atmospheric carbon dioxide concentrations rise.Water shortage and quality of fleshy fruits--making the most of the unavoidable.Comment on "The response of vegetation on the Andean flank in western Amazonia to Pleistocene climate change".Responses of beech and spruce foliage to elevated carbon dioxide, increased nitrogen deposition and soil type.Leaf functional plasticity decreases the water consumption without further consequences for carbon uptake in Quercus coccifera L. under Mediterranean conditions.Improving the estimation of mesophyll conductance to CO₂: on the role of electron transport rate correction and respirationLeaf mesophyll conductance and leaf hydraulic conductance: an introduction to their measurement and coordination.Palaeo leaf economics reveal a shift in ecosystem function associated with the end-Triassic mass extinction event.Two tropical conifers show strong growth and water-use efficiency responses to altered CO2 concentrationDrought × CO2 interactions in trees: a test of the low-intercellular CO2 concentration (Ci ) mechanism.Drought-induced increase in water-use efficiency reduces secondary tree growth and tracheid wall thickness in a Mediterranean conifer.Importance of leaf anatomy in determining mesophyll diffusion conductance to CO2 across species: quantitative limitations and scaling up by modelsIs there a species spectrum within the world-wide leaf economics spectrum? Major variations in leaf functional traits in the Mediterranean sclerophyll Quercus ilex.Anatomical basis of variation in mesophyll resistance in eastern Australian sclerophylls: news of a long and winding path.Does the touch of cold make evergreen leaves tougher?Costs of leaf reinforcement in response to winter cold in evergreen species.Extremely thick cell walls and low mesophyll conductance: welcome to the world of ancient living!Mesophyll conductance plays a central role in leaf functioning of Oleaceae species exposed to contrasting sunlight irradiance.The photosynthetic capacity in 35 ferns and fern allies: mesophyll CO2 diffusion as a key trait.Photosynthesis: ancient, essential, complex, diverse … and in need of improvement in a changing world.Responses of Intrinsic Water-use Efficiency and Tree Growth to Climate Change in Semi-Arid Areas of North China.Inherent variation of functional traits in winter and summer leaves of Mediterranean seasonal dimorphic species: evidence of a 'within leaf cohort' spectrum.Improving representation of photosynthesis in Earth System ModelsInteractive responses of old-field plant growth and composition to warming and precipitationA trait-based ecosystem model suggests that long-term responsiveness to rising atmospheric CO2concentration is greater in slow-growing than fast-growing plantsWater-use efficiency and transpiration across European forests during the AnthropoceneLong-term Wood Production in Water-Limited Forests: Evaluating Potential CO2 Fertilization Along with Historical Confounding FactorsCork oak (Quercus suber L.) seedlings acclimate to elevated CO2 and water stress: photosynthesis, growth, wood anatomy and hydraulic conductivity
P2860
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P2860
Evergreens favored by higher responsiveness to increased CO₂.
description
2011 nî lūn-bûn
@nan
2011 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
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
name
Evergreens favored by higher responsiveness to increased CO₂.
@ast
Evergreens favored by higher responsiveness to increased CO₂.
@en
type
label
Evergreens favored by higher responsiveness to increased CO₂.
@ast
Evergreens favored by higher responsiveness to increased CO₂.
@en
prefLabel
Evergreens favored by higher responsiveness to increased CO₂.
@ast
Evergreens favored by higher responsiveness to increased CO₂.
@en
P50
P1476
Evergreens favored by higher responsiveness to increased CO₂.
@en
P304
P356
10.1016/J.TREE.2010.12.012
P577
2011-02-01T00:00:00Z