Environmental change and carbon limitation in trees: a biochemical, ecophysiological and ecosystem appraisal.
about
Phloem transport and droughtAdaptation, migration or extirpation: climate change outcomes for tree populationsClimate forcing due to optimization of maximal leaf conductance in subtropical vegetation under rising CO2.No evidence for depletion of carbohydrate pools in Scots pine (Pinus sylvestris L.) under drought stress.Alteration of the phenology of leaf senescence and fall in winter deciduous species by climate change: effects on nutrient proficiency.Elevation-dependent responses of tree mast seeding to climate change over 45 years.Extreme defoliation reduces tree growth but not C and N storage in a winter-deciduous species.Trait Acclimation Mitigates Mortality Risks of Tropical Canopy Trees under Global Warming.Ecophysiological responses of Betula pendula, Pinus uncinata and Rhododendron ferrugineum in the Catalan Pyrenees to low summer rainfall.Autumn photosynthetic decline and growth cessation in seedlings of white spruce are decoupled under warming and photoperiod manipulations.Intra-annual dynamics of non-structural carbohydrates in the cambium of mature conifer trees reflects radial growth demands.Topographic position modulates the mycorrhizal response of oak trees to interannual rainfall variability.Seasonal variation in effects of herbivory on foliar nitrogen of a threatened conifer.Physiological mechanisms of drought-induced tree die-off in relation to carbon, hydraulic and respiratory stress in a drought-tolerant woody plant.Forests as carbon sinks--benefits and consequences.Pulse-labelling trees to study carbon allocation dynamics: a review of methods, current knowledge and future prospects.Beyond global change: lessons from 25 years of CO2 research.The altitudinal patterns of leaf C∶N∶P stoichiometry are regulated by plant growth form, climate and soil on Changbai Mountain, China.No evidence of carbon limitation with tree age and height in Nothofagus pumilio under Mediterranean and temperate climate conditions.Drought and shade deplete nonstructural carbohydrate reserves in seedlings of five temperate tree speciesFlexible resource allocation during plant defense responses.Nitrogen uptake, assimilation and remobilization in plants: challenges for sustainable and productive agriculture.Nitrogen storage and remobilization by trees: ecophysiological relevance in a changing world.Seasonality of nitrogen partitioning (non-structural vs structural) in the leaves and woody tissues of tropical eucalypts experiencing a marked dry season.Mechanisms linking drought, hydraulics, carbon metabolism, and vegetation mortality.Carbohydrate storage in meadow plants and its depletion after disturbance: do roots and stem-derived organs differ in their roles?Drought-induced photosynthetic inhibition and autumn recovery in two Mediterranean oak species (Quercus ilex and Quercus suber).Stem girdling indicates prioritized carbon allocation to the root system at the expense of radial stem growth in Norway spruce under drought conditions.Carbon dynamics of Acer pseudoplatanus seedlings under drought and complete darkness.Dynamics of non-structural carbohydrates in three Mediterranean woody species following long-term experimental drought.Nonstructural carbohydrate dynamics of lodgepole pine dying from mountain pine beetle attack.N2 fixation and cycling in Alnus glutinosa, Betula pendula and Fagus sylvatica woodland exposed to free air CO2 enrichment.Stem injection of 15N-NH4NO3 into mature Sitka spruce (Picea sitchensis).Variation in carbon availability, defense chemistry and susceptibility to fungal invasion along the stems of mature trees.Contrasting seasonal overlaps between primary and secondary growth are linked to wood anatomy in Mediterranean sub-shrubs.Vegetation ecology and carbon sequestration potential of shrubs in tropics of Chhattisgarh, India.Does carbon storage limit tree growth?Water stress, shoot growth and storage of non-structural carbohydrates along a tree height gradient in a tall conifer.Hydraulic constraints limit height growth in trees at high altitude.Improving models of photosynthetic thermal acclimation: Which parameters are most important and how many should be modified?
P2860
Q27026739-BF978B0D-4D71-4B92-BE5C-06814C214DE5Q28729965-3389EBB3-3919-4956-B595-E9DECF571D0DQ28742061-C85B9180-DC2A-4973-9842-DCB7717350F6Q30464503-48BE5824-C620-44B8-8CDC-B6B4139A64E2Q30868589-EE7C73C2-0C3B-44CA-8E39-8F552201D52AQ30874739-535A56B3-FC37-4036-834B-BA7DA7A1377AQ30926334-51C085B9-42F1-402B-BB39-41412044D718Q31104220-4F920EEC-E9F6-4CFE-A811-F6008678DEE0Q31139263-FEBA822E-265F-408D-B219-356A1FC24075Q31155380-266762E4-7254-4D11-9E4F-93BF2F43CCDFQ33356725-B25725B9-1525-4F79-B96C-352BB8449B43Q33425998-CB50407A-9327-46EA-B5C5-12BAD5388D11Q33564825-DC556931-8945-4DDF-AEFF-83B15A9BB5CEQ33774383-FA984E1D-0929-45E4-9599-836FCE8BEED9Q34004554-6ABB3695-2C8A-4412-A5D0-AF5803682EB3Q34304733-E86ABBFE-1CD0-41E4-B546-16C0F6F6FD0AQ34544025-D98314B5-0BD0-4573-8C76-A4F1644FCAB9Q35152200-1E581D49-87A4-4B10-A98D-C694F03E8FA5Q35225301-9BFA0434-B2F5-42E0-AA86-386AD3704C2AQ36743376-19A8C286-FFD1-4BD3-B57B-E2CED6F723E4Q37111440-8CE97425-AA3D-4136-864A-671423CB676AQ37714180-CBA9553C-F5CE-4B43-93E5-866E438B03EBQ37765373-5627551D-E302-4916-8D07-48E67B27479CQ39038551-0978B878-B494-46E9-BD74-6D671064A96DQ39233215-162CD752-D1ED-4948-A490-0A8690A6B063Q39250988-B89FC098-2FD9-408F-B9D2-B320C792CE90Q39283523-74A668C7-AC61-4FD1-998B-D5B2C2464743Q39315647-E130AE5B-9A71-4458-A9CF-3AE9DB89C81FQ39357947-518E75E0-6998-47B1-A244-9D94246B550CQ39408401-A198230B-B77F-4D36-9AD5-D9C748167826Q39593678-8BC8B451-99E6-4EB3-B3D3-0AA7DF448798Q39674614-E7D48763-C060-4D5B-BD63-86C37A5A6F2DQ43019886-57B5E547-20F8-4510-BB91-02FCB7112135Q44676211-EE73A243-CB96-4754-91F8-4A81AAB2A7D0Q45847722-5669BC64-0652-44A7-B07A-A25ED22A4BDFQ46300616-8B861289-CBFA-48F6-8A8F-8B0CFEB502B2Q46623564-EC2FFDA8-BDC8-43A1-8BD4-A4A4E2218DD7Q47368433-43E0392C-CF42-4019-B0C7-8AE6396E5173Q47414712-110117F2-3E78-4AA6-AE14-B1719DCEF625Q47656892-6FDA8C00-C9DB-4FE8-9504-16F529CB1A7A
P2860
Environmental change and carbon limitation in trees: a biochemical, ecophysiological and ecosystem appraisal.
description
2007 nî lūn-bûn
@nan
2007 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2007 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
name
Environmental change and carbo ...... gical and ecosystem appraisal.
@ast
Environmental change and carbo ...... gical and ecosystem appraisal.
@en
type
label
Environmental change and carbo ...... gical and ecosystem appraisal.
@ast
Environmental change and carbo ...... gical and ecosystem appraisal.
@en
prefLabel
Environmental change and carbo ...... gical and ecosystem appraisal.
@ast
Environmental change and carbo ...... gical and ecosystem appraisal.
@en
P2093
P2860
P1433
P1476
Environmental change and carbo ...... gical and ecosystem appraisal.
@en
P2093
Gwen-Aëlle Grelet
Martin Sommerkorn
Peter Millard
P2860
P356
10.1111/J.1469-8137.2007.02079.X
P407
P577
2007-01-01T00:00:00Z