Increased air temperature during simulated autumn conditions does not increase photosynthetic carbon gain but affects the dissipation of excess energy in seedlings of the evergreen conifer Jack pine.
about
Photoperiod constraints on tree phenology, performance and migration in a warming world.Sensitivity of cold acclimation to elevated autumn temperature in field-grown Pinus strobus seedlings.Warming delays autumn declines in photosynthetic capacity in a boreal conifer, Norway spruce (Picea abies).Photoperiod and temperature constraints on the relationship between the photochemical reflectance index and the light use efficiency of photosynthesis in Pinus strobus.A roadmap for improving the representation of photosynthesis in Earth system models.Increased air temperature during simulated autumn conditions impairs photosynthetic electron transport between photosystem II and photosystem I.Autumn photosynthetic decline and growth cessation in seedlings of white spruce are decoupled under warming and photoperiod manipulations.Effects of warming on chlorophyll degradation and carbohydrate accumulation of Alpine herbaceous species during plant senescence on the Tibetan Plateau.Photoperiodic regulation of the seasonal pattern of photosynthetic capacity and the implications for carbon cycling.Photosynthetic acclimation: does the dynamic structure and macro-organisation of photosystem II in higher plant grana membranes regulate light harvesting states?Photosynthetic complex stoichiometry dynamics in higher plants: environmental acclimation and photosynthetic flux control.Coordinated regulation of photosynthetic and respiratory components is necessary to maintain chloroplast energy balance in varied growth conditions.Mitochondrial alternative oxidase maintains respiration and preserves photosynthetic capacity during moderate drought in Nicotiana tabacum.Satellite chlorophyll fluorescence measurements reveal large-scale decoupling of photosynthesis and greenness dynamics in boreal evergreen forests.Field and controlled environment measurements show strong seasonal acclimation in photosynthesis and respiration potential in boreal Scots pineInduction of efficient energy dissipation in the isolated light-harvesting complex of Photosystem II in the absence of protein aggregation.Recovery kinetics of photochemical efficiency in winter stressed conifers: the effects of growth light environment, extent of the season and species.How well do growing season dynamics of photosynthetic capacity correlate with leaf biochemistry and climate fluctuations?A comparison of pine and spruce in recovery from winter stress; changes in recovery kinetics, and the abundance and phosphorylation status of photosynthetic proteins during winter.Thermal acclimation of photosynthesis and respiration of southern and northern white spruce seed sources tested along a regional climatic gradient indicates limited potential to cope with temperature warming.Effects of seasonal change and experimental warming on the temperature dependence of photosynthesis in the canopy leaves of Quercus serrata.Global-scale environmental control of plant photosynthetic capacity.Genetic architecture of life history traits and environment-specific trade-offs.Spring initiation and autumn cessation of boreal coniferous forest CO2 exchange assessed by meteorological and biological variables
P2860
Q30843857-7B30EB47-0A82-4E11-BDC2-227D38F4FCDEQ30926847-068902E9-9362-4D35-B5D9-E72EF9FC8389Q31018955-EDE543A2-9EC8-415D-A1B7-D052016363C3Q31043131-FAD77A1D-B1F5-4FAA-A516-758370EEC3F9Q31144985-157B7AC7-5495-45D4-9205-D2A7B492567FQ31151035-F81E1A03-3F87-493C-A12D-32BB6AD9ED54Q31155380-2346AAAB-C47E-4220-8077-47D6A385B9D1Q34215139-D1162CC2-30A2-4E1B-8AE1-C6B44745288AQ34268912-D170BB46-BF6B-4880-B408-C4306E19899CQ37101702-A6C0E536-2EDF-4E6C-A561-6719FE8712F9Q38214669-8BED1CA2-E596-4C7A-B955-3E79388FE55DQ38960175-88E6915B-AD1A-437F-8EEE-7921F32CBBABQ38960186-2E116C3F-5AEA-4D31-803A-B7B11735DFBCQ39135369-8CCD1FC9-F9DA-450C-A83E-AC50124F795CQ42585863-72297390-D012-4070-B214-8841FFD1EEB1Q43154961-258AAB67-214F-4DC2-AFB3-CE6BC3F629D1Q43408514-3BEAD840-5EA5-4994-8889-504226A9C062Q46308202-B662ABC7-2040-48CA-AC19-BA009B424CC9Q46357100-FF0AEB3E-7E43-4A93-B015-F4FF4C4F7873Q47665492-E6E94B23-C1FF-474D-8027-BA10497DE046Q50278755-632481B4-119C-44B8-8C5A-7F7DEFD5D58CQ50705530-258787EA-8311-40CD-A472-4CD8C3D81214Q51169560-39E53DF0-01ED-467C-9294-1AE60A339160Q57058655-BEEAE6ED-4CD0-4A41-8A43-86BC76710B5F
P2860
Increased air temperature during simulated autumn conditions does not increase photosynthetic carbon gain but affects the dissipation of excess energy in seedlings of the evergreen conifer Jack pine.
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
Increased air temperature duri ...... e evergreen conifer Jack pine.
@ast
Increased air temperature duri ...... e evergreen conifer Jack pine.
@en
type
label
Increased air temperature duri ...... e evergreen conifer Jack pine.
@ast
Increased air temperature duri ...... e evergreen conifer Jack pine.
@en
prefLabel
Increased air temperature duri ...... e evergreen conifer Jack pine.
@ast
Increased air temperature duri ...... e evergreen conifer Jack pine.
@en
P2860
P356
P1433
P1476
Increased air temperature duri ...... e evergreen conifer Jack pine.
@en
P2093
Ingo Ensminger
Norman P A Hüner
P2860
P304
P356
10.1104/PP.106.092312
P407
P577
2007-01-26T00:00:00Z