Phosphorus recycling in photorespiration maintains high photosynthetic capacity in woody species.
about
Incorporating phosphorus cycling into global modeling efforts: a worthwhile, tractable endeavor.Photosynthetic enhancement by elevated CO₂ depends on seasonal temperatures for warmed and non-warmed Eucalyptus globulus trees.A test of the 'one-point method' for estimating maximum carboxylation capacity from field-measured, light-saturated photosynthesis.Using models to guide field experiments: a priori predictions for the CO2 response of a nutrient- and water-limited native Eucalypt woodland.Informing models through empirical relationships between foliar phosphorus, nitrogen and photosynthesis across diverse woody species in tropical forests of Panama.Strong thermal acclimation of photosynthesis in tropical and temperate wet-forest tree species: the importance of altered Rubisco content.Adaptation to high temperature mitigates the impact of water deficit during combined heat and drought stress in C3 sunflower and C4 maize varieties with contrasting drought tolerance.Temporal development of the barley leaf metabolic response to Pi limitation.Increased Needle Nitrogen Contents Did Not Improve Shoot Photosynthetic Performance of Mature Nitrogen-Poor Scots Pine Trees.In situ temperature relationships of biochemical and stomatal controls of photosynthesis in four lowland tropical tree species.Nitrogen and phosphorus availabilities interact to modulate leaf trait scaling relationships across six plant functional types in a controlled-environment study.Seasonal Alterations in Organic Phosphorus Metabolism Drive the Phosphorus Economy of Annual Growth in F. sylvatica Trees on P-Impoverished Soil.Co-regulation of photosynthetic capacity by nitrogen, phosphorus and magnesium in a subtropical Karst forest in China.Conserved stomatal behaviour under elevated CO2and varying water availability in a mature woodlandLeaf trait adaptations of xylem-tapping mistletoes and their hosts in sites of contrasting aridity
P2860
Q30976967-90D026CF-75FC-4022-8F8F-1D4EB38B69B2Q31010242-2B221670-8CA4-496F-B4EC-AB3F38AE65F9Q31034593-D5ACC403-7320-4344-9EB7-22A2BDB4CA56Q31053391-462D9EB4-E482-40E9-8772-F3D72FE1E6E2Q36199467-A4FCDBB7-8F38-44F6-80A0-D35656EB23F2Q38793909-13066D2D-F647-42C4-8460-5D0C6D63FFD8Q38830355-871D8EA9-A335-41CB-B627-6EDE3FB9C0E3Q39084737-067DB9E5-5795-49EF-AF49-E5075D9BA509Q42412798-563D967D-D835-4DE5-A913-913222FE411CQ46304565-F75DF647-D927-4821-B23E-8056C1C342DEQ46365665-7EA5AF2E-CB3C-44EA-A8DD-595D49278059Q55158035-CECED961-ADDE-4B29-AAE1-58B9A2424CC3Q55383667-6B2968C9-EFA7-452D-8AE0-7E2DD7BD0BBBQ57191633-E255EA46-A49B-4C3B-A8E7-55E8330669B7Q57234456-9AC3D2BC-91A0-45C3-B1F4-7CF2680CBF09
P2860
Phosphorus recycling in photorespiration maintains high photosynthetic capacity in woody species.
description
2015 nî lūn-bûn
@nan
2015年の論文
@ja
2015年学术文章
@wuu
2015年学术文章
@zh
2015年学术文章
@zh-cn
2015年学术文章
@zh-hans
2015年学术文章
@zh-my
2015年学术文章
@zh-sg
2015年學術文章
@yue
2015年學術文章
@zh-hant
name
Phosphorus recycling in photor ...... tic capacity in woody species.
@en
Phosphorus recycling in photor ...... tic capacity in woody species.
@nl
type
label
Phosphorus recycling in photor ...... tic capacity in woody species.
@en
Phosphorus recycling in photor ...... tic capacity in woody species.
@nl
prefLabel
Phosphorus recycling in photor ...... tic capacity in woody species.
@en
Phosphorus recycling in photor ...... tic capacity in woody species.
@nl
P2860
P50
P356
P1476
Phosphorus recycling in photor ...... tic capacity in woody species.
@en
P2093
David S Ellsworth
P2860
P304
P356
10.1111/PCE.12468
P577
2015-01-29T00:00:00Z