Add to ORKGPlants are composed by tight connected different tissues and organs that work in synchrony among each other guiding all physiological processes. The functionality of the entire organism depends on the resources allocation for the different organs that have to balance the cost and the benefit of the plant. The ratio between leaf biomass and xylem biomass is an extremely important plant trait since it links photosynthesis to transpiration efficiency and to respiratory costs. Resource availability have been reported to significantly affect the growth of trees. In limited resource environment trees present smaller leaves and shorter braches than plants grown in non-limiting conditions. The aim of this work is to evaluate if the resource alloc...
1- Trees scale leaf (AL) and xylem (AX) areas to couple leaf transpiration and carbon gain with xyle...
Photosynthetic rate is concurrently limited by stomatal limitations and nonstomatal limitations (NSL...
Rates of tissue-level function have been hypothesized to decline as trees grow older and larger, but...
Leaf, xylem and phloem areas drive the water and carbon fluxes within branches and trees, but their ...
Conifers and broadleaved trees coexist in temperate forests and are expected to differ in partitioni...
Plants acquire carbon from the atmosphere and allocate it among different organs in response to envi...
International audienceSummary Trait variability in space and time allows plants to adjust to changin...
Efficient leaf water supply is fundamental for assimilation processes and tree growth. Renovating th...
International audienceObjectives: Carbon fixed during photosynthesis is exported from leaves towards...
Forests are the major terrestrial carbon sink and are critically important for the global carbon cyc...
Worldwide, conifers are most successful on sites subject to chronic stresses that limit productivity...
Phenomena of tree decline and mortality are increasing worldwide as a consequence of the higher temp...
Although fast-growing Populus species consume a large amount of water for biomass production, there ...
Trees with sufficient nutrition are known to allocate carbon preferentially to aboveground plant par...
1- Trees scale leaf (AL) and xylem (AX) areas to couple leaf transpiration and carbon gain with xyle...
Photosynthetic rate is concurrently limited by stomatal limitations and nonstomatal limitations (NSL...
Rates of tissue-level function have been hypothesized to decline as trees grow older and larger, but...
Leaf, xylem and phloem areas drive the water and carbon fluxes within branches and trees, but their ...
Conifers and broadleaved trees coexist in temperate forests and are expected to differ in partitioni...
Plants acquire carbon from the atmosphere and allocate it among different organs in response to envi...
International audienceSummary Trait variability in space and time allows plants to adjust to changin...
Efficient leaf water supply is fundamental for assimilation processes and tree growth. Renovating th...
International audienceObjectives: Carbon fixed during photosynthesis is exported from leaves towards...
Forests are the major terrestrial carbon sink and are critically important for the global carbon cyc...
Worldwide, conifers are most successful on sites subject to chronic stresses that limit productivity...
Phenomena of tree decline and mortality are increasing worldwide as a consequence of the higher temp...
Although fast-growing Populus species consume a large amount of water for biomass production, there ...
Trees with sufficient nutrition are known to allocate carbon preferentially to aboveground plant par...
1- Trees scale leaf (AL) and xylem (AX) areas to couple leaf transpiration and carbon gain with xyle...
Photosynthetic rate is concurrently limited by stomatal limitations and nonstomatal limitations (NSL...
Rates of tissue-level function have been hypothesized to decline as trees grow older and larger, but...