Add to ORKGDaytime decreases in temperature-normalised stem CO2 efflux (E-A_D) are commonly ascribed to internal transport of respired CO2 (F-T) or to an attenuated respiratory activity due to lowered turgor pressure. The two are difficult to separate as they are simultaneously driven by sap flow dynamics. To achieve combined gradients in turgor pressure and F-T, sap flow rates in poplar trees were manipulated through severe defoliation, severe drought, moderate defoliation and moderate drought. Turgor pressure was mechanistically modelled using measurements of sap flow, stem diameter variation, and soil and stem water potential. A mass balance approach considering internal and external CO2 fluxes was applied to estimate F-T. Under well-watered contro...
We assessed the effect of xylem sap flux on radial CO2 efflux of woody tissue of a tropical trees sp...
The timing of abiotic stress elicitors on wood formation largely affects xylem traits that determine...
Trees remain sufficiently hydrated during drought by closing stomata and reducing canopy conductance...
Daytime decreases in temperature-normalised stem CO2 efflux (E-A_D) are commonly ascribed to interna...
Oxidative respiration is strongly temperature driven. However, in woody stems, efflux of CO2 to the ...
A young potted oak (Quercus robur L.) tree was subjected to drought by interrupting the water supply...
A substantial portion of locally respired CO2 in stems can be assimilated by chloroplast-containing ...
During the night, plant water loss can occur either through the roots, as hydraulic redistribution (...
Measurements of CO2 efflux from stems and branches, sap velocity, and respiratory activity of excise...
Stem respiration (R-S) plays a crucial role in plant carbon budgets. However, its poor understanding...
Mechanistic models of plant respiration remain poorly developed, especially in stems and woody tissu...
We assessed the effect of xylem sap flux on radial CO2 efflux of woody tissue of a tropical trees sp...
Woody tissue photosynthesis (P-wt) contributes to the tree carbon (C) budget and generally stimulate...
Within trees, a portion of respired CO2 is assimilated by bark and woody tissue photosynthesis, but ...
International audienceThe rate of metabolic processes demanding energy in tree stems changes in rela...
We assessed the effect of xylem sap flux on radial CO2 efflux of woody tissue of a tropical trees sp...
The timing of abiotic stress elicitors on wood formation largely affects xylem traits that determine...
Trees remain sufficiently hydrated during drought by closing stomata and reducing canopy conductance...
Daytime decreases in temperature-normalised stem CO2 efflux (E-A_D) are commonly ascribed to interna...
Oxidative respiration is strongly temperature driven. However, in woody stems, efflux of CO2 to the ...
A young potted oak (Quercus robur L.) tree was subjected to drought by interrupting the water supply...
A substantial portion of locally respired CO2 in stems can be assimilated by chloroplast-containing ...
During the night, plant water loss can occur either through the roots, as hydraulic redistribution (...
Measurements of CO2 efflux from stems and branches, sap velocity, and respiratory activity of excise...
Stem respiration (R-S) plays a crucial role in plant carbon budgets. However, its poor understanding...
Mechanistic models of plant respiration remain poorly developed, especially in stems and woody tissu...
We assessed the effect of xylem sap flux on radial CO2 efflux of woody tissue of a tropical trees sp...
Woody tissue photosynthesis (P-wt) contributes to the tree carbon (C) budget and generally stimulate...
Within trees, a portion of respired CO2 is assimilated by bark and woody tissue photosynthesis, but ...
International audienceThe rate of metabolic processes demanding energy in tree stems changes in rela...
We assessed the effect of xylem sap flux on radial CO2 efflux of woody tissue of a tropical trees sp...
The timing of abiotic stress elicitors on wood formation largely affects xylem traits that determine...
Trees remain sufficiently hydrated during drought by closing stomata and reducing canopy conductance...