Le signal photoacoustique des échantillons humides augmente exponentiellement avec la température. En utilisant ce phénomène on peut étudier le transport de l'eau travers des cuticules de plantes.The PA-signal of wet samples increases exponentially with temperature. This enables the study of the transport of water through plant cuticles
The monitoring of water uptake in plants is becoming increasingly important. Optical sensors offer c...
This chapter outlines the potential of thermal sensing as a tool for plant ecophysiological studies ...
The transfer of water from phloem into xylem is thought to mitigate increasing hydraulic tension in ...
The water permeability of cuticles isolated from the leaves of 14 plant species was measured at temp...
Horticultural plants are often considered as static individuals, taking up water via the root system...
Cuticles act as solution-diffusion membranes for water transport. Diffusion in pores does not contri...
Using isolated cuticular membranes from ten woody and herbaceous plant species, permeance and diffus...
As for plants growing under normal environmental conditions, the water relations are also the most i...
Physiological response of plants and plant parts under various water regimes has been under study fo...
We describe here an integration of hydraulic and chemical signals which control stomatal conductance...
The plant cuticle provides a barrier between internal leaf tissues and the environment. Here the aut...
The scale, mechanism, and physiological importance of cuticular transpiration were last reviewed in ...
This paper examines the dependence of whole leaf hydraulic conductance to liquid water (KL) on irrad...
The interpretation of thermal infrared (TIR) information as a crop water status indicator implies th...
Water transport in the root and soil interface has been investigated to reveal water uptake phenomen...
The monitoring of water uptake in plants is becoming increasingly important. Optical sensors offer c...
This chapter outlines the potential of thermal sensing as a tool for plant ecophysiological studies ...
The transfer of water from phloem into xylem is thought to mitigate increasing hydraulic tension in ...
The water permeability of cuticles isolated from the leaves of 14 plant species was measured at temp...
Horticultural plants are often considered as static individuals, taking up water via the root system...
Cuticles act as solution-diffusion membranes for water transport. Diffusion in pores does not contri...
Using isolated cuticular membranes from ten woody and herbaceous plant species, permeance and diffus...
As for plants growing under normal environmental conditions, the water relations are also the most i...
Physiological response of plants and plant parts under various water regimes has been under study fo...
We describe here an integration of hydraulic and chemical signals which control stomatal conductance...
The plant cuticle provides a barrier between internal leaf tissues and the environment. Here the aut...
The scale, mechanism, and physiological importance of cuticular transpiration were last reviewed in ...
This paper examines the dependence of whole leaf hydraulic conductance to liquid water (KL) on irrad...
The interpretation of thermal infrared (TIR) information as a crop water status indicator implies th...
Water transport in the root and soil interface has been investigated to reveal water uptake phenomen...
The monitoring of water uptake in plants is becoming increasingly important. Optical sensors offer c...
This chapter outlines the potential of thermal sensing as a tool for plant ecophysiological studies ...
The transfer of water from phloem into xylem is thought to mitigate increasing hydraulic tension in ...
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