Add to ORKGLeaf angle distribution is a key parameter to characterize canopy structure and plays a crucial role in controlling energy andmass balance in soil-vegetation-atmosphere-transfer system. Several leaf angle distribution functions found in literature have been proposed to account for the non-random distribution of leaf inclination angle with one or two parameters. In this paper, these leaf angle distribution functions (Beta distribution function, ellipsoidal function, rotated-ellipsoidal function, Verhoef’s algorithm and de Wit’s functions) were compared with field data collected in the First ISLSCP Field Experiment (FIFE) project and two site
ra, rch (W orm 2 ted i whic dista the zenith for the statistical distribution of the angle at which ...
The inclination angle of leaves in plant canopies is important for a range of land ecosystem process...
Life on Earth depends on the conversion of solar energy to chemical energy by plants through photosy...
The ‘ellipsoidal distribution’, in which angles are assumed to be distributed parallel to the surfac...
Knowledge about leaf inclination angle distribution is essential for determining the radiation trans...
Angular distribution of leaves is an important parameter determining the transmission and reflection...
The leaf inclination angle distribution (LAD) is an important characteristic of vegetation canopy st...
Leaf inclination angle distribution is an important canopy structure characteristic which directly i...
Leaf inclination angle distribution is an important canopy structure characteristic which directly i...
Leaf inclination angle and leaf angle distribution (LAD) are important plant structural traits, infl...
The study was conducted at the “Estacion Central Naranjal Cenicafe” (National Coffee Research Center...
The ability to simulate the surface energy balance and microclimate within a plant canopy is conting...
Terrestrial laser scanning is a promising tool for estimating leaf angle (including leaf inclination...
Leaf angle distribution (LAD) is one of the most important parameters used to describe the structure...
At the plant or stand level, leaf orientation is often highly anisotropic and heterogeneous, yet mos...
ra, rch (W orm 2 ted i whic dista the zenith for the statistical distribution of the angle at which ...
The inclination angle of leaves in plant canopies is important for a range of land ecosystem process...
Life on Earth depends on the conversion of solar energy to chemical energy by plants through photosy...
The ‘ellipsoidal distribution’, in which angles are assumed to be distributed parallel to the surfac...
Knowledge about leaf inclination angle distribution is essential for determining the radiation trans...
Angular distribution of leaves is an important parameter determining the transmission and reflection...
The leaf inclination angle distribution (LAD) is an important characteristic of vegetation canopy st...
Leaf inclination angle distribution is an important canopy structure characteristic which directly i...
Leaf inclination angle distribution is an important canopy structure characteristic which directly i...
Leaf inclination angle and leaf angle distribution (LAD) are important plant structural traits, infl...
The study was conducted at the “Estacion Central Naranjal Cenicafe” (National Coffee Research Center...
The ability to simulate the surface energy balance and microclimate within a plant canopy is conting...
Terrestrial laser scanning is a promising tool for estimating leaf angle (including leaf inclination...
Leaf angle distribution (LAD) is one of the most important parameters used to describe the structure...
At the plant or stand level, leaf orientation is often highly anisotropic and heterogeneous, yet mos...
ra, rch (W orm 2 ted i whic dista the zenith for the statistical distribution of the angle at which ...
The inclination angle of leaves in plant canopies is important for a range of land ecosystem process...
Life on Earth depends on the conversion of solar energy to chemical energy by plants through photosy...