A model is developed to simulate basal area growth and mortality for forest stands using individual trees as the basic units. Yearly diameter increment, probability of death, and height-diameter relationship are computed\ud from a competition measure which is based on crown overlap. This model is used to simulate the growth of two plots for which five remeasurements were available. Correlations between actual and simulated values were\ud .9584 and .9979 for basal area growth for the two plots while correlations for number of live trees were .9949 and .9972. Directions of future development are discussed
There is currently great interest in improving the applicability of forest gap models to changing en...
Modelling is essential in forest management as it enables the prediction of productions and yields, ...
A prediction of future development for different sizes of forest properties and time scales was made...
Research since the early 1960's on the development of individual tree based stand growth simulators ...
A semi-stochastic model was developed to simulate tree growth and stand yield information required f...
Given the uncertainty of future climate regimes, it has become necessary to develop growth and yield...
This individual-tree distance-dependent growth model predicts the diameter, height, and crown height...
This study is part of the overall problem of determining the most suitable management practises for ...
The Forest Vegetation Simulator (FVS) is a distance-independent, individual-tree forest growth model...
Graduation date: 1972A mathematical model has been developed to describe the growth\ud of individual...
Individual-tree growth models are the new standard for modeling growth and yield. Their main purpose...
The study on the tree growth for four species groups of commercial timber in Koh Kong province, Camb...
Intensive study of the growth of individual trees in the open and in stands, and of the growth of st...
Single tree forest growth simulators have proven to be very flexible tools for predicting forest gro...
As trees grow larger in even-aged, monoculture forests, stand density increases, taller trees shade ...
There is currently great interest in improving the applicability of forest gap models to changing en...
Modelling is essential in forest management as it enables the prediction of productions and yields, ...
A prediction of future development for different sizes of forest properties and time scales was made...
Research since the early 1960's on the development of individual tree based stand growth simulators ...
A semi-stochastic model was developed to simulate tree growth and stand yield information required f...
Given the uncertainty of future climate regimes, it has become necessary to develop growth and yield...
This individual-tree distance-dependent growth model predicts the diameter, height, and crown height...
This study is part of the overall problem of determining the most suitable management practises for ...
The Forest Vegetation Simulator (FVS) is a distance-independent, individual-tree forest growth model...
Graduation date: 1972A mathematical model has been developed to describe the growth\ud of individual...
Individual-tree growth models are the new standard for modeling growth and yield. Their main purpose...
The study on the tree growth for four species groups of commercial timber in Koh Kong province, Camb...
Intensive study of the growth of individual trees in the open and in stands, and of the growth of st...
Single tree forest growth simulators have proven to be very flexible tools for predicting forest gro...
As trees grow larger in even-aged, monoculture forests, stand density increases, taller trees shade ...
There is currently great interest in improving the applicability of forest gap models to changing en...
Modelling is essential in forest management as it enables the prediction of productions and yields, ...
A prediction of future development for different sizes of forest properties and time scales was made...