CHEN, S. G., CEULEMANS, R., AND IMPENS, I. A fractal based Populus canopy structure model for the calculation of light interception. Forest Ecology and Management (1993).  Home/Search   Document Not in Database   Summary   Related Articles   Check

.... root tips for nutrients and water transported in soil [12, 37] this mechanism is related to competition between growing branches of corals and sponges for nutrients diffusing in water [34] competition for light between three dimensional shoots of herbaceous plants [25] and branches of trees [9, 10, 11, 15, 33, 35, 52]. Models of exogenous phenomena require a comprehensive representation of both the developing plant and the environment. Consequently, they are the most difficult to formulate, implement, and document. Programs addressed to the biological audience are often limited to narrow groups of plants (for ....

....phenomena require a comprehensive representation of both the developing plant and the environment. Consequently, they are the most difficult to formulate, implement, and document. Programs addressed to the biological audience are often limited to narrow groups of plants (for example, poplars [9] or trees in the pine family [21] and present the results in a rudimentary graphical form. On the other hand, models addressed to the computer graphics audience use more advanced techniques for realistic image synthesis, but put little emphasis on the faithful reproduction of physiological ....

CHEN, S. G., CEULEMANS, R., AND IMPENS, I. A fractal based Populus canopy structure model for the calculation of light interception. Forest Ecology and Management (1993).

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CHEN, S. G., CEULEMANS, R., AND IMPENS, I. A fractal based Populus canopy structure model for the calculation of light interception. Forest Ecology and Management (1993).

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