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ANA Anatomy & Morphology --- Burseraceae --- Canarium --- Dipterocarpaceae --- Hamamelidaceae --- Leguminosae --- Liquidambar --- Myroxylon --- Shorea --- Styracaceae --- Styrax --- anatomy --- secretory tissues --- thesis
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DEN Dendrology & Forestry --- Aesculus --- Chamecyparis Lawsoniana --- Crataegus monogyna --- Cupressaceae --- Fagaceae --- Fagus sylvatica --- Hamamelidaceae --- Hippocastanaceae --- Liquidambar --- Quercus robur --- Rosaceae --- Sorbus aucuparia --- Viscaceae --- Viscum album --- dendrology
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BRI British Isles --- Acer --- Arbutus --- British Isles --- Carpinus --- Carya --- Cedrus --- Corylus --- Cunninghamia --- Ireland --- Libocedrus --- Liquidambar --- Nothofagus --- Nyssa --- Ostrya --- Pinus sylvestris --- Platanus --- Sassafras --- Sciadopitys --- Sequoia --- habitat photographs --- landscape photographs --- sylviculture --- taxa descriptions --- taxa photographs --- trees
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Through use of the models Professor Horn has devised, plant ecologists, foresters, and botanists will be able to predict the growth and productivity of a forest, the invading and senile species in a forest, the effect of shade tolerance on forest succession, and similar questions.
Acer. --- Betula. --- Carya. --- Cornus. --- Fagus. --- Fraxinus. --- Juniperus. --- Kramer. --- Liquidambar. --- Liriodendron. --- Myrtus. --- Nyssa. --- Ochroma. --- Pinus. --- Populus. --- Quercus. --- Sassafras. --- Sequoia. --- Tsuga. --- Viburnum. --- Whittaker. --- age distribution. --- branching pattern. --- developmental pattern. --- edaphic conditions. --- heat load. --- horizontal distribution. --- root competition. --- stability. --- trees. --- understory. --- wood. --- xeric environment.
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