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Europe --- ( Grand Duchy of ) Luxemburg --- phytosociology --- forests --- ecosystems
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bryophytes --- systematics --- phytosociology --- geobotany --- phytogeography --- ecology --- jubilee volume
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This book shows the complexity of plant signaling and behavior in an ecological context and is intended to increase our understanding of it. It reflects the multifaceted interactions between plants and other organisms that affect their growth and development. In addition it puts emphasis on the effects of plant signaling and behavior on other trophic levels. This field of research is growing and developing rapidly, and new findings are regularly reported. Thus, this book provides a broader view of the field and represents a valuable reference work on the current state of research.
Plant cellular signal transduction. --- Plant ecophysiology. --- Plants. --- Plant cellular signal transduction --- Plant ecophysiology --- Botany - General --- Plant Ecology --- Botany --- Earth & Environmental Sciences --- Plant communities. --- Communities, Plant --- Phytosociology --- Plant associations --- Plant societies --- Life sciences. --- Plant science. --- Botany. --- Life Sciences. --- Plant Sciences. --- Biotic communities --- Plant ecology --- Botanical science --- Phytobiology --- Phytography --- Phytology --- Plant biology --- Plant science --- Biology --- Natural history --- Plants --- Floristic botany
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Plant community ecology has traditionally taken a taxonomical approach based on population dynamics. This book contrasts such an approach with a trait-based approach. After reviewing these two approaches, it then explains how models based on the Maximum Entropy Formalism can be used to predict the relative abundance of different species from a potential species pool. Following this it shows how the trait constraints, upon which the model is based, are necessary consequences of natural selection and population dynamics. The final sections of the book extend the discussion to macroecological patterns of species abundance and concludes with some outstanding unresolved questions. Written for advanced undergraduates, graduates and researchers in plant ecology, Bill Shipley demonstrates how a trait-based approach, can explain how the principle of natural selection and quantitative genetics can be combined with maximum entropy methods to explain and predict the structure of plant communities.
Plant communities --- Plant ecology. --- Vegetation classification. --- Vegetation surveys. --- Mathematical models. --- ECO Ecology --- community ecology --- population dynamics --- natural selection --- genetics --- plant communities --- macroecology --- vegetation structure --- Botanical inventories --- Botanical surveys --- Inventories, Botanical --- Inventories, Vegetation --- Vegetation inventories --- Botany --- Ecological surveys --- Phytogeography --- Systematic plant sociology --- Synsystematics --- Syntaxonomy --- Vegetation systematics --- Plants --- Communities, Plant --- Phytosociology --- Plant associations --- Plant societies --- Biotic communities --- Plant ecology --- Methodology --- Classification --- Floristic ecology --- Phytoecology --- Vegetation ecology --- Ecology
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