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This text introduces and draws together pertinent aspects of fluid dynamics, physical oceanography, solid mechanics, and organismal biology to provide a much-needed set of tools for quantitatively examining the biological effects of ocean waves. "Nowhere on earth does water move as violently as on wave-swept coasts," writes the author, "and every breaker that comes pounding on the shore places large hydrodynamic forces on the organisms resident there." Yet wave-swept coral reefs and rocky shores are home to some of the world's most diverse assemblages of plants and animals, and scientists have chosen these environments to carry out much of the recent experimental work in community structure and population dynamics. Until now these studies have been hampered because biologists often lack a working understanding of the mechanics of the wave-swept shore. Mark Denny here supplies that understanding in clear and vivid language.Included are an introduction to wave-induced water motions and the standard theories for describing them, a broad introduction to the hydrodynamic forces these water movements place on plants and animals, and an explanation of how organisms respond to these forces. These tools are put to use in the final chapters in an examination of the mechanisms of "wave exposure" and an exploration of the mechanical determinants of size and shape in wave-swept environments.Originally published in 1988.The Princeton Legacy Library uses the latest print-on-demand technology to again make available previously out-of-print books from the distinguished backlist of Princeton University Press. These editions preserve the original texts of these important books while presenting them in durable paperback and hardcover editions. The goal of the Princeton Legacy Library is to vastly increase access to the rich scholarly heritage found in the thousands of books published by Princeton University Press since its founding in 1905.

Wave mechanics. --- Seashore biology. --- Electrodynamics --- Matrix mechanics --- Mechanics --- Molecular dynamics --- Quantum statistics --- Quantum theory --- Waves --- Coastal biology --- Marine biology --- Basic Sciences. Physics --- Fluid Mechanics.

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Life is a chancy proposition: from the movement of molecules to the age at which we die, chance plays a key role in the natural world. Traditionally, biologists have viewed the inevitable "noise" of life as an unfortunate complication. The authors of this book, however, treat random processes as a benefit. In this introduction to chance in biology, Mark Denny and Steven Gaines help readers to apply the probability theory needed to make sense of chance events--using examples from ocean waves to spiderwebs, in fields ranging from molecular mechanics to evolution. Through the application of probability theory, Denny and Gaines make predictions about how plants and animals work in a stochastic universe. Is it possible to pack a variety of ion channels into a cell membrane and have each operate at near-peak flow? Why are our arteries rubbery? The concept of a random walk provides the necessary insight. Is there an absolute upper limit to human life span? Could the sound of a cocktail party burst your eardrums? The statistics of extremes allows us to make the appropriate calculations. How long must you wait to see the detail in a moonlit landscape? Can you hear the noise of individual molecules? The authors provide answers to these and many other questions. After an introduction to the basic statistical methods to be used in this book, the authors emphasize the application of probability theory to biology rather than the details of the theory itself. Readers with an introductory background in calculus will be able to follow the reasoning, and sets of problems, together with their solutions, are offered to reinforce concepts. The use of real-world examples, numerous illustrations, and chapter summaries--all presented with clarity and wit--make for a highly accessible text. By relating the theory of probability to the understanding of form and function in living things, the authors seek to pique the reader's curiosity about statistics and provide a new perspective on the role of chance in biology.

Biomathematics. --- Probabilities. --- Probability --- Statistical inference --- Combinations --- Mathematics --- Chance --- Least squares --- Mathematical statistics --- Risk --- Biology

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Tidepools and rocky shores are among the most physically stressful environments on earth. When the tide is high, waves can sweep over plants and animals at velocities as high as 60 miles per hour, while at low tide, the same organisms dry up and bake in the sun. Yet despite this seeming inhospitality, tidepools and rocky shores are exceptionally complex and biologically diverse. This comprehensive encyclopedia is an authoritative, one-stop reference for everyone interested in the biology and ecology of this fascinating and uniquely accessible environment. Conveniently arranged alphabetically, nearly 200 wide-ranging entries written in clear language by scientists from around the world provide a state-of-the-art picture of tidepools and rocky shore science. From Abalones, Barnacles, and Climate Change through Seagrasses, Tides, and Wind, the articles discuss the animals and plants that live in tidepools, the physics and chemistry of the rocky shore environment, the ecological principles that govern tidepools, and many other interdisciplinary topics. * Generously illustrated with hundreds of color photographs, drawings, and diagrams * The only comprehensive volume available on tidepools and rocky shores * Articles include in-depth looks at animal and algal diversity and overviews of the history of research, rocky shore management, and conservation * Contributors are experts on physics and physical oceanography, experimental ecology, population genetics, taxonomy, and other disciplines

Seashore --- Seashore ecology --- Tide pools --- Tide pool ecology --- Sea shore --- Sea shores --- Seashores --- Shore, Sea --- Shores, Sea --- Landforms --- Beaches --- Coasts --- Coastal ecology --- Seashore biology --- Pools, Tide --- Tidal pools --- Tidepools --- Tidal pool ecology --- Tidepool ecology --- Marine ecology --- abalones. --- adhesion. --- algae. --- algal blooms. --- algal economics. --- amphipods. --- biodiversity. --- biology and ecology. --- brachiopods. --- cephalopods. --- chemosensation. --- climate change. --- coastal geology. --- coastal water. --- college textbook. --- conservation. --- environmentalism. --- fungi. --- geology. --- gulf. --- isopods. --- lichen. --- marine animal disease. --- marine animals. --- morphology. --- natural sciences. --- ocean.

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Water --- Fluid dynamics