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Animal Locomotion
This book provides a clear foundation, based on physical biology and biomechanics, for understanding the underlying mechanisms by which animals have evolved to move in their physical environment. It integrates the biomechanics of animal movement with the physiology of animal energetics and the neural control of locomotion. The author also communicates a sense of the awe and fascination that comes from watching the grace, speed, and power of animals in motion. Movement is a fundamental distinguishing feature of animal life, and a variety of extremely effective mechanical and physiological designs have evolved. Common themes are observed for the ways in which animals successfully contend with ...
Animal Locomotion
Animals have evolved remarkable biomechanical and physiological systems that enable their rich repertoire of motion. Animal Locomotion offers a fundamental understanding of animal movement through a broad comparative and integrative approach, including basic mathematics and physics, examination of new and enduring literature, consideration of classic and cutting-edge methods, and a strong emphasis on the core concepts that consistently ground the dizzying array of animal movements. Across scales and environments, this book integrates the biomechanics of animal movement with the physiology of animal energetics and the neural control of locomotion. This second edition has been thoroughly revised, incorporating new content on non-vertebrate animal locomotor systems, studies of animal locomotion that have inspired robotic designs, and a new chapter on the use of evolutionary approaches to locomotor mechanisms and performance.
Bone
Bone: A Treatise is a series of seven volumes devoted to providing the most up-to-date, comprehensive, and authoritative coverage of all aspects of bone. Seventy-four chapters have been written by 127 respected authors, all of whom are actively engaged in basic, applied, and clinical bone research. The seven volumes in this unique series are organized thematically; each volume integrates structure, function, biochemistry, metabolism, and the molecular and clinical aspects of a particular aspect of the biology of bone. Bone-forming cells are treated in Volume I. Bone resorbing cells are covered in Volume II. Volumes III and IV examine the extracellular matrix of bone, with Volume III concentrating on the structure of bone matrix and on bone-specific proteins, while Volume IV focuses on the mineralization (calcification) of that matrix. Volume V addresses the repair and regeneration of bone. Volumes VI and VII explore bone growth and development.
Scaling in Biology
Scaling relationships have been a persistent theme in biology at least since the time of Leonardo da Vinci and Galileo. While there have been many excellent empirical and theoretical investigations, there has been little attempt to synthesize this diverse but interrelated area of biology. In an effort to fill this void, Scaling in Biology, the first general treatment of scaling in biology in over 15 years, covers a broad spectrum of the most relevant topics in a series of chapters written by experts in the field. Some of those topics discussed include allometry and fractal structure, branching of vascular systems of mammals and plants, biomechanical and life history of plants, invertebrates and vertebrates, and species-area patterns of biological diversity.
Back from the Collapse
Back from the Collapse is a clarion call for restoring one of North America's most underappreciated and overlooked ecosystems: the grasslands of the Great Plains. This region has been called America's Serengeti in recognition of its historically extraordinary abundance of wildlife. Since Euro-American colonization, however, populations of at least twenty-four species of Great Plains wildlife have collapsed--from pallid sturgeon and burrowing owls to all major mammals, including bison and grizzly bears. In response to this incalculable loss, Curtis H. Freese and other conservationists founded American Prairie, a nonprofit organization with the mission of supporting the region's native wildlif...
Engineering Animals
The alarm calls of birds make them difficult for predators to locate, while the howl of wolves and the croak of bullfrogs are designed to carry across long distances. From an engineer's perspective, how do such specialized adaptations among living things really work? And how does physics constrain evolution, channeling it in particular directions? Writing with wit and a richly informed sense of wonder, Denny and McFadzean offer an expert look at animals as works of engineering, each exquisitely adapted to a specific manner of survival, whether that means spinning webs or flying across continents or hunting in the dark-or writing books. This particular book, containing more than a hundred ill...
The Curious Human Knee
Winner, 2023 Choice Outstanding Academic Title Bronze Winner, 2024 Nonfiction Book Awards Where would we be without the knee? This down-to-earth joint connecting the thigh and the lower leg doesn’t receive the attention it deserves. Yet, as The Curious Human Knee reveals, it is crucial to countless facets of science, medicine, culture, and history—and even what makes us human. The science writer Han Yu provides an informative, surprising, and entertaining exploration of the human knee across time and place. She begins with our earliest ancestors, emphasizing that walking upright separates us from the apes and bipedal knees appeared long before big brains and sophisticated tools. Yu consi...
Fundamentals of Neuromechanics
This book provides a conceptual and computational framework to study how the nervous system exploits the anatomical properties of limbs to produce mechanical function. The study of the neural control of limbs has historically emphasized the use of optimization to find solutions to the muscle redundancy problem. That is, how does the nervous system select a specific muscle coordination pattern when the many muscles of a limb allow for multiple solutions? I revisit this problem from the emerging perspective of neuromechanics that emphasizes finding and implementing families of feasible solutions, instead of a single and unique optimal solution. Those families of feasible solutions emerge natur...
Dinosaurs, Spitfires, and Sea Dragons
McGowan attempts to solve some of the enduring mysteries about dinosaurs and other prehistoric reptiles, making fascinating comparisons between living and extinct animals, and drawing on science and engineering concepts to explain the similarities between the aerodynamics of pteradons and Spitfire planes. Illustrations.
Wildlife Review
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