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Ecophysiology of Desert Arthropods and Reptiles starts with a new classification of the world's deserts, based upon the type of precipitation and the effect on their faunas of arthropods and reptiles. This is followed by an account of microclimates and the avoidance of environmental extremes. Whereas thermoregulation is primarily behavioural, responses to water shortage are largely physiological. Seasonal activity and phenology are described, adaptations for burrowing, the avoidance of enemies, and defence, are also outlined. A comparative account of interspecific relationships, feeding specializations, and species diversity in the two taxa is described. The purpose of the book is to provide a new and up-to-date analysis that will stimulate further research along these lines.
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Eric Pianka offers a synthesis of his life's work on the comparative ecology of lizard assemblages in the Great Basin. Mojave and Sonoran deserts of western North America, the Kalahari semi-desert of southern Africa, and the Great Victoria desert of Western Australia. Originally published in 1986. 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.
Reptiles demonstrate remarkable diversity across the landscape. From inland habitats of deserts and grasslands to coastal plains and oceans, the unique adaptations and life histories of reptiles have been shaped by a suite of abiotic and biotic factors. It is the interface between the organism and its environment that present biologists with the opportunity to explore how reptiles behaviourally and physiologically respond to their environments and to determine what factors govern their ecology. This book captures the interests of all readers with a text that is foundational for the novice herpetologist, while informative for beginning students and seasoned research scientists. This book offers its readers a glimpse into the passions of scientists who find reptiles fascinating creatures of study. You will see how reptiles serve as organismal models that continue to advance our knowledge and understanding of complex biological processes and systems. Dr William I Lutterschmidt (Professor of Physiological Ecology) has invited top researchers from around the world to share their personal research interests and illustrate how environment influences the ecology, physiology, and behaviour of reptiles. This book will introduce a diversity of research fields and reptilian species, from how web-footed geckos move in desert sands to how sea snakes cope physiologically with high salinity. Topics include invasive species, urban ecology, mathematical simulation, sexual selection, hybridisation and gene flow, chemical ecology, neurobiology, spatial ecology, conservation biology, biodiversity, immunology, and molecular biology.
Deserts, whether hot or cold, are considered to be one of the most difficult environments for living systems, lacking the essential free water which ac counts for approximately 60-70% of their body mass and more than 98% of their constituent atoms {Macfarlane 1978}. Amongst vertebrates, reptiles are usually thought of as the animals most adapted or suited to such environments because of their diurnal habit, based on a need for external heat, and their ability to survive far from obvious sources of water. This impression is rein forced when one examines the composition of vertebrate faunae characteristic of deserts and arid zones: reptiles predominate and they are often the only vertebrates to be found in hyper-arid areas, such as some parts of the Sahara {Monod 1973}. I recently had occasion to examine this assumption carefully, however, and was led inexorably to the conclusion that reptiles represent a particularly successful desert group, not because of their evolution of superior adaptations, but because of their possession of a basic suite of behavioural and physiologi cal characteristics that suit them uniquely to this very resource-limited environment {Bradshaw 1986a}. These fundamental reptilian characteristics are: 1. their low rates of metabolism, compared with birds and mammals, which result in extremely low rates of resource utilisation and lead to considerable economy in the handling of water 2.