Welcome to Loot.co.za!
Sign in / Register |Wishlists & Gift Vouchers |Help | Advanced search
|
Your cart is empty |
|||
Books > Science & Mathematics > Biology, life sciences > Zoology & animal sciences > Animal behaviour
A key way that behavioral ecologists develop general theories of animal behavior is by studying one species or a closely related group of species--''model systems''--over a long period. This book brings together some of the field's most respected researchers to describe why they chose their systems, how they integrate theoretical, conceptual, and empirical work, lessons for the practice of the discipline, and potential avenues of future research. Their model systems encompass a wide range of animals and behavioral issues, from dung flies to sticklebacks, dolphins to African wild dogs, from foraging to aggression, territoriality to reproductive suppression. "Model Systems in Behavioral Ecology" offers an unprecedented ''systems'' focus and revealing insights into the confluence of personal curiosity and scientific inquiry. It will be an invaluable text for behavioral ecology courses and a helpful overview--and a preview of coming developments--for advanced researchers. The twenty-five chapters are divided into four sections: insects and arachnids, amphibians and reptiles, birds, and mammals. In addition to the editor, the contributors include Geoff A. Parker, Thomas D. Seeley, Naomi Pierce, Kern Reeve, Gerald S. Wilkinson, Bert Holldobler and Flavio Roces, George W. Uetz, Michael J. Ryan and Gil Rosenthal, Judy Stamps, H. Carl Gerhardt, Barry Sinervo, Robert Warner, Manfred Milinski, David F. Westneat, Alan C. Kamil and Alan B. Bond, Paul Sherman, Jerram L. Brown, Anders Pape Moller, Marc Bekoff, Richard C. Connor, Joan B. Silk, Christopher Boesch, Scott Creel, A.H. Harcourt, and Tim Caro and M. J. Kelly."
Bird migration is a charismatic topic that has fascinated naturalists for centuries. This book, the only concise and accessible synthesis of the area, describes not only the migrations, the incredible stamina and navigational skills of the birds, the effects on their distributions, survival, and evolution, but also the scientific skills and studies that underlie the information that has been gleaned about migration.
Crustacean Nervous Systems and their Control of Behavior is the third volume of the series The Natural History of the Crustacea. This volume is on the functional organization of crustacean nervous systems, and how those nervous systems produce behavior. It complements other volumes on related topics of feeding biology, reproductive biology, endocrine systems, and behavioral ecology. There is a rich history of the study of the neurobiology of crustaceans, going back over 150 years. This has included studies on how their nervous systems allow them to perform behaviors that are adapted to their particular environments, as well as studying them as model organisms to understand basic biomedical principles about neural function, such as sensory transduction and processing, synaptic transmission and integration, neuromodulation, and learning and memory. The volume has three sections that build progressively on each other. The first section is on the basic organizational features of the crustacean nervous system and the principles upon which it is built. The second section is on sensory ecology - the organization of each sensory system and how it is used in intra- and interspecific interactions, within an ecological context. The third section uses case studies of how crustacean nervous systems are organized to perform complex behaviors and interactions, such as walking, escape, social interactions, and memory and learning. Taken together, the 20 chapters synthesize our modern understanding of the neural control of behavior in crustaceans, based on the most recent technologies in physiological recording, molecular biology, and computational science. This volume will be useful to students and researchers as a concise summary of current knowledge of crustacean neuroscience.
In "Animal Minds," Donald R. Griffin takes us on a guided tour of
the recent explosion of scientific research on animal mentality.
Are animals consciously aware of anything, or are they merely
living machines, incapable of conscious thoughts or emotional
feelings? How can we tell? Such questions have long fascinated
Griffin, who has been a pioneer at the forefront of research in
animal cognition for decades, and is recognized as one of the
leading behavioral ecologists of the twentieth century.
The principles of game theory apply to a wide range of topics in biology. This book presents the central concepts in evolutionary game theory and provides an authoritative and up-to-date account. The focus is on concepts that are important for biologists in their attempts to explain observations. This strong connection between concepts and applications is a recurrent theme throughout the book which incorporates recent and traditional ideas from animal psychology, neuroscience, and machine learning that provide a mechanistic basis for behaviours shown by players of a game. The approaches taken to modelling games often rest on idealized and unrealistic assumptions whose limitations and consequences are not always appreciated. The authors provide a novel reassessment of the field, highlighting how to overcome limitations and identifying future directions. Game Theory in Biology is an advanced textbook suitable for graduate level students as well as professional researchers (both empiricists and theoreticians) in the fields of behavioural ecology and evolutionary biology. It will also be of relevance to a broader interdisciplinary audience including psychologists and neuroscientists.
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.
Would you ask a honeybee to point at a screen and recognise a facial expression? Or ask an elephant to climb a tree? While humans and non-human species may inhabit the same world, it's likely that our perceptual worlds differ significantly. Emphasising Uexkull's concept of 'umwelt', this volume offers practical advice on how animal cognition can be successfully tested while avoiding anthropomorphic conclusions. The chapters describe the capabilities of a range of animals - from ants, to lizards to chimpanzees - revealing how to successfully investigate animal cognition across a variety of taxa. The book features contributions from leading cognition researchers, each offering a series of examples and practical tips drawn from their own experience. Together, the authors synthesise information on current field and laboratory methods, providing researchers and graduate students with methodological advice on how to formulate research questions, design experiments and adapt studies to different taxa.
Sperm Competition and Sexual Selection presents the intricate ways
in which sperm compete to fertilize eggs and how this has prompted
reinterpretations of breeding behavior. This book provides a
theoretical framework for the study of sperm competition, which is
a central part of sexual selection. It also discusses the roles of
females and the relationships between paternal care in sperm
competition. The chapters focusing on taxonomic development are
diverse and cover all the major animal groups, both vertebrate and
invertebrate, and plants. The final chapter provides an overview
discussing the relationship between sperm competition and sexual
selection in terms of both function and mechanism and how these
translate into species fitness. This book will be of prime interest
to behaviorists, ecologists and evolutionary biologists, suggesting
new avenues of research and new ways of approaching old problems.
Birds of paradise have long played a central part in human mythologies and captured the imagination of collectors, scientists, and naturalists. Birds of Paradise provides the first comprehensive, up-to-date, and scientifically accurate overview of the behavior, biology, ecology, biogeography, and history of the most ornate and dramatic group of birds on earth. The book is lavishly illustrated with specially commissioned color depictions of all 42 species of birds of paradise and original line drawings of many behaviors never before recorded, as well as numerous maps and graphs. This stunning book will delight a wide range of readers, from professional ornithologists to amateur naturalists.
The last few years have seen a dramatic increase in the number of areas known to be involved in mammalian vision. It has also seen a far greater understanding of the importance of reciprocal connections, intrinsic connections, structure-specific modules and modules which span different structures, as well as the introduction of parallel processing models within the thalamocortical and corticocortical streams. The body of knowledge has become so vast, and is growing so rapidly, that periodic updates are essential even for experts in the field. This volume is based on a satellite meeting of an international group of researchers. It emphasizes the most current information regarding midbrain and extrastriate mechanisms underlying vision and visually-guided behavior. The book also places these data into the larger context of how interrelated components of the visual system function to produce coherent visual experiences and behavior. New research findings are presented that are unavailable elsewhere, as well as reviews and broad perspectives in which existing data from multiple sources are brought together in order to help understand the structure and function of extrageniculostriate visual areas.
Asked to name an insect society, most of us--whether casual or professional students of nature--quickly point to one of the so-called eusocial marvels: the ant colony, the beehive, the termite mound, the wasp nest. Each is awe-inspiring in its division of labor--collective defense, foraging, and nestbuilding. Yet E. O. Wilson cautioned back in 1971 that sociality should be defined more broadly, "in order to prevent the arbitrary exclusion of many interesting phenomena." Thirty-five years later, James T. Costa gives those interesting phenomena their due. He argues that, in trying to solve the puzzle of how highly eusocial behaviors evolved in a few insect orders, evolutionary biologists have neglected the more diverse social arrangements in the remaining twenty-eight orders--insect societies that don't fit the eusocial schema. Costa synthesizes here for the first time the scattered literature about social phenomena across the arthropod phylum: beetles and bugs, caterpillars and cockroaches, mantids and membracids, sawflies and spiders. This wide-ranging tour takes a rich narrative approach that interweaves theory and data analysis with the behavior and ecology of these remarkable groups. This comprehensive treatment is likely to inspire a new generation of naturalists to take a closer look.
Animal Fact File is a visual guide to the most important-and most interesting-unique anatomical features of the world's most irresistible and fascinating mammals. This work covers more than 90 popular warm-blooded creatures from every corner of the globe. Each animal is featured on a two-page, full-colour illustrated spread that shows the entire mammal and highlights interesting parts of its anatomy. Each entry includes notes on natural history, range, and habitat, along with measurements and characteristic features. Budding zoologists will enjoy leafing through these pages, which make for a nice artists' reference and an inviting coffee-table book as well.
In einer unterhaltsamen wie anspruchsvollen und packenden Zeitreise entlang der diversen Theorien zur Entwicklung des Lebendigen, fuhrt uns der Altmeister der Systemtheorie des Erkennens von der "heroischen Phase" uber die "ideologische" bis hin zur heutigen "systemischen Phase." Seine Auseinandersetzung mit zahllosen Biologen und ihren Theorien grundet auf die beiden Ansichten, dass man den Zustand von Theorien am besten aus deren Geschichte heraus versteht und dass ein wechselseitiger Zusammenhang zwischen Zeitgeist und biologischen Theorien besteht. Professor Riedl legt uns mit diesem Buch eine Kulturgeschichte der Evolutionstheorie vor mit dem Ziel, den Wandel von Einsichten im Laufe unserer kulturellen Entwicklung zu sehen und zu erkennen. Ein Muss fur jeden Biologen und Philosophen."
Bats are the only true flying mammals and account for about a quarter of all mammal species. The Megochiroptera (flying foxes, fruit bats) are larger animals than the Microchiroptera which can be quite small, and the two groups have very different feeding habits. Zoologists are currently debating whether they are even closely related, thus creating a body of research as diverse as the bats themselves. This book covers many aspects of bat biology, including their evolutionary origins, roles in ecosystems, reproductive biology, foraging behaviour, hibernation, and genetics, all of which will interest both professional and amateur naturalists.
Crustaceans are increasingly used as model organisms in all fields of biology, including neurobiology, developmental biology, animal physiology, evolutionary ecology, biogeography, and resource management. One reason for the increasing use of crustacean examples is the wide range of phenotypes found in this group and the diversity of environments they inhabit; few other taxa exhibit such a variety of body shapes and adaptations to particular habitats and environmental conditions. A good overview of their functional morphology is essential to understanding many aspects of their biology. This volume is the first in The Natural History of Crustacea series, a ten-volume series that will treat all aspects of crustacean biology, physiology, behavior, and evolution. The series updates and synthesizes a growing wealth of information on the natural history of this remarkable group. Functional Morphology and Diversity explores the functional morphology of crustaceans, which cover the main body parts and systems. The book brings together a group of internationally recognized-and up-and-coming-experts in fields related to systematics and morphology. Contributing authors study a range of crustacean taxa and topics, and thus the volume provides a compact overview of the great phenotypic diversity and their function found among crustaceans. The first broad treatment of Crustacea in decades, the book will be invaluable for researchers and students in this and related fields.
There is widespread concern amongst consumers about the safety and acceptability of food, and there are clearly communication gaps between consumers, many food professionals and food industry. This book offers accounts of the two-way nature of this difficult communication process and steps that can be made to bridge these communication gaps in a variety of social and cultural environments. Individual chapters of the book analyze the roles of science, culture, and risk perception, and of mass media and attitudes towards eating. An additional section describes the interface between scientists and lay people with regard to policy-making and agricultural practice.
Behavioural ecologists and evolutionary biologists have long recognised Professor Tinbergen's great prescience in placing the study of animal behaviour firmly in an ecological and evolutionary context nearly fifty years ago. This is a reprint of the 1969 edition of The Study of Instinct (originally published in 1951). The first six chapters cover behaviour as a response to stimuli, the neurophysiological bases of innate behaviour as then understood, and the development of behavioural patterns in individuals. The final two chapters are devoted to the adaptativeness of behaviour and evolutionary aspects of behaviour. These last two chapters have particularly withstood the test of time. 'More than the other parts,' the author wrote in 1969, 'they show the potential of studying animals in their natural environment, i.e. in the environment that exerts the pressures which each animal species has to meet...I feel very strongly that an...intense effort ought to be made to understand the effects of behaviour; of the ways in which it influences the survival of the species; and that we should try much harder to understand the state of adaptedness and the process of evolutionary adaptation. ';
The definitive edition of Darwin’s classic – a brilliantly entertaining and accessible exploration of human and animal behaviour, reissued to mark the 200th anniversary of Darwin’s birth. Why do we bite people we feel affection towards? Why do dogs wag their tails? Or cats purr? Why do we get embarrassed, and why does embarrassment make us blush? These and many other questions about the emotional life of man and animals are answered in this remarkable book. Expression is the only book in which Darwin sketches out his revolutionary ideas about human behaviour in detail: he discusses childhood learning, insanity, painting and sculpture, animal behaviour and the differences in facial expression of the world’s peoples.
Evolutionary Behavioral Ecology is intended to be used a text for graduate students and a sourcebook for professional scientists seeking an understanding of the evolutionary and ecological processes shaping behavior across a wide array of organisms and a diverse set of behaviors. Chapters are written by an array of leading experts in the field, providing a core foundation, a history of conceptual developments, and fresh insight into the controversies and themes shaping the continuing development of the field. Essays on adaptation, selection, fitness, genetics, plasticity, and phylogeny as they pertain to behavior place the field in the broader context of ecology and evolution. These concepts, along with a diversity of theoretical approaches are applied to the evolution of behavior in a many contexts, from individual decision-making of solitary animals through to complex social interactions. Chapters integrate conceptual and theoretical approaches with recent empirical advances to understand the evolution of behavior, from foraging, dealing with risk, predator avoidance, and an array of social behaviors, including fighting and cooperation with conspecifics and conflict and cooperation between the sexes. Chapters also emphasize integrative and novel approaches to behavior, including cognitive ecology, personality, conservation biology, the links between behavior and evolution, the evolution of human social behavior, and ways in which modern genetic analyses can augment the study of behavior.
Evolutionary Behavioral Ecology is intended to be used a text for graduate students and a sourcebook for professional scientists seeking an understanding of the evolutionary and ecological processes shaping behavior across a wide array of organisms and a diverse set of behaviors. Chapters are written by an array of leading experts in the field, providing a core foundation, a history of conceptual developments, and fresh insight into the controversies and themes shaping the continuing development of the field. Essays on adaptation, selection, fitness, genetics, plasticity, and phylogeny as they pertain to behavior place the field in the broader context of ecology and evolution. These concepts, along with a diversity of theoretical approaches are applied to the evolution of behavior in a many contexts, from individual decision-making of solitary animals through to complex social interactions. Chapters integrate conceptual and theoretical approaches with recent empirical advances to understand the evolution of behavior, from foraging, dealing with risk, predator avoidance, and an array of social behaviors, including fighting and cooperation with conspecifics and conflict and cooperation between the sexes. Chapters also emphasize integrative and novel approaches to behavior, including cognitive ecology, personality, conservation biology, the links between behavior and evolution, the evolution of human social behavior, and ways in which modern genetic analyses can augment the study of behavior.
Comparative analyses of the anatomy, reproductive physiology, and
behaviour of extant primates and other mammals can offer important
insights into the origins of human sexual behaviour, allowing us to
reconstruct the origins of human mating systems, the evolution of
sexual attractiveness, patterns of mate choice, and copulatory
behaviour.
This book describes the similarities and differences between two species, bonobos and chimpanzees, based on the three decades the author has spent studying them in the wild, and shows how the contrasting nature of these two species is also reflected in human nature. The most important differences between bonobos and chimpanzees, our closest relatives, are the social mechanisms of coexistence in group life. Chimpanzees are known as a fairly despotic species in which the males exclusively dominate over the females, and maintain a rigid hierarchy. Chimpanzees have developed social intelligence to survive severe competition among males: by upholding the hierarchy of dominance, they can usually preserve peaceful relations among group members. In contrast, female bonobos have the same or even a higher social status than males. By evolving pseudo-estrus during their non-reproductive period, females have succeeded in moderating inter-male sexual competition, and in initiating mate selection. Although they are non-related in male-philopatric society, they usually aggregate in a group, enjoy priority access to food, determine which male is the alpha male, and generally maintain much more peaceful social relations compared to chimpanzees. Lastly, by identifying key mechanisms of social coexistence in these two species, the author also seeks to find solutions or "hope" for the peaceful coexistence of human beings. "Takeshi Furuichi is one of very few scientists in the world familiar with both chimpanzees and bonobos. In lively prose, reflecting personal experience with apes in the rain forest, he compares our two closest relatives and explains the striking differences between the male- dominated and territorial chimpanzees and the female-centered gentle bonobos." Frans de Waal, author of Mama's Last Hug - Animal Emotions and What They Tell Us about Ourselves (Norton, 2019)
This book introduces the reader to the power of observation before,
and sometimes instead of, experimental manipulation in the study of
animal behavior. It starts with simple and easily accessible
methods suitable for student projects, before going on to
demonstrate the possibilities that now exist for far more
sophisticated analyses of observational data. At a time when animal
welfare considerations are attracting political as well as
scientific debate, the potential for non-intrusive studies on
animals is being increasingly recognized. Observation emerges as a
valuable alternative approach, often yielding highly informative
results in situations (such as on zoos, farms or for wild animals)
where more invasive experimental techniques would be undesirable,
unethical or just plain impossible. However, to justify its place
alongside experimentation as a rigorous scientific method,
observation needs to be just as disciplined and systematic and have
just as much attention paid to project design in the way that
observations are made and recorded.
'Turn the pages to revel in the techno-tracking that is revealing the secrets of animal lives. This is science at its best, the art of understanding truth and beauty' Chris Packham Once tracking animals meant following footprints. Now satellites, drones, camera traps, cellphone networks, apps and accelerometers allow us to see the natural world as never before. For the first time, this book lets you follow the journeys of seals, sharks, elephants, bumble bees, owls and wolves all over the world. Open it, and go where the animals go. 'This is a special kind of detective story' New Scientist 'This book is beautiful as well as informative and inspiring. There is no doubt it will help in our fight to save wildlife and wild habitats' Dr Jane Goodall 'Beautiful and thrilling ... a joy to study cover to cover' E. O. Wilson |
You may like...
Multiculturalism and Diversity in…
Brian M. Conners, Shawn T. Capell
Paperback
R1,218
Discovery Miles 12 180
The Little Owl - Conservation, Ecology…
Dries van Nieuwenhuyse, Jean-Claude Genot, …
Hardcover
R4,237
Discovery Miles 42 370
Coding Strategies in Vertebrate Acoustic…
Thierry Aubin, Nicolas Mathevon
Hardcover
R4,990
Discovery Miles 49 900
Mammals Of Southern Africa And Their…
Lee Gutteridge, Louis Liebenberg
Paperback
Carnivores - Quick ID Guide To Africa's…
Chris Stuart, Mathilde Stuart
Paperback
The Handbook of Disgust Research…
Philip A. Powell, Nathan S. Consedine
Hardcover
R4,049
Discovery Miles 40 490
|