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The hearing organs of non-mammals, which show quite large and systematic differences to each other and to those of mammals, provide an invaluable basis for comparisons of structure and function. By taking advantage of the vast diversity of possible study organisms provided by the "library" that is biological diversity, it is possible to learn how complex functions are realized in the inner ear through the evolution of specific structural, cellular and molecular configurations. Insights from Comparative Hearing Research brings together some of the most exciting comparative research on hearing and shows how this work has profoundly impacted our understanding of hearing in all vertebrates.
Hearing --- Insects --- Physiology, Comparative. --- Physiological aspects. --- Physiology. --- Comparative physiology --- Medicine. --- Neurosciences. --- Otorhinolaryngology. --- Neurobiology. --- Biomedicine. --- Medicine, Comparative --- Zoology --- Ear, nose, and throat diseases --- ENT diseases --- Otorhinolaryngology --- Medicine --- Neurosciences --- Neural sciences --- Neurological sciences --- Neuroscience --- Medical sciences --- Nervous system
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This new volume provides a concise overview of the most basic and exciting chapters of comparative medicine with regards to physiology and function in healthy individuals. The book includes core concepts in anatomy and physiology in human and animal models, which are key to understanding comparative medicine and to making contributions to research in this area. While writing this book, the authors were in constant interdisciplinary dialogue. They aim to contribute to improvements in quality of life for human and animal patients. .
Anatomy, Comparative. --- Physiology, Comparative. --- Comparative Medicine --- Comparative physiology --- Life sciences. --- Human physiology. --- Human anatomy. --- Animal physiology. --- Animal models in research. --- Life Sciences. --- Animal Models. --- Anatomy. --- Animal Physiology. --- Human Physiology. --- Medicine, Comparative --- Zoology --- Comparative anatomy --- Comparative morphology --- Zootomy --- Laboratory animals. --- Human biology --- Medical sciences --- Physiology --- Human body --- Animal physiology --- Animals --- Biology --- Anatomy --- Anatomy, Human --- Animals, Experimental --- Animals, Laboratory --- Animals in research --- Experimental animals --- Lab animals --- Animal culture --- Laboratory organisms --- Working animals --- Animal experimentation --- Biological models --- Laboratory animals --- Research
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This book covers advances made since the 2004 Springer volume “Polarized Light in Animal Vision” edited by Horvath and Varju, but also provides reviews and synopses of some areas. Part I examines polarization sensitivity across many animal taxa including vertebrates and invertebrates and details both terrestrial and aquatic life. Part II is devoted to the description of polarized light in nature and explores how the physics of light must be taken into account when understanding how polarized light is detected by the visual system. This includes underwater polarization due to scattering; polarization patterns reflected from freshwater bodies; polarization characteristics of forest canopies; normal and anomalous polarization patterns of the skies; skylight polarization transmitted through Snell’s window and both linearly and circularly polarized signals produced by terrestrial and aquatic animals. This Part also examines polarized “light pollution” induced by anthropogenic factors such as reflection off asphalt surfaces, glass panes, car bodies, and other man-made structures that are now known to form ecological traps for polarotactic insects. Part III surveys some of the practical applications of polarization vision including polarization-based traps for biting insects, ground-based polarimetric cloud detectors and an historical examination of the navigational abilities of Viking seafarers using the sky polarization compass. The deterrent qualities of ungulate pelage to polarization-sensitive biting insects is also examined in this section.
Vision. --- Polarization (Light) --- Animal orientation. --- Physiology, Comparative. --- Physiological aspects. --- Comparative physiology --- Medicine, Comparative --- Zoology --- Orientation --- Eyesight --- Seeing --- Sight --- Senses and sensation --- Blindfolds --- Eye --- Physiological optics --- Rotation of the plane of polarization --- Electromagnetic waves --- Optics --- Wave-motion, Theory of --- Optical rotation --- Stereochemistry --- Polarization --- Animal physiology. --- Animal behavior. --- Neurobiology. --- Animal Physiology. --- Biological and Medical Physics, Biophysics. --- Atmospheric Sciences. --- Behavioral Sciences. --- Neurosciences --- Animals --- Animals, Habits and behavior of --- Behavior, Animal --- Ethology --- Animal psychology --- Ethologists --- Psychology, Comparative --- Animal physiology --- Biology --- Anatomy --- Behavior --- Physiology --- Biophysics. --- Biological physics. --- Atmospheric sciences. --- Behavioral sciences. --- Atmospheric sciences --- Earth sciences --- Atmosphere --- Biological physics --- Medical sciences --- Physics
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Visual ecology is the study of how animals use visual systems to meet their ecological needs, how these systems have evolved, and how they are specialized for particular visual tasks. Visual Ecology provides the first up-to-date synthesis of the field to appear in more than three decades. Featuring some 225 illustrations, including more than 140 in color, spread throughout the text, this comprehensive and accessible book begins by discussing the basic properties of light and the optical environment. It then looks at how photoreceptors intercept light and convert it to usable biological signals, how the pigments and cells of vision vary among animals, and how the properties of these components affect a given receptor's sensitivity to light. The book goes on to examine how eyes and photoreceptors become specialized for an array of visual tasks, such as navigation, evading prey, mate choice, and communication.A timely and much-needed resource for students and researchers alike, Visual Ecology also includes a glossary and a wealth of examples drawn from the full diversity of visual systems.The most up-to-date overview of visual ecology availableFeatures some 225 illustrations, including more than 140 in color, spread throughout the textGuides readers from the basic physics of light to the role of visual systems in animal behaviorIncludes a glossary and a wealth of real-world examplesSome images inside the book are unavailable due to digital copyright restrictions.
Eye --- Physiology, Comparative. --- Animal ecology. --- Vision. --- Evolution. --- achromatic cues. --- activity patterns. --- ambient light. --- animal kingdom. --- animal. --- animals. --- aquatic species. --- arthropods. --- attenuating media. --- auditory cues. --- behavior. --- bioluminescence. --- brightness. --- camouflage breaking. --- camouflage. --- celestial navigation. --- chemical stimuli. --- color sense. --- color vision. --- colors. --- conspecifics. --- contrast enhancement. --- darkness. --- deep ocean. --- deep-sea vents. --- ecological needs. --- eye designs. --- eye movements. --- eyes. --- fog. --- foragers. --- gravity. --- heterospecifics. --- high resolution. --- humans. --- hydrothermal vent crab. --- image shifts. --- insect systems. --- internal stimuli. --- invertebrates. --- light scattering. --- light sensitivity. --- light. --- magnetic fields. --- mechanoluminescence. --- molecule. --- motion vision. --- natural behavior. --- navigation. --- night. --- nocturnal activity. --- optical environment. --- optical environments. --- optical specializations. --- orientation mechanisms. --- ospins. --- photon. --- photopigments. --- photoreception. --- photoreceptors. --- phototaxis. --- phylogeny. --- polarization vision. --- polarized light. --- predation. --- predators. --- reproduction. --- retina. --- signals. --- small creatures. --- spatial vision. --- sun. --- surrounding world. --- survival. --- ultrviolet colors. --- vertebrates. --- visibility. --- vision. --- visual behaviors. --- visual cues. --- visual ecological requirements. --- visual ecologists. --- visual ecology. --- visual orientation. --- visual pigments. --- visual space. --- visual spectrum. --- visual stimulus. --- visual systems. --- visual task. --- visual tasks. --- water transmission. --- water.
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