The Ecology of Animal Senses
The Ecology of Animal Senses Matched Filters for Economical Sensing / [recurso electrónico] :
edited by Gerhard von der Emde, Eric Warrant.
- X, 269 p. 95 illus., 46 illus. in color. online resource.
Introduction: sensory ecology and matched filters -- Energetic costs of neural tissue and its role in the evolution of sensory organs -- Visual matched filtering in arthropods -- Visual matched filtering in vertebrates -- Auditory matched filtering in invertebrates -- The ecology of olfaction -- The ecology of mechanoreception -- Magnetoreception -- Ecology of infrared sensing -- Matched filtering in two senses of one animal: partitioning of environmental sensing in African weakly electric fish -- The ecology of (active) whisking.
Sensory systems have evolved to deal with complex and seemingly infinite sensory information. However, during evolution the morphology and neural circuitry of sensory organs have become ?matched filters? for the characteristics of the most ecologically crucial stimuli that need to be detected, suppressing or even rejecting other less important stimuli. Not only do these matched filters allow essential sensory stimuli to be rapidly and reliably extracted for further processing, they do so with the most efficient use of the animal?s limited energy supply. The collection of chapters in this book explore these principles across the senses, in both vertebrates and invertebrates, with a rich smorgasbord of case studies that explain how matched sensory filters are an essential feature in the ecology of animal sensing.
9783319254920
Life sciences.
Animal ecology.
Animal physiology.
Neurobiology.
Life Sciences.
Animal Physiology.
Neurobiology.
Animal Ecology.
QP82-82.2
571.1
Introduction: sensory ecology and matched filters -- Energetic costs of neural tissue and its role in the evolution of sensory organs -- Visual matched filtering in arthropods -- Visual matched filtering in vertebrates -- Auditory matched filtering in invertebrates -- The ecology of olfaction -- The ecology of mechanoreception -- Magnetoreception -- Ecology of infrared sensing -- Matched filtering in two senses of one animal: partitioning of environmental sensing in African weakly electric fish -- The ecology of (active) whisking.
Sensory systems have evolved to deal with complex and seemingly infinite sensory information. However, during evolution the morphology and neural circuitry of sensory organs have become ?matched filters? for the characteristics of the most ecologically crucial stimuli that need to be detected, suppressing or even rejecting other less important stimuli. Not only do these matched filters allow essential sensory stimuli to be rapidly and reliably extracted for further processing, they do so with the most efficient use of the animal?s limited energy supply. The collection of chapters in this book explore these principles across the senses, in both vertebrates and invertebrates, with a rich smorgasbord of case studies that explain how matched sensory filters are an essential feature in the ecology of animal sensing.
9783319254920
Life sciences.
Animal ecology.
Animal physiology.
Neurobiology.
Life Sciences.
Animal Physiology.
Neurobiology.
Animal Ecology.
QP82-82.2
571.1
