Sensory Processing in Aquatic Environments

✍ Scribed by Shaun P. Collin, N.Justin Marshall, J. Atema, R.R. Fay, A.N. Popper, W.N. Tavolga, T. Bullock

Publisher: Springer
Year: 2003
Tongue: English
Leaves: 477
Edition: 1
Category: Library

No coin nor oath required. For personal study only.

✦ Synopsis

Research on sensory processing or the way animals see, hear, smell, taste, feel and electrically and magnetically sense their environment has advanced a great deal over the last fifteen years. This book discusses the most important themes that have emerged from recent research and provides a summary of likely future directions.

The book starts with two sections on the detection of sensory signals over long and short ranges by aquatic animals, covering the topics of navigation, communication, and finding food and other localized sources. The next section, the co-evolution of signal and sense, deals with how animals decide whether the source is prey, predator or mate by utilizing receptors that have evolved to take full advantage of the acoustical properties of the signal. Organisms living in the deep-sea environment have also received a lot of recent attention, so the next section deals with visual adaptations to limited light environments where sunlight is replaced by bioluminescence and the visual system has undergone changes to optimize light capture and sensitivity. The last section on central co-ordination of sensory systems covers how signals are processed and filtered for use by the animal.

This book will be essential reading for all researchers and graduate students interested in sensory systems.

✦ Table of Contents

Foreword......Page 6
Preface......Page 8
Contents......Page 12
Contributors......Page 16
Introduction......Page 20
1 Sound Detection Mechanisms and Capabilities of Teleost Fishes......Page 26
2 Trails in Open Waters: Sensory Cues in Salmon Migration......Page 62
3 Detection and Use of the Earth’s Magnetic Field by Aquatic Vertebrates......Page 76
4 Physical Principles of Electric, Magnetic, and Near-Field Electric, Magnetic, and Near-Field Acoustic Orientation......Page 100
5 Active Electrolocation and Its Neural Processing in Mormyrid Electric Fishes......Page 115
6 Processing of Dipole and More Complex Hydrodynamic Stimuli Under Still- and Running-Water Conditions......Page 131
7 Information Processing by the Lateral Line System......Page 145
8 Retinal Sampling and the Visual Field in Fishes......Page 162
9 Underwater Sound Generation and Acoustic Reception in Fishes with Some Notes on Frogs......Page 196
10 The Design of Color Signals and Color Vision in Fishes......Page 217
11 Color Vision in Fishes and Its Neural Basis......Page 254
12 Chemically Mediated Strategies to Counter Predation......Page 267
13 Mechanisms of Ultraviolet Polarization Vision in Fishes......Page 283
14 Aspects of the Sensory Ecology of Cephalopods......Page 297
15 Recent Progress in Aquatic Vertebrate Olfaction......Page 314
16 Eye Design and Vision in Deep-Sea Fishes......Page 334
17 Spectral Sensitivity Tuning in the Deep-Sea......Page 354
18 Visual Adaptations in Crustaceans: Chromatic, Developmental, and Temporal Aspects......Page 374
19 Sensory Systems and Brain Evolution Across the Bilateria: Commonalities and Constraints......Page 406
20 Electroreception: Extracting Behaviorally Important Signals from Noise......Page 420
21 In a Fish’s Mind’s Eye: The Visual Pallium of Teleosts......Page 435
22 Paddlefish and Platypus: Parallel Evolution of Passive Electroreception in a Rostral Bill Organ......Page 451
B......Page 466
C......Page 467
D......Page 468
G......Page 469
K......Page 470
M......Page 471
O......Page 472
P......Page 473
S......Page 474
V......Page 476
Z......Page 477

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