Um unsere Webseiten für Sie optimal zu gestalten und fortlaufend zu verbessern, verwenden wir Cookies. Durch Bestätigen des Buttons »Akzeptieren« stimmen Sie der Verwendung zu. Über den Button »Einstellungen« können Sie auswählen, welche Cookies Sie zulassen wollen.

AkzeptierenEinstellungen
Polarized Light in Animal Vision - Gábor Horváth, Dezsö Varju

Polarized Light in Animal Vision

Polarization Patterns in Nature
Buch | Hardcover
XXIII, 447 Seiten
2003 | 2004
Springer Berlin (Verlag)
978-3-540-40457-6 (ISBN)
235,39 inkl. MwSt
  • Titel erscheint in neuer Auflage
  • Artikel merken
The subject of this volume is two-fold. First, it gathers typical polarization patterns occurring in nature. Second, it surveys the polarization-sensitive ani mals, the physiological mechanisms and biological functions of polarization sensitivity as weIl as the polarization-guided behaviour in animals. The monograph is prepared for biologists, physicists and meteorologists, espe cially for experts of atmospheric optics and animal vision, who wish to under stand and reveal the message hidden in polarization patterns of the optical environment not directly accessible to the human visual system, but measur able by polarimetry and perceived by many animals. Our volume is an attempt to build a bridge between these two physical and biological flelds. In Part I we introduce the reader to the elements of imaging polarimetry. This technique can be efflciently used, e. g. in atmospheric optics, remote sens ing and biology. In Part 11 we deal with typical polarization patterns of the natural optical environment. Sunrise/sunset, clear skies, cloudy skies, moonshine and total solar eclipses all mean quite different illumination conditions, wh ich also affect the spatial distribution and strength of celestial polarization. We pre sent the polarization patterns of the sky and its unpolarized (neutral) points under sunlit, moonlit, clear, cloudy and eclipsed conditions as a function of solar elevation. The polarization pattern of a rainbow is also shown. That part of the spectrum is derived in which perception of skylight polarization is optimal under partly cloudy skies.

Part I: Imaging Polarimetry 1 Polarimetry: From Point-Source to Imaging Polarimeters Part II: Polarization Patterns in Nature 2 Space-Borne Measurement of Earthlight Polarization 3 Skylight Polarization 4 Principal Neutral Points of Atmospheric Polarization 5 24-Hour Change of the Polarization Pattern of the Summer Sky North of the Arctic Circle 6 Polarization Patterns of Cloudy Skies and Animal Orientation 7 Ground-Based Full-Sky Imaging Polarimetric Cloud Detection 8 Polarization Pattern of the Moonlit Clear Night Sky at Full Moon: Comparison of Moonlit and Sunlit Skies 9 Imaging Polarimetry of the Rainbow 10 Which Part of the Spectrum is Optimal for Perception of Skylight Polarization? 11 Polarization of the Sky and the Solar Corona During Total Solar Eclipses 12 Reflection-Polarization Pattern of the Flat Water Surface Measured by 180o Field-of-View Imaging Polarimetry 13 Polarization Pattern of a Fata Morgana: Why Aquatic Insects are not Attracted by Mirages? 14 Polarizational Characteristics of the Underwater World 15 Circularly Polarized Light in Nature Part III: Polarized Light in Animal Vision 16 From Polarization Sensitivity to Polarization Vision 17 Polarization Sensitivity in Terrestrial Insects 18 Polarization Sensitivity in Insects Associated with Water 19 Multiple-Choice Experiments on Dragonfly Polarotaxis: Dragonflies Find Crude Oil Visually More Attractive than Water 20 How can Dragonflies Discern Bright and Dark Waters from a Distance? The Degree of Linear Polarization of Reflected Light as a Possible Cue for Dragonfly Habitat Selection 21 Oil Reservoirs and Plastic Sheets as Polarizing Insect Traps 22 Why do Mayflies Lay Eggs on Dry Asphalt Roads? Water-Imitating Horizontally Polarized Light Reflected from Asphalt Attracts Ephemeroptera 23 Reflection-Polarizational Characteristics of Car-Bodies: Why are Water-Seeking Insects Attracted to the Bodywork of Cars? 24 Polarization Sensitivity in Spiders and Scorpions 25 Polarization Sensitivity in Crustaceans 26 Polarization Sensitivity and Polarization Patterns of the Body Surface of Cephalopods 27 Polarization-Sensitive Optomotor Reaction in Invertebrates 28 Polarization Sensitivity in Fishes 29 Polarization Sensitivity in Amphibians 30 Polarization Sensitivity in Reptiles 31 Polarization Sensitivity in Birds 32 Human Polarization Sensitivity 33 Polarization-Induced False Colours 34 A Common Methodological Error: Intensity Patterns Induced by Selective Reflection of Linearly Polarized Light from Black Surfaces Bibliography

Erscheint lt. Verlag 14.11.2003
Zusatzinfo XXIII, 448 p.
Verlagsort Berlin
Sprache englisch
Maße 155 x 235 mm
Gewicht 1006 g
Themenwelt Naturwissenschaften Biologie Zoologie
Schlagworte Administration • animals orientation • Business Intelligence • Databases • Data Warehouse • DBMS • Design • Development • Imaging • imaging polarimetry • Microsoft SQL Server • Modeling • optical environment • perception • Physiology • Polarisiertes Licht • polarization • Reporting Services • SQL • SQL Server 2005 • Testing • Tiere • Vision • Visual Information
ISBN-10 3-540-40457-0 / 3540404570
ISBN-13 978-3-540-40457-6 / 9783540404576
Zustand Neuware
Informationen gemäß Produktsicherheitsverordnung (GPSR)
Haben Sie eine Frage zum Produkt?
Mehr entdecken
aus dem Bereich

von Rüdiger Wehner; Walter Jakob Gehring; Alfred Kühn

Buch | Softcover (2013)
Thieme (Verlag)
91,00