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101 0 $aeng
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181   $ctxt$2rdacontent
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200 00$aOcean optics /$f[edited by] Richard W. Spinrad, Kendall L. Carder, Mary Jane Perry
205   $a1st ed.
210   $aNew York $cOxford University Press ;$aOxford $cClarendon Press$d1994
215   $a1 online resource (xviii, 283 pages) $cillustrations
225 1 $aOxford monographs on geology and geophysics ;$vno. 25
300   $a"Presented at a conference on optical oceanography in 1989 at Friday Harbor, Washington"--P. ix.
311 0 $a0-19-506843-2 
320   $aIncludes bibliographical references (p. [258]-275) and index.
327   $aContents; 1. Modeling and Simulating Radiative Transfer in the Ocean; 2. The Relationship between the Inherent and the Apparent Optical Properties of Surface Waters and its Dependence on the Shape of the Volume Scattering Function; 3. Optical Closure: from Theory to Measurement; 4. Interrelationships between Light and Phytoplankton in the Sea; 5. Optics from the Single Cell to the Mesoscale; 6. Measurements of Phytoplankton Absorption Other Than Per Unit of Chlorophyll a; 7. A History of Early Optical Oceanographic Instrument Design in Scandinavia
327   $a8. Why is the Measurement of Fluorescence Important to the Study of Biological Oceanography? 9. Light Absorption, Fluorescence, and Photosynthesis: Skeletonema Costatum and Field Measurements; 10. Capabilities and Merits of Long-term Bio-optical Moorings; 11. Polarization of Light in the Ocean; 12. Raman Scattering and Optical Properties of Pure Water; 13. Optical Effects of Large Particles; References; Index
330 8 $aSince the publication of Jerlov's classic volume on optical oceanography in 1968, the ability to predict or model the submarine light field, given measurements of the inherent optical properties of the ocean, has improved to the point that model fields are very close to measured fields. In the last three decades, remote sensing capabilities have fostered powerful models that can be inverted to estimate the inherent optical properties closely related to substances important for understanding global biological productivity, environmental quality, and most nearshore geophysical processes. This volume presents an eclectic blend of information on the theories, experiments, and instrumentation that now characterize the ways in which optical oceanography is studied.
410  0$aOxford monographs on geology and geophysics ;$vno. 25.
606   $aOptical oceanography$vCongresses
606   $aOceanography$vCongresses
615  0$aOptical oceanography
615  0$aOceanography
676   $a551.46
676   $a551.4601
701   $aSpinrad$b Richard W$01653505
701   $aCarder$b Kendall L$01653506
701   $aPerry$b Mary Jane$f1948-$01653507
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