. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. 10 S. JOHNSEN ET AL B 66% 31% 11% 3% 8 Figure 6. Identical to Figure 5. except that the counterillumination signal is generated by Ceratoscopelus maderensis. ness in pelagic environments, where the background is very uniform, is uncertain. Finally, the ability of the predator to recognize the perceived image as potential prey depends on pattern recognition, a higher level of visual processing that is poorly understood in oceanic species. Effects of inten't'iiiiii; water on counterillumination D
. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. 10 S. JOHNSEN ET AL B 66% 31% 11% 3% 8 Figure 6. Identical to Figure 5. except that the counterillumination signal is generated by Ceratoscopelus maderensis. ness in pelagic environments, where the background is very uniform, is uncertain. Finally, the ability of the predator to recognize the perceived image as potential prey depends on pattern recognition, a higher level of visual processing that is poorly understood in oceanic species. Effects of inten't'iiiiii; water on counterillumination Despite the authors' initial expectations, the water had little effect on the appearance of the counterillumination. This was due to several factors. First, even in the worst case. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original Marine Biological Laboratory (Woods Hole, Mass. ); Marine Biological Laboratory (Woods Hole, Mass. ). Annual report 1907/08-1952; Lillie, Frank Rattray, 1870-1947; Moore, Carl Richard, 1892-; Redfield, Alfred Clarence, 1890-1983. Woods Hole, Mass. : Marine Biological Laboratory
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Keywords: ., bookauthorlilliefrankrat, booksubjectbiology, booksubjectzoology
