Ecology

Number of times cited: 41

• Hoi Ling Luk, Nihar Bhattacharyya, Fabio Montisci, James M. Morrow, Federico Melaccio, Akimori Wada, Mudi Sheves, Francesca Fanelli, Belinda S. W. Chang and Massimo Olivucci, Modulation of thermal noise and spectral sensitivity in Lake Baikal cottoid fish rhodopsins, Scientific Reports, 6, 1, (2016).
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• Lauren M. Biagioni, David M. Hunt and Shaun P. Collin, Morphological Characterization and Topographic Analysis of Multiple Photoreceptor Types in the Retinae of Mesopelagic Hatchetfishes with Tubular Eyes, Frontiers in Ecology and Evolution, 4, (2016).
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• Taro Matsumoto and Yasunori Ishibashi, Sequence analysis and expression patterns of opsin genes in the longtooth grouper Epinephelus bruneus, Fisheries Science, 82, 1, (17), (2016).
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• Diana J. Rennison, Gregory L. Owens, Nancy Heckman, Dolph Schluter and Thor Veen, Rapid adaptive evolution of colour vision in the threespine stickleback radiation, Proceedings of the Royal Society B: Biological Sciences, 283, 1830, (20160242), (2016).
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• K. K. Kahilainen, T. Smura, R. Knudsen, P.-A. Amundsen, M. Jokela-Määttä and K. Donner, Visual pigments of Arctic charr (Salvelinus alpinus (L.)) and whitefish (Coregonus lavaretus (L.)) morphs in subarctic lakes, Hydrobiologia, 783, 1, (223), (2016).
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• Kelly A. Harrington, Thomas R. Hrabik, Allen F. Mensinger and Daniel Osorio, Visual Sensitivity of Deepwater Fishes in Lake Superior, PLOS ONE, 10, 2, (e0116173), (2015).
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• Nicholas C. Brandley, Daniel I. Speiser and Sönke Johnsen, Eavesdropping on visual secrets, Evolutionary Ecology, 27, 6, (1045), (2013).
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• Y. Nakamura, K. Mori, K. Saitoh, K. Oshima, M. Mekuchi, T. Sugaya, Y. Shigenobu, N. Ojima, S. Muta, A. Fujiwara, M. Yasuike, I. Oohara, H. Hirakawa, V. S. Chowdhury, T. Kobayashi, K. Nakajima, M. Sano, T. Wada, K. Tashiro, K. Ikeo, M. Hattori, S. Kuhara, T. Gojobori and K. Inouye, Evolutionary changes of multiple visual pigment genes in the complete genome of Pacific bluefin tuna, Proceedings of the National Academy of Sciences, 110, 27, (11061), (2013).
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• D. Michelle McComb, Stephen M. Kajiura, Andrij Z. Horodysky and Tamara M. Frank, Comparative Visual Function in Predatory Fishes from the Indian River Lagoon, Physiological and Biochemical Zoology, 86, 3, (285), (2013).
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• Taro Matsumoto, Tokihiko Okada, Yoshifumi Sawada and Yasunori Ishibashi, Visual spectral sensitivity of photopic juvenile Pacific bluefin tuna (Thunnus orientalis), Fish Physiology and Biochemistry, 38, 4, (911), (2012).
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• D. Michelle McComb, Tamara M. Frank, Robert E. Hueter and Stephen M. Kajiura, Temporal Resolution and Spectral Sensitivity of the Visual System of Three Coastal Shark Species from Different Light Environments, Physiological and Biochemical Zoology, 83, 2, (299), (2010).
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• J.R. Turner, E.M. White, M.A. Collins, J.C. Partridge and R.H. Douglas, Vision in lanternfish (Myctophidae): Adaptations for viewing bioluminescence in the deep-sea, Deep Sea Research Part I: Oceanographic Research Papers, 56, 6, (1003), (2009).
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• F. W. Munz, Adaptation of Visual Pigments to the Photic Environment, Ciba Foundation Symposium ‐ Colour Vision: Physiology and Experimental Psychology, (27-51), (2008).
  Wiley Online Library
• VIRGINIA MOSK, NICOLE THOMAS, NATHAN S. HART, JULIAN C. PARTRIDGE, LYN D. BEAZLEY and JULIA SHAND, Spectral sensitivities of the seahorses Hippocampus subelongatus and Hippocampus barbouri and the pipefish Stigmatopora argus, Visual Neuroscience, 24, 03, (345), (2007).
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• K. E. Körner, I. Schlupp, M. Plath and E. R. Loew, Spectral sensitivity of mollies: comparing surface‐ and cave‐dwelling Atlantic mollies, Poecilia mexicana, Journal of Fish Biology, 69, 1, (54-65), (2006).
  Wiley Online Library
• Asta Audzijonytė, Johan Pahlberg, Risto Väinölä and Magnus Lindström, Spectral sensitivity differences in two Mysis sibling species (Crustacea, Mysida): Adaptation or phylogenetic constraints?, Journal of Experimental Marine Biology and Ecology, 325, 2, (228), (2005).
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• Michael Krause, Heino Fock, Wulf Greve and Gesche Winkler, North sea zooplankton: a review, Senckenbergiana maritima, 10.1007/BF03043048, 33, 1-2, (71-204), (2003).
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• K. D. Southall, G. W. Oliver, J. W. Lewis, B. J. Boeuf and D. H. Levenson, VISUAL PIGMENT SENSITIVITY IN THREE DEEP DIVING MARINE MAMMALS, Marine Mammal Science, 18, 1, (275-281), (2006).
  Wiley Online Library
• R.H Douglas, J.C Partridge and N.J Marshall, The eyes of deep-sea fish I: Lens pigmentation, tapeta and visual pigments, Progress in Retinal and Eye Research, 17, 4, (597), (1998).
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• David M. Hunt, Jude Fitzgibbon, Sergey J. Slobodyanyuk and James K. Bowmakers, Spectral tuning and molecular evolution of rod visual pigments in the species flock of cottoid fish in Lake Baikal, Vision Research, 36, 9, (1217), (1996).
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• J.K. Bowmaker, The visual pigments of fish, Progress in Retinal and Eye Research, 15, 1, (1), (1995).
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• J.K. Bowmaker, V.I. Govardovskii, S.A. Shukolyukov, J L.V. Zueva, D.M. Hunt, V.G. Sideleva and O.G. Smirnova, Visual pigments and the photic environment: The cottoid fish of Lake Baikal, Vision Research, 34, 5, (591), (1994).
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• J. C. Partridge, S. N. Archer and J. Vanoostrum, Single and multiple visual pigments in deep-sea fishes, Journal of the Marine Biological Association of the United Kingdom, 72, 01, (113), (1992).
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• Frederick Crescitelli, Adaptations of visual pigments to the photic environment of the deep sea, Journal of Experimental Zoology, 256, S5, (66-75), (2005).
  Wiley Online Library
• Joel L. Cohen, Adaptations for scotopic vision in the lemon shark (Negaprion brevirostris), Journal of Experimental Zoology, 256, S5, (76-84), (2005).
  Wiley Online Library
• J.N. Lythgoe, Visual pigments and environmental light, Vision Research, 24, 11, (1539), (1984).
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• H. H. Seliger, A. B. Lall, J. E. Lloyd and W. H. Biggley, THE COLORS OF FIREFLY BIOLUMINESCENCE—II EXPERIMENTAL EVIDENCE FOR THE OPTIMIZATION MODEL*, Photochemistry and Photobiology, 36, 6, (681-688), (2008).
  Wiley Online Library
• Hector R.C. Fernandez, Visual pigments of bioluminescent and nonbioluminescent deep-sea fishes, Vision Research, 19, 5, (589), (1979).
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• Geoffrey Fryer, Evolution of species flocks of cichlid fishes in African lakes, Journal of Zoological Systematics and Evolutionary Research, 15, 2, (141-165), (2009).
  Wiley Online Library
• J.K. BOWMAKER, Adaptation to Environment, (430), (1976).
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• William N. McFarland, Cetacean visual pigments, Vision Research, 11, 10, (1065), (1971).
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• J.N. Lythgoe, Visual pigments and visual range underwater, Vision Research, 8, 8, (997), (1968).
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• S.A. Schwanzara, The visual pigments of freshwater fishes, Vision Research, 7, 3-4, (121), (1967).
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• J.A.C. Nicol, Some Aspects of Photoreception and Vision in Fishes, Advances in Marine Biology Volume 1, 10.1016/S0065-2881(08)60259-X, (171-208), (1963).
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• , The Visual Process, (367), (1962).
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• Hennig Stieve, Sinnesphysiologische Betrachtungen über die Orientierung der Meerestiere bei ihren Wanderungen, Helgoländer Wissenschaftliche Meeresuntersuchungen, 8, 1, (153), (1961).
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• E. J. Denton and F. J. Warren, The photosensitive pigments in the retinae of deep-sea fish, Journal of the Marine Biological Association of the United Kingdom, 36, 03, (651), (1957).
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• GEORGE WALD, PAUL K. BROWN and PATRICIA SMITH BROWN, Visual Pigments and Depths of Habitat of Marine Fishes, Nature, 180, 4593, (969), (1957).
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• J.R. BRETT, THE SENSE ORGANS: THE EYE, The Physiology of Fishes, 10.1016/B978-1-4832-2763-4.50006-7, (121-154), (1957).
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• George L. Clarke and Gunther K. Wertheim, Measurements of illumination at great depths and at night in the Atlantic Ocean by means of a new bathyphotometer, Deep Sea Research (1953), 3, 3, (189), (1956).
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• D. H. CUSHING, THE VERTICAL MIGRATION OF PLANKTONIC CRUSTACEA, Biological Reviews, 26, 2, (158-192), (2008).
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