Adaptations of Cave Fishes with some Comparisons to Deep-sea Fishes |
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Authors: | Thomas L. Poulson |
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Affiliation: | (1) Biological Sciences, University of Illinois-Chicago, Chicago, IL, 60607-7060, U.S.A.;(2) Present address: 318 Marlberry Circle, Jupiter, FL, 33458-2850, U.S.A. |
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Abstract: | I provide my retrospective and prospective views on adaptations of cave fishes. I emphasize the history of my insights into cave adaptation from 45 years of research using surface, cave-spring, and cave species of amblyopsid fishes. My approach has been to use natural experiments and to always consider multiple hypotheses. To clarify evolutionary adaptations, I show the importance of a broad comparative approach which includes studies of morphology, metabolic physiology, foraging behavior, life history, and ecology. And I show that the most important agents of selection, of darkness and attendant low food supply, are best understood in the context of rigor, variability, and predictability. I also present my insights from what I consider the most insightful contributions on deep-sea fishes. The contributions are those of Marshall in studies of morphology in relation to energy economy of pelagic and benthic species, Childress in studies of physiological and biochemical adaptations with depth for pelagic species, and Koslow in studies on population biology and life history of bathybenthic and benthic sea-mount species. Compared to caves, I suggest that the extremes of metabolic and life history adaptations of deep-sea fish are explained by a longer evolutionary history and a much greater habitat range, food supply, and predation risk. Finally, I take a retrospective view of what we have learned about cave fishes. I discuss possible evolutionary mechanisms that can explain the trends with increasing cave adaptation in amblyopsid fishes, especially progenesis and the pleiotropic effects of the stress resistance syndrome. Finally, based on insights from deep-sea fishes, and emerging new techniques, I suggest what cave fish biologists should do in the future. |
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Keywords: | amblyopsid fishes Mexican cave characins rigor variability predictability food supply lack of light progenesis preadaptation punctuated vs. gradual evolutionary change convergence life history patterns egg size and number mesopelagic bathypelagic bathybenthic seamount |
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