ECOLOGY AND PHYSIOLOGY OF HIBERNATION AND OVERWINTERING AMONG FRESHWATER FISHES, TURTLES, AND SNAKES

Ultsch, Gordon R.

doi:10.1111/j.1469-185X.1989.tb00683.x

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ECOLOGY AND PHYSIOLOGY OF HIBERNATION AND OVERWINTERING AMONG FRESHWATER FISHES, TURTLES, AND SNAKES

Author(s): GORDON R. ULTSCH

Publication date Created: November 1989

Publication date (Print): November 1989

Journal: Biological Reviews

Publisher: Wiley-Blackwell

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Patterns in the Species Composition and Richness of Fish Assemblages in Northern Wisconsin Lakes

William M. Tonn, John J. Magnuson (1982)

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Biochemical Adaptation

Pater W. Hochachka, George N Somero (1984)

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During oxygen limitation in animals, glucose can be fermented via several metabolic pathways varying in energetic efficiency and leading to various end products (such as lactate, alanopine, octopine, succinate, or propionate). Because of opposite pH dependencies of proton production by fermentation and by hydrolysis of adenosine triphosphate formed in the fermentation, the total number of moles of protons generated is always two per mole of the fermentable substrate. However, two and three times more adenosine triphosphate can be turned over per mole of protons produced in succinate and propionate fermentations, respectively, than in lactate fermentation.