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Armstrong, G., and Mordue, W., 1985, Oxygen consumption of flying locusts. Physiol. Entomology 10, 353–358.
Burggren, W.W., and Randall, D.J., 1978, Oxygen uptake and transport during hypoxic exposure in the sturgeon Acipenser transmontanus, Resp. Physiol., 34, 171–183.
Dudley, G.A., and Terjung, R.L., 1985, Influence of aerobic metabolism on IMP accumulation in fast-twitch muscle, Am. J. Physiol., 248, C37–C42.
Dunn, J.F., Hochachka, P.W., Davison, W., and Guppy, M., 1983, Metabolic adjustments to diving and recovery in the African lungfish, Am. J. Physiol., 245, R651–R657.
Edelstone, D.I., 1984, Fetal compensatory responses to reduced oxygen delivery, Seminars in Perinatology, 8, 184–191.
Edelstone, D.I., Paulone, M.E., and Holzman, I.R., 1984, Hepatic oxygenation during arterial hypoxemia in neonatal lambs, Am. J. Obstet. Gynecol., 150, 513–518.
Fersht, A., 1985, “Enzyme Structure and Mechanisms,” W.H. Freeman & Co., N.Y., pp. 1–475.
Fisher, A.B., and Dodia, C., 1981, The lung as a model for evaluation of critical intracellular PO2 and PCO2, Am. J. Physiol., 241, E47–E50.
Gatz, R.N., and Piiper, J., 1979, Anaerobic energy metabolism during severe hypoxia in the lungless salamander Desmognathus fuscus (Plethodontidae), Resp. Physiol., 38, 377–384.
Gayeski, T.E.J., Connett, R.J., and Honig, C.R., 1987, Minimum intracellular PO2 for maximum cytochrome turnover in red muscle in situ. Am. J. Physiol., H906–H915.
Gilston, A., 1985, ARDS: Another approach, Int. Crit. Care Digest, 4, 1–2.
Guppy, M., Hill, R.D., Schneider, R.C., Qvist, J., Liggins, G.C., Zapol, W.M., and Hochachka, P.W., 1986, Micro-computer assisted metabolic studies of voluntary diving of Weddell seals, Am. J. Physiol., 250, R175–R187.
Harris, K., Walker, P.M., Mickle, D.A.G., Harding, R., Gatley, R., Wilson, G.J., Kuzon, B., McKee, N., and Romaschin, A.D., 1986, Metabolic response of skeletal muscle to ischemia, Am. J. Physiol., 250, H213–H220.
Hochachka, P.W., 1985, Assessing metabolic strategies for surviving O2 lack: role of metabolic arrest coupled with channel arrest, Mol. Physiol., 8, 331–350.
Hochachka, P.W., 1986a, Defense strategies against hypoxia and hypothermia, Science, 231, 234–241.
Hochachka, P.W., 1986b, Metabolic arrest, Intensive Care Med., 12, 127–133.
Hochachka, P.W., 1987, Metabolic suppression and oxygen availability, Can. J. Zool., in press.
Hochachka, P.W., and Guppy, M., 1987, “Metabolic Arrest and the Control of Biological Time,” Harvard University Press, Cambridge, Mass., pp. 1–227.
Hochachka, P.W., Emmett, B., and Suarez, R.K., 1987, Limits and constraints in the scaling of oxidative and glycolytic enzymes in homeotherms, Can. J. Zool., in press.
Hoppeler, H., Kayar, S.R., Ciaassen, H., Uhlmann, E., and Karas, R.H., 1987, Adaptive variation in the mammalian respiratory system in relation to energetic demand: III. Skeletal muscles: Setting the demand for oxygen, Resp. Physiol., 69, 27–46.
Jackson, D.C., 1968, Metabolic depression and oxygen depletion in the diving turtle, J. Appl. Physiol., 24, 503–509.
Jones, M.D., Jr., and Traystman, R.J., 1984, Cerebral oxygenation of the fetus, newborn and adult, Seminars in Perinatology, 8, 205–216.
Kadenbach, B., 1986, Mini Review: Regulation of respiration and ATP synthesis in higher organisms: hypothesis, Bioenergetics & Biomembr., 18, 39–54.
Kushmerick, M., 1985, Patterns in mammalian muscle energetics, J. Exp. Biol., 115, 165–177.
Lutz, P.L., McMahon, P., Rosenthal, M., and Sick, T.J., 1984, Relationships between aerobic and anaerobic energy production in turtle brain in situ, Am. J. Physiol., 247, R740–R744.
Mangum, C.P., and Van Winkle, W., 1973, Responses of aquatic invertebrates to declining oxygen conditions, Am. Zool., 13, 529–541.
Meren, H., Matsumura, T., Kaufman, F.C., and Thurman, R.G., 1986, Relationship between oxygen tension and oxygen uptake in the perfused rat liver, in: “O2 Transport to Tissue,” I.S. Longmuir, ed., Vol. 8, pp. 467–476.
Prosser, C.L., 1986, “Adaptational Biology: Molecules to Organisms”, Wiley & Sons, New York, pp. 1–784.
Rosenmann, M., and Morrison, P., 1974, Physiological responses to hypoxia in the trundra vole, Am. J. Physiol., 227, 734–739.
Sacktor, B., 1976, Biochemical adaptations for flight in the insect, Biochem. Soc. Symp., 41, 111–131.
Schmidt-Nielsen, K., 1979, “Animal Physiology: Adaptation and Environment,” Cambridge University Press, Cambridge, England, pp. 1–560.
Schmidt-Nielsen, K., 1984, “Scaling. Why Is Size So Important?” Cambridge University Press, Cambridge, pp. 1–241.
Storey, K.B., 1985, A re-evaluation of the Pasteur effect: new mechanisms in anaerobic metabolism, Mol. Physiol., 8, 439–461.
Storey, K.B., 1987, Suspended animation, Can. J. Zool., in press.
Suarez, R.K., Brown, G.S., and Hochachka, P.W., 1986, Metabolic sources of energy for hummingbird flight, Ann. Rev. Physiol., 251, R537–R542.
Taylor, C.R., 1987, Structural and functional limits to oxidative metabolism: insights from scaling, Ann. Rev. Physiol., 49, 135–146.
Taylor, C.R., Maloiy, G.M.O., Weibel, E.R., Langman, V.A., Kamau, J.M.Z., Seeherman, H.J., and Heglund, N.C., 1981, Design of the mammalian respiratory system. III. Scaling maximum aerobic capacity to body mass: wild and domestic mammals, Resp. Physiol., 44, 25–37.
Torres, J.J., Belman, B.W., and Childress, J.J., 1979, Oxygen consumption rates of midwater fishes off California, Deep-Sea Res., 26A, 185–197.
Tzagoloff, A., 1983, “Mitochondria”, Plenum Press, New York, pp. 1–342.
West, J.B., 1983, Climbing Mt. Everest without oxygen: An analysis of maximal exercise during extreme hypoxia, Resp. Physiol., 52, 265–279.
West, J.B., 1986, Lactate during exercise at extreme altitude, Fed. Proc., 45, 2953–2957.
Whalen, W.J., Buerk, D., and Thuning, C.A., 1973, Blood flow-limited oxygen consumption in resting cat skeletal muscle, Am. J. Physiol., 224, 763–768.
Wilson, D.F., Owen, C.F., and Erecinska, M., 1979, Quantitative dependence of mitochondrial oxyidative phosphorylation on O2 concentration: A mathematical model, Arch. Biochem. Biophvs., 195, 494–504.
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Hochachka, P.W. (1988). Patterns of O2-Dependence of Metabolism. In: Mochizuki, M., Honig, C.R., Koyama, T., Goldstick, T.K., Bruley, D.F. (eds) Oxygen Transport to Tissue X. Advances in Experimental Medicine and Biology, vol 222. Springer, New York, NY. https://doi.org/10.1007/978-1-4615-9510-6_16
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