Synopsis
The effect of constant incubation temperatures (between 10°C and 26°C) on the developmental rates was found to fit a similar exponential relationship in both the lake and white sturgeon embryos and larvae. Although the lake sturgeon had an overall slower rate of development than the white sturgeon, no statistically significant difference was detected in the slopes of the exponential equations describing the effect of temperature on developmental rate. The effect of these incubation temperatures on embryonic survival also did not differ between these two species. Both species exhibited optimal survival between 14–17° C and incipient mortalities occurred at 20°C. Temperatures above 20°C were lethal for white sturgeon embryos. No effect of low incubation temperature on survival was evident from this study. A comparison of these North American species with Eurasian acipenserids suggests that all the sturgeon that have been examined exhibit a similar influence of incubation temperature on developmental rate.
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Alderdice, D.F. & C.R. Forrester. 1971. Effect of salinity and temperature on embryonic development of petrale sole Eopsetta jordani. J. Fish. Res. Board Can. 28: 727–744.
Ballard, W.W. & A.S. Ginzburg. 1980. Morphogenetic movements of acipenserid embryos. J. Exp. Zool. 213: 69–103.
Ballard, W.W. & R.G. Needham. 1964. Normal embryonic stages of Polyodon spathula (Walbaum). J. Morph. 114: 465–478.
Blaxter, J.H.S. 1969. Development: eggs and larvae. pp. 177–252. In: W.S. Hoar & D.J. Randall (ed.) Fish Physiology, Vol. 3, Academic Press, New York.
Beer, K.E. 1980. Embryonic and larval development of Acipenser transmontanus. M.S. Thesis, University of California-Davis, Davis, 93 pp.
Binkowski, F.P. & D.G. Czeskleba. 1980. Methods and techniques for collecting and culturing lake sturgeon eggs and larvae. Abstract of paper presented in the annual meeting of The World Mariculture Society, New Orleans.
Dean, B. 1895. The early development of gar-pike and sturgeon. J. Morph. 11: 1–62.
Detlaf, T.A. 1970. The effect of environmental temperature during the oocyte maturation and ovulation on quality of sturgeon eggs obtained in the hatchery. Trudy Inst. Osetr. Khoz. 2: 112–126. (In Russian).
Detlaf, T.A. & A.A. Detlaf. 1960. On the dimensionless characteristic of the duration of embryonic development. Dokl. Akad. Nauk. SSSR 134: 199–202. (In Russian).
Detlaf, T.A. & T.A. Ginzburg. 1954. Embryonic development in sturgeon, in connection with problems of artificial propagation. Nauka Publishers, Moscow. 204 pp.
Detlaf, T.A., T.A. Ginzburg & O.I. Shmal'gauzen. 1981. Development of sturgeon: egg maturation, fertilization, embryonic and prelarval development. Nauka Publishers, Moscow. 224 pp.
Doroshov, S.E., W.H. Clark, P.B. Lutes, R.L. Swallow, K.E. Beer, A.B. McGuire & M.D. Cochran. 1983. Artificial propagation of white sturgeon Acipenser transmontanus (Richardson). Aquaculture 32: 93–104.
Harkness, W.J.K. & J.R. Dymond. 1961. The lake sturgeon: the history and problems of conservation. Fish and Wildlife Branch, Ontario Dept. of Land and Forest, Toronto. 121 pp.
Igumnova, L.V. 1975. Chronological patterns of embryonic development of beluga. The Soviet J. of Dev. Biol. 6: 38–43.
Kohlhorst, D.W. 1976. Sturgeon spawning in the Sacramento River in 1963 as determined by distribution of larvae. Calif. Fish and Game 62: 32–40.
Miller, L.W. 1972. White sturgeon population characteristics in the Sacramento-San Joaquin estuary as measured by tagging. Calif. Fish and Game 58: 94–101.
Nikol'skaya, N.G. & L.A. Sytina. 1978. A comparative analysis of constant temperatures on the embryonic development of four species of sturgeon. J. Ichthyology 18: 86–98.
Schmidtov, A.I. 1939. The sterlet Acipenser ruthenus L. Uchenie Zapiski, Kazanaski Gosud. Univ. Zoologia 99 (6/78): 1–279.
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Wang, Y.L., Binkowski, F.P. & Doroshov, S.I. Effect of temperature on early development of white and lake sturgeon, Acipenser transmontanus and A. fulvescens . Environ Biol Fish 14, 43–50 (1985). https://doi.org/10.1007/BF00001575
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DOI: https://doi.org/10.1007/BF00001575