Summary
Data on the duration of egg development at 5, 10, 15 and 20°C are given for eight cladoceran and one cyclopoid copepod species found associated with the Yellow Water Lily (Nuphar lutea) in the River Thames. A decrease in temperature caused a marked increase in the time taken to complete development for all nine species. The data are compared with published data and a number of conclusions drawn. In general, cladoceran eggs tend to take longer to complete development than copepod eggs, and within the Cladocera the eggs of epiphytic species tend to take longer to develop than those of planktonic species, and the eggs of large species longer than the eggs of small species.
The relationship of development time to temperature was examined, and the linear reciprocal relationship, Krogh's curve and the vant' Hoff-Arrhenius function were found to be inadequate. Statistical analysis of the data required a logarithmic transformation, and this gave a significantly curvilinear relationship for all nine species. A quadratic of the form: logD = log a + b log T + c(logT)2 gave the best fit for eight of the species, but this could be reduced to log D = log a ´+c ´ (logT)2 with only a slight decrease in the predictive value of the model. A comparison of regression lines showed that the data for each species could only be described properly by individual regression lines for each species: common slope or common intercept lines, or a single line were not valid. A survey of the literature suggests that the analyses in many previous investigations are statistically inadequate. A critical discussion of temperature functions is given.
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References
Amrén, H.: Ecological studies of zooplankton populations in some ponds on Spitsbergen. Zool. Bidr. Uppsala 36, 161–191 (1964)
Andrewartha, H. G., Birch, L. C.: The distribution and abundance of animals. Chicago: University of Chicago Press 1954
Bělehrádek, J.: Temperature and living matter, Protoplasma Monogr. No. 8. Berlin: Borntraeger 1935
Benech, V.: Etude expérimentale de l'incubation des oeufs de Baetis rhodani Pictet. Freshwat. Biol. 2, 243–252 (1972)
Berrie, A. D.: Productivity of the River Thames at Reading. Symp. zool. Soc. Lond. 29, 69–86 (1972)
Bliss, C. J.: Temperature characteristics for prepupal development in Drosophila melanogaster. J. gen. Physiol. 9, 467–495 (1926)
Bottrell, H. H.: Quantitative studies on the Cladocera, Copepoda and Rotifera in the Rivers Thames and Kennet at Reading. Unpublished Ph. D. Thesis, University of Reading (1974)
Brown, L. A.: The natural history of cladocerans in relation to temperature. II. Temperature coefficients for development. Amer. Naturalist 63, 346–352 (1929)
Browning, T. O.: The influence of temperature on the rate of development of insects, with special reference to the eggs of Gryllus commodus Walker. Aust. J. sci. Res., Ser. B. 5, 96–111 (1952)
Burgis, M. J.: The effect of temperature on the development time of eggs of Thermocyclops sp., a tropical cyclopoid copepod from Lake George. Limnol. Oceanogr. 15, 742–747 (1970)
Corkett, C. J.: Development rate of copepod eggs of the genus Calanus. J. exp. mar. Biol. Ecol. 10, 171–175 (1972)
Davidson, J.: On the relationship between temperature and rate of development of insects at constant temperatures. J. Anim. Ecol. 13, 26–38 (1944)
Eckstein, H.: Untersuchungen über die Einfluß des Rheinwassers auf die Limnologie des Schluchsees. IV. Untersuchungen über die Einbürgerung des Eudiaptomus gracilis Sars in den Schluchsee. Arch. Hydrobiol. (Suppl.) 28, 119–182 (1964)
Edmondson, W. T.: Reproductive rate of rotifers in natural populations. Mem. Ist. Ital. Idrobiol. 12, 21–77 (1960)
Edmondson, W. T.: Reproductive rate of planktonic rotifers as related to food and temperature in nature. Ecol. Monogr. 35, 61–111 (1965)
Edmondson, W. T., Winberg, G. G.: A manual on methods for the assessment of secondary productivity in freshwaters, I.B.P. Handbook No. 17. Oxford: Blackwell 1971
Eichhorn, R.: Zur Populationsdynamik der calanoiden Copepoden in Titisee und Feldsee. Arch. Hydrobiol. (Suppl.) 24, 186–246 (1957)
Elster, H. J.: Über die Populationsdynamik von Eudiaptomus gracilis Sars und Heterocope borealis Fischer im Bodensee-Obersee. Arch. Hydrobiol. (Suppl.) 20, 546–614 (1954)
Elster, H. J., Schwoerbel, I.: Beiträge zur Biologie und Populationsdynamik der Daphnien im Bodensee. Arch. Hydrobiol. (Suppl.) 38, 18–72 (1970)
Esslová, M.: Embryonic development of parthenogenetic eggs of Daphnia pulex. Věst. čsl. Spol. zool. 23, 80–88 (1959)
Forrester, C. R.: Rate of development of eggs of the rock sole (Lepidopsetta bilineata Ayres). J. Fish. Res. Bd Can. 21, 1533–1534 (1964)
Geiling, W. T., Campbell, R. S.: The effect of temperature on the development rate of the major life stages of Diaptomus pallidus Herrick. Limnol. Oceanogr. 17, 304–307 (1972)
Gray, J.: The growth of fish. III. The effect of temperature on the development of the eggs of Salmo fario. J. exp. Biol. 6, 125–130 (1928)
Hall, D. J.: An experimental approach to the dynamics of a natural population of Daphnia galeata mendotae. Ecology 45, 94–112 (1964)
Hughes, R. N.: An energy budget for a tidal-flat population of the bivalve Scrobicularia plana (Da Costa). J. Anim. Ecol. 39, 357–381 (1970)
Hunter-Jones, P.: The effect of constant temperature on egg development in the desert locust Schistocerca gregaria (Forsk.). Bull. ent. Res. 59, 707–718 (1968)
Janisch, E.: Die Lebens- und Entwicklungsdauer der Insekten als Temperaturfunktion. Z. wiss. Zool. 132, 176–186 (1928)
Johnson, C. G.: Development, hatching and mortality of the eggs of Cimex lectularis L. (Hemiptera) in relation to climate, with observations on the effects of preconditioning to temperature. Parasitology 32, 127–173 (1940)
Jørgensen, N. A.: Undersøgelser over Frequenzflader og Korrelation. Copenhagen: Busck 1916
Kinne, O.: Ecological data on the amphipod Gammarus duebeni. A monograph. Veröff. Inst. Meeresforsch. Bremerhaven 6, 177–202 (1959)
Kôrínek, V.: The embryonic and postembryonic development of Daphnia hyalina Leydig (Crustacea, Cladocera) from Lake Maggiore. Mem. Ist. Ital. Idrobiol. 26, 85–95 (1970)
Krogh, A.: On the influence of the temperature on the rate of embryonic development. Z. allg. Physiol. 16, 163–177 (1914a)
Krogh, A.: The quantitative relation between temperature and standard metabolism in animals. Int. Z. phys.-chem. Biol. 1, 491–508 (1914b)
Krüger, F.: Über den Exponenten der Temperaturfunktion biologischer Vorgänge und deren Größenabhängigkeit. Biol. Zbl. 80, 721–750 (1961)
Kryuchkova, N. N.: Some features of nutrition and growth of Eurycercus lamellatus (O. F. Müller). Nauch. Dokl. Vyssh. Shkoly. biol. nauki 9, 35–39 (1969)
Lin, S., Hodson, A. C., Richards, A. G.: An analysis of threshold temperatures for the development of Oncopletus and Tribolium eggs. Physiol. Zoöl. 27, 287–311 (1954)
Mann, K. H.: Energy transformations by a population of fish in the River Thames. J. Anim. Ecol. 34, 253–275 (1965)
McLaren, I. A.: Effects of temperature on growth of zooplankton, and the adaptive value of vertical migration. J. Fish. Res. Bd Can. 20, 685–727 (1963)
McLaren, I. A.: Some relationships between temperature, and egg size, body size, development rate, and fecundity of the copepod Pseudocalanus. Limnol. Oceanogr. 10, 528–538 (1965)
McLaren, I. A.: Predicting development rate of copepod eggs. Biol. Bull. mar. biol. lab., Woods Hole 131, 457–469 (1966)
McLaren, I. A., Corkett, C. J., Zillioux, E. J.: Temperature adaptations of copepod eggs from the arctic to the tropics. Biol. Bull. mar. biol. lab., Woods Hole 137, 486–493 (1969)
Melvin, R.: Incubation period of eggs of certain muscoid flies at different constant temperatures. Ann. ent. Soc. Amer. 27, 406–410 (1934)
Nielsen, E. T., Evans, D. G.: Duration of the pupal stage of Aedes taeniorhynchus with a discussion of the velocity of development as a function of temperature. Oikos 11, 200–222 (1960)
Petrovich, P. G., Nguen Chong, N.: The quantitative growth and production of Eurycercus lamellatus (O. F. Müller) in Lake Naroch. In: P. G. Petrovich, ed., Bioproduktivnost' ozer Belrussi (Bioproductivity of lakes in Belorussia), Translation as NLL RTS 7387, p. 93–100, Minsk (1971)
Pourriot, R., Deluzarches, M.: Recherches sur la biologie des Rotifères. II. Influence de la témperature sur la durée du dévelopment embryonnaire et post-embryonnaire. Ann. Limnol. 7, 25–52 (1971)
Powsner, L.: The effects of temperature on the duration of the developmental stages of Drosophila melanogaster. Physiol. Zoöl. 8, 474–520 (1935)
Pradhan, S.: Insect population studies. IV. Dynamics of temperature effect on insect development. Proc. nat. Inst. Sci. India 12, 385–404 (1946)
Schindler, D. W.: Production of phytoplankton and zooplankton in Canadian Shield Lakes. In: Z. Kajak, A. Hilbricht-Ilkowska, eds., Productivity problems of freshwaters, p. 311–331. Warszawa: PWN-Polish Scientific Publishers 1972
Scholander, P. F., Flagg, W., Walters, V., Irving, L.: Climatic adaptation in aretic and tropical poikilotherms. Physiol. Zoöl. 26, 67–92 (1953)
Smirnov, N. N.: Eurycercus lamellatus (Chydoridae:Cladocera): field observations and nutrition. Hydrobiologia 20, 280–294 (1962)
Smyly, W. J. P.: Bionomics of Cyclops strenuus abyssorum Sars (Copepoda: Cyclopoida). Oecologia (Berl.) 11, 163–186 (1973)
Snedecor, G. W., Cochran, W. G.: Statistical methods. Ames: Iowa State University 1967
Sokal, R. R., Rohlf, F. J.: Biometry. The principles and practice of statistics in biological research. San Francisco: Freeman 1969
Spindler, K.-D.: Investigations on the influence of external factors on the duration of the embryonic development and on the moulting rhythm of Cyclops vicinus. Oecologia (Berl.) 7, 342–355 (1971)
Steele, D. H., Steele, V. J.: The biology of Gammarus (Crustacea, Amphipoda) in the northwestern Atlantic. VII. The duration of embryonic development in five species at various temperatures. Canad. J. Zool. 51, 995–999 (1973)
Voûte, A. D.: Die Eientwicklung der Mehlmotte, Ephestia kühniella Zell., bei konstanten und schwankenden Temperaturen. Z. angew. Entomol. 22, 1–25 (1936)
Wegleńska, T.: The influence of various concentrations of natural food on the development, fecundity and production of planktonic crustacean filtrators. Ekol. pol. 19, 427–473 (1971)
Winberg, G. G.: Rate of metabolism and food requirements of fishes. FRBC Transl. 194. Originally published in: Nauchnye Trudy Belorusskovo Gosudarstvennovo Universiteta imeni V. I. Lenina, Minsk (1956)
Winberg, G. G.: Methods for the estimation of production of aquatic animals. English translation by Annie Ducan. London: Academic Press 1971
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Bottrell, H.H. The relationship between temperature and duration of egg development in some epiphytic cladocera and copepoda from the River Thames, reading, with a discussion of temperature functions. Oecologia 18, 63–84 (1975). https://doi.org/10.1007/BF00350636
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DOI: https://doi.org/10.1007/BF00350636