论文信息 - Effects of temperature on growth of the Japanese spiny lobster, Panulirus japonicus (V. Siebold) phyllosomas under laboratory conditions

Effects of temperature on growth of the Japanese spiny lobster, Panulirus japonicus (V. Siebold) phyllosomas under laboratory conditions

The effects of temperature on growth of phyllosomas of the Japanese spiny lobster Panulirus japonicus were investigated. Phyllosomas were individually reared at four temperatures (20°, 22°, 24° and 26°C), and intermoult period and moult increment were monitored. The improved Belehradek’s equation, G = aLb (T–α)c(β–T)d, was used to describe the relationship between growth characters (G: intermoult period, moult increment or daily growth increment), body length (L) and temperature (T), with a and b being constants that change at 17·8 mm body length, c and d being common constants for all sizes, and α and β being the conceptual biological lower and upper critical temperatures, which are variables with body length. The intermoult period increased and the moult increment decreased with decreasing temperature. However, a negative influence on both the intermoult period and the moult increment was observed at 26°C for medium-sized and large phyllosomas. The largest daily growth increment was obtained at 26°C up to 15·0 mm body length, and then at 24°C. This indicates that the optimum temperature for growth decreases from 26° to 24°C at 15·0 mm body length. This optimum temperature for growth seemed to be optimal for survival.

T. Yamakawa | H. Matsuda

[1] B. Knott,et al. Larval Development of Ibacus Peronii Leach (Decapoda: Scyllaridae) Under Laboratory Conditions , 1994 .

[2] T. Yamakawa,et al. Complete Larval Rearing of the Japanese Spiny Lobster Panulirus japonicus . , 1989 .

[3] J. Kittaka,et al. Culture of the Japanese spiny lobster Panulirus japonicus from egg to juvenile stage. , 1989 .

[4] M. Nonaka. Catches of Spiny Lobster in Japan , 1988 .

[5] H. Sekiguchi. Taxonomical and ecological problems associated with phyllosoma larvae , 1988 .

[6] D. Johns. Physiological studies on Cancer irroratus larvae. I. Effects of temperature and salinity on survival, development rate and size , 1981 .

[7] P. Rothlisberg. Combined effects of temperature and salinity on the survival and growth of the larvae of Pandalus jordani (Decapoda: Pandalidae) , 1979 .

[8] B. W. Sweeney,et al. Size Variation and the Distribution of Hemimetabolous Aquatic Insects: Two Thermal Equilibrium Hypotheses , 1978, Science.

[9] P. Reed. Culture Methods and Effects of Temperature and Salinity on Survival and Growth of Dungeness Crab (Cancer magister) Larvae in the Laboratory , 1969 .

[10] R. Monroe,et al. THE EFFECT OF SALINITY AND TEMPERATURE ON LARVAL DEVELOPMENT OF SESARMA CINEREUM (BOSC) REARED IN THE LABORATORY , 1960 .

[11] W. Templeman. The influence of temperature, salinity, light and food conditions on the survival and growth of the larvae of the lobster (Homarus americanus). , 1936 .