Ikeda Energy budget of Maurolicus muellen 



57 



search Institute" from the Science and Technology 

 of Japan. 



Literature cited 



A nt a k u, M ., and M. Azeta. 



1973. Difference of body components between artificially 

 reared and natural sea bream: larva and young. Bull. 

 Nansei Reg. Fish. Res. Lab. 43:117-131. 

 Bamstedt, U. 



1980. ETS activity as an estimator of respiratory rate of 

 zooplankton populations: the significance of variation in 

 environmental factors. J. Exp. Mar. Biol. Ecol. 42:267- 

 283. 

 Childress, J. J„ and M. H. Nygaard. 



1973. The chemical composition of midwater fishes as a 

 function of depth of occurrence off southern Cali- 

 fornia. Deep-Sea Res. 20:1093-1109. 

 Childress, J. J., S. M. Taylor, G. M. Cailliet, and 

 M. H. Price. 



1980. Patterns of growth, energy utilization and reproduc- 

 tion in some meso- and bathypelagic fishes off Southern 

 California. Mar. Biol. I Berl.) 61:27-40. 



Donnelly, J., and J. J. Torres. 



1988. Oxygen consumption of midwater fishes and crusta- 

 ceans from the eastern Gulf of Mexico. Mar. Biol. (Berl.) 

 97:483-494. 



Gjosaeter, J. 



1981. Life history and ecology of Maurolicus muelleri 

 (Gonostomatidae) in Norwegian waters. Fishendir. Skr. 

 Ser. Havunders. 17:109-131. 



Gnaiger, E. 



1983. Calculation of energetic and biochemical equivalents 



of respiratory oxygen consumption. In E. Gnaiger and H. 



Forstner (eds.). Polarographic oxygen sensors, p. 337- 



345. Springer-Verlag, Berlin. 

 Gnaiger, E., and J. M. Shick. 



1985. A methodological note on CHN-stoichiometric 

 analysis. Cyclobiosis Newsletter 2:2-4. 



Hamano, A., K. Uchida, and Y. Takeda. 



1992. Sorting echoes of sternoptychid fish, Maurolicus 

 muelleri, from quantitative sounder echograms with veri- 

 fication by midwater trawl. Suisan Kaiyo Kenkyu 56: 

 295-308. fin Japanese with English abstract.] 



Harris, R. K., T. Nishiyama, and A. J. Paul. 



1986. Carbon, nitrogen and caloric content of eggs, larvae, 

 and juveniles of the walleye pollock, Theragra chal- 

 cogramma. J. Fish Biol. 29:87-98. 



Hemmingsen, A. M. 



1960. Energy metabolism as related to body size and res- 

 piratory surface, and its evolution. Rep. Steno meml. 

 Hosp. 9:1-110. 

 Ikeda, T. 



1989. Estimated respiration rate of myctophid fish from the 

 enzyme activity of the electron-transport-system. J. 

 Oceanogr. Soc. Jpn. 45:167-173. 



1992. Growth and metabolism of the hyperiid amphipod, 

 Themisto japomca (Bovallius), reared in the fluctuating 

 and constant temperatures in the laboratory. J. Plank- 

 ton Res. 14:925-935. 



1994. Growth and life cycle of the mesopelagic fish 

 Maurolicus muelleri in Toyama Bay, southern Japan 

 Sea. Bull Plankton Soc. Jpn. 40:127-138. 



Ikeda, T., and E. Hing Fay. 



1981. Metabolic activity of zooplankton from the Antarctic 

 Ocean. Aust. J. Mar. Freshwater Res. 32:921-930. 

 Ikeda, T., K. Hirakawa, and N. Kajihara. 



1994. Diet composition and prey size of the mesopelagic fish 

 Maurolicus muelleri (Sternoptychidae) in the Japan Sea. 

 Bull. Plankton Soc. Jpn 41:105-116. 

 Kawaguchi, K., and J. Mauchline. 



1987. Biology of sternoptychid fishes in the Rockall Trough, 

 Northeastern Atlantic Ocean. Biol. Oceanogr. 4:99-120. 

 King, F. D., and T. T. Packard. 



1975. Respiration and the activity of the respiratory elec- 

 tron transport system in marine zooplankton. Limnol. 

 Oceanogr. 20: 849-853. 

 Lasker, R. 



1970. Utilization of zooplankton energy by a Pacific sar- 

 dine population in the California current. In J. J. Steele 

 (ed.), Marine food chains, p. 265-284. Oliver and Boyd, 

 Edinburgh, Scotland. 



Melo, Y. C. and M. J. Armstrong. 



1991. Batch spawning behaviour in light fish Maurolicus 

 muelleri. S. Afr. J. Mar. 10:125-130. 

 Okiyama, M. 



1971. Early life history of the gonostomatid fish, Maurolicus 

 muelleri (Gmelin), in the Japan Sea. Bull. Jpn. Sea Reg. 

 Fish. Res. Lab. 23:21-53. [In Japanese with English ab- 

 stract.] 



1981. Abundance and distribution of eggs and larvae of a 



sternoptychid fish, Maurolicus muelleri, in the Japan Sea, 



with comments on the strategy for successful larval 



life. Rapp. P.-V. Reun. Cons. Int. Explor. Mer 178:246-247. 



Owens, T. G., and F. D. King. 



1975. The measurement of respiratory electron-transport-sys- 

 tem activity in marine zooplankton. Mar. Biol. 30: 27-36. 

 Packard, T. T. 



1985. Oxygen consumption in the ocean: measuring and 

 mapping with enzyme analysis. In A. Zirino (ed.l. Map- 

 ping strategies in chemical oceanography, p. 177- 

 209. Adv. Chem. Ser. 209. 

 Packard, T. T., M. L. Healy, and F. A. Richards. 



1971. Vertical distribution of the activity of the respiratory 

 electron transport system in marine plankton. Limnol. 

 Oceanogr. 16:60-70. 

 Packard, T. T., A. H. Devol, and F. D. King. 



1975. The effect of temperature on the respiratory electron 

 transport system in marine plankton. Deep-Sea Res. 

 22:237-249. 

 Prosch, R. M. 



1991. Reproductive biology and spawning of the myctophid 

 Lampanyctodes hectoris and the sternoptychid Maurolicus 

 muelleri in the southern Benguela ecosystem. S. Afr. J. 

 Mar. Sci. 10:241-252. 

 Prosser, C. L. 



1961. Oxygen: respiration and metabolism. In C. L. 

 Prosser, and F. A. Brown Jr. (eds.). Comparative animal 

 physiology, p. 153-197. W. B. Saunders, Philadelphia and 

 London. 

 Ricker, W. E. 



1973. Linear regressions in fishery research. J. Fish. Res. 

 Board Can. 30:409-434. 

 Robinson, B. H. 



1973. A system for maintaining midwater fishes in 

 captivity. J. Fish. Res. Board Can. 30:126-128. 

 Torres, J. J., B. W. Belman, and J. J. Childress. 



1979. Oxygen consumption rates of midwater fishes as a func- 

 tion of depth of occurrence. Deep-Sea Res. 26A:185-197. 



