Thresher et al.: Otolith analysis of Nemadactylus macropterus 



839 



Edmonds, J. S., M. J. Moran, N. Caputi, 

 and M. Morita. 



1989. Trace element analysis offish sagittae as an 

 aid to stock identification: pink snapper 

 (Chrysophrys auratus) in western Australian 

 waters. Can. J. Fish. Aquat. Sci. 46: 50-54. 

 Edmonds, J. S., N. Caputi, and M. Morita. 



1991. Stock discrimination by trace-element analy- 

 sis of otoliths of orange roughy (Hoplostethus 

 atlanticus), a deep-water marine teleost. Aust. J. 

 Mar. Freshwater Res. 42:383-389. 



Elliot, N. G., and R. D. Ward. 



1994. Enzyme variation in jackass morwong, 

 Nemadactylus macropterus (Schneider, 1801) 

 (Teleostei: Cheilodactylidae), from Australian and 

 New Zealand waters. Aust. J. Mar. Freshwater 

 Res. 45:51-67. 



Fisheries Agency of Japan. 



1967. Study on identification of the Pacific salmon 

 by neutron activation analysis. Survey and Re- 

 search Division, Fisheries Agency of Japan (cited 

 in Mulligan et al. 1983). 



Gallahar, N. K., and M. J. Kingsford. 



1992. Patterns of increment width and strontium: 

 calcium ratios in otoliths of juvenile rock blackfish, 

 Girella elevata (M. ). J. Fish. Biol. 41:749-763. 



Gauldie, R. W., D. A. Fournier, D. E. Dunlop, 

 and G. Coote. 



1986. Atomic emission and proton microprobe stud- 

 ies of the ion content of otoliths of chinook salmon 

 aimed at recovering the temperature life history of 

 individuals. Comp. Biochem. Physiol. 84A:607-615. 

 Gauldie, R. W., and A. Nathan. 



1977. Iron content of the otoliths of tarakihi (Tele- 

 ostei: Cheilodactylidae). N. Z. J. Mar. Freshwa- 

 ter Res. 11:179-191. 

 Grewe, P. M., A. J. Smolenski, and R. D. Ward. 



1994. Mitochondrial DNA variation in jackass mor- 

 wong, Nemadactylus macropterus (Teleostei: 

 Cheilodactylidae) from Australian and New Zea- 

 land waters. Can. J. Fish Aquat. Sci. 51(51:1101- 

 1109. 

 Gunn, J. S., I. R. Harrowfield, C. H. Proctor, and R. 

 E. Thresher. 



1992. Electron probe microanalysis offish otoliths — 

 evaluation of techniques for studying age and stock 

 discrimination. J. Exp. Mar. Biol. Ecol. 158:1-36. 

 Hartl, D. L., and A. G. Clark (eds.) 



1989. Principles of population genetics, 2nd ed. 

 Sinauer Associates Inc., Sunderland, MA, 682 p. 

 Houck, J. E., R. W. Buddemeier, S. V. Smith, and P. 

 J. Jokiel. 



1977. The response of coral growth and skeletal 

 strontium to light intensity and water temper- 

 ature. In D. L. Taylor (ed.), Proc. third int. coral 

 reef symp. Miami, Vol. 2:425-431. 

 Kalish, J. M. 



1989. Otolith microchemistry: validation of the ef- 

 fects of physiology, age and environment on otolith 

 composition. J. Exp. Mar. Biol. Ecol. 132:151-178. 



1990. Use of otolith microchemistry to distinguish 

 the progeny of sympatric anadromous and non- 

 anadromous salmonids. Fish. Bull. 88:657-666. 



1991. Determinants of otolith chemistry: seasonal 

 variation in the composition of blood plasma, en- 

 dolymph and otoliths of bearded rock cod Pseudo- 

 phycis barbatus. Mar. Ecol. Prog. Ser. 74:137-159. 



Klecka, W. R. 



1980. Discriminant analysis. Sage, Beverly Hills, 

 CA, 70 p. 



Klokov, V. K., and L. A. Frolenko. 



1970. Elementary chemical composition of scales of 



pink salmon. Izv. Tikhookean. Nauchno-Issled. 



Instit. Rybn. Khoz. Okeanogr. 71:159-168. 

 Lapi, L. A., and T. J. Mulligan. 



1981. Salmon stock identification using a microana- 

 lytic technique to measure elements present in the 

 freshwater growth region of scales. Can. J. Fish. 

 Aquat. Sci. 38:744-751. 



Mulligan, T. J., L. Lapi, R. Kieser, S. B. Yamada, 

 and D. L. Duewer. 



1983. Salmon stock identification based on elemen- 

 tal composition of vertebrae. Can. J. Fish. Aquat. 

 Sci. 40:215-229. 



Mulligan, T. J., F. D. Martin, R. A. Smucker, 

 and D. A. Wright. 



1987. A method of stock identification based on the 

 elemental composition of striped bass Morone 

 saxatilis (Walbaum) otoliths. J. Exp. Mar. Biol. 

 Ecol. 114:241-248. 



Pichou, J. L., and F. Pichoir. 



1984. A new model for quantitative x-ray micro- 

 analysis. La Recherche Aerospatiale, 3:167-192. 



Radtke, R. L. 



1989. Strontium-calcium concentration ratios in fish 

 otoliths as environmental indicators. Comp. 

 Biochem. Physiol. 92A: 189-193. 



Radtke, R. L., R. A. Kinze, and S. D. Folsom. 



1988. Age at recruitment of Hawaiian freshwater 

 gobies. Environ. Biol. Fishes. 23:205-213. 



Radtke, R. L., D. W. Townsend, S. D. Folsom, and 

 M. A. Morrison. 



1990. Strontiumxalcium concentration ratios in 

 otoliths of herring larvae as indicators of environ- 

 mental histories. Environ. Biol. Fish. 27:51-61. 



Richardson, B. J. 



1982. Geographical distribution of electrophoreti- 

 cally detected protein variation in Australian com- 

 mercial fishes. II: Jackass morwong, Cheilodactylus 

 macropterus Bloch and Schneider. Aust. J. Mar. 

 Freshwater Res. 33:927-931. 



Robertson, D. A. 



1978. Spawning of tarakihi (Pisces: Cheilodacty- 

 lidae ) in New Zealand waters. N.Z.J. Mar. Fresh- 

 water Res 12:277-286. 

 Rosenberg, G. D. 



1980. An ontogenetic approach to the environmental 

 significance of bivalve shell chemistry. In D. C. 

 Rhoads and R. A. Lutz (eds.), Skeletal growth of 

 aquatic organisms, p. 133-168. Plenum Press, NY. 



