FISHERY BULLETIN; VOL. 87, NO. 1 



Birkeland, R. W. Buddemeier, R. E. Johannes, J. A. Marsh, 

 Jr., and R. T. Tsuda (editors), The reef and man, p. 83-88. 

 Proceedings of the Fourth International Coral Reef Sym- 

 posium Vol. 1. Marine Science Center, University of the 

 Philippines, Quezon City, Philippines. 

 1983. Analyzing the width of daily otolith increments to age 

 the Hawaiian snapper, Pristipomoidesfiiamentostts. Fish. 

 Bull., U.S. 81:523-535. 



Ralston, S., and H. A. Williams. 



1988. Depth distributions, growth, and mortality of deep 

 slope fishes from the Mariana Archipelago. U.S. Dep. Com- 

 mer., NOAA Tech. Memo. NMFS, NOAA-TM-NMFS- 

 SWFC-113, 47 p. 



RiCKER, W. E. 



1975. Computation and interpretation of biological statistics 

 of fish populations. Bull. Fish. Res. Board Can. 191, 382 p. 

 1979. Growth rates and models. In W. S. Hoar, D. J. Ran- 

 dall, and J. R. Brett (editors). Fish physiology, Vol. VIII, 

 Bioenergetics and growth, p. 677-743. Academic Press, 

 New York, NY. 



SAS Institute Inc. 



1979. SAS user's guide. SAS Institute Inc., Raleigh, NC, 

 494 p. 



Samuel, M., C. P. Mathews, and A. S. Bawazeer. 



1987. Age and validation of age from otoliths for warm water 

 fishes from the Arabian Gulf. In R. C. Summerfelt and 

 G. E. Hall (editors). The age and growth offish, p. 253-265. 

 Iowa State University Press, Ames, lA. 

 SCHNUTE, J. 



1987. A general fishery model for a size-structured fish popu- 

 lation. Can. J. Fish. Aquat. Sci. 44:924-940. 

 SCHNUTE, J., and D. FOURNIER. 



1980. A new approach to length-frequency analysis: Growth 

 structure. Can. J. Fish. Aquat. Sci. 37:1337-1351. 



TANAKA, K., Y. MUGIYA, AND J. Yamada. 



1981. Effects of photoperiod and feeding on daily growth pat- 

 terns in otoliths of juvenile Tilapia nilotica. Fish. Bull., 

 U.S. 79:459-466. 

 Templeman, W.. and H. J. Squires. 



1956. Relationship of otolith lengths and weights in the had- 

 dock Melanogrammus aeglefinus (L.) to the rate of growth 

 of the fish. J. Fish. Res. Board Can. 13:467-487. 

 UCHIYAMA, J. H., and P. STRUHSAKER. 



1981 . Age and growth of skipjack tuna, Katsuwonus pelamis, 

 and yellowfin tuna, Thunnus alha^ares, as indicated by daily 

 growth increments of sagittae. Fish. Bull., U.S. 79:151- 

 162. 



VoLK, E. C R. C. WisSMAR, C. A. Simenstad, and D. M. 

 Eggers. 

 1984. Relationship between otolith microstructure and the 

 growth of juvenile chum salmon (Oncorhynchus keta) under 

 different prey rations. Can. J. Fish. Aquat. Sci. 41:126- 

 133. 

 Watabe, N., K. Tanaka, J. Yamada, and J. M. Dean. 



1982. Scanning electron microscope observations of the 

 organic matrix in the otolith of the teleost fish Fundulus 

 heterociittis (Linnaeus) and Tilapia nilotica (Linnaeus). J. 

 Exp. Mar. Biol. Ecol. 58:127-134. 



Wetherall, J. A., J. J. Polovina, and S. Ralston. 



1987. Estimating growth and mortality in steady state fish 

 stocks from length-frequency data. In D. Pauly and G. R. 

 Morgan (editors). Length-based methods in fishery research, 

 p. 53-74. ICLARM Conference Proceedings 13. Inter- 

 national Center for Living Aquatic Resource Management, 

 Manila, Philippines. 



ZWEIFEL, J. R., AND R. LaSKER. 



1976. Prehatch and posthatch growth of fishes— a general 

 model. Fish. Bull., U.S. 74:609-621. 



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