96 



Fishery Bulletin 101(1) 



tropical tunas using a habitat index based on environmen- 

 tal parameters. Fish. Oceanogr. 7:326-334. 



Beverton. R. J. H., and S. J. Holt. 



1957. On the dynamics of exploited fish populations. Fish. 

 Invest. Ser. II, Mar. Fish. G.B. Minist. Agric. Fish. Food 19, 

 533 p. 



Deriso, R. B., T. J. Quinn II. and P. R. Neal. 



1985. Catch-age analysis with auxiliary information. Can. 

 J. Fish. Aquat. Sci. 42:815-824. 



Forsbergh, E. D. 



1989. The influence of some environmental variables on the 

 apparent abundance of skipjack tuna, Katsuwonus pela- 

 mia. in the eastern Pacific Ocean. Inter-Am. Trop. Tuna 

 Comm. Bull. 19:433-569. 



Foumier, D., and C. P. Archibald. 



1982. A general theory for analyzing catch at age data. 

 Can. J. Fish. Aquat. Sci. 39: 1 195-1 207. 



Francis, M. P. 



1993. Does water temperature determine year class strength 

 in New Zealand snapper (Pa.grusa!/ra;;iS,Sparidae)? Fish. 

 Oceanogr. 2:65-72. 



Gilbert, D. J. 



1994. A total catch history model for SNA 1. New Zealand 

 Fisheries Research Document 94/24. 16 p. NIWA (Na- 

 tional Institute of Water and Atmospheric Research), Well- 

 ington, New Zealand. 



Granger, C. W. J. 



1993. Forecasting in economics. /;; Time series prediction: 



forecasting the future and understanding the past (A. E. 



Weigend and N. A. Gershenfeld, eds.), p. 529-538. SFI 



Studies in the Sciences of Complexity, Proc. Vol. XV. Addi- 



son-Wesley, Boston, MA. 

 Green, R. E. 



1967. Relationship of the thermocline to success of purse 



seining for tuna. Trans. Am. Fish. Soc. 96:126-130. 

 Hilbom, R., and M. Mangel. 



1997. The ecological detective: confronting models with 

 data, 315 p. Princeton Univ. Press, Princeton, NJ. 



Hilborn, R., and C. J. Walters. 



1992. Quantitative fisheries stock assessment: choice, dy- 

 namics and uncertainty, 570 p. Chapman and Hall, New 

 York, NY. 



Hinton, M. G., and H. Nakano. 



1996. Standardizing catch and effort statistics using physi- 

 ological, ecological, or behavioral constraints and environ- 

 mental data, with an application to blue marlin iMakaira 

 nigricans) catch and effort data from Japanese longline 

 fisheries in the Pacific. Inter-Am. Trop. Tuna Comm. Bull. 

 21:171-200. 



Hunter, J. R. 



1983. On the determinants of stock abundance. In From 

 year to year (W. S. Wooster, ed.), p. 11-16. Washington 

 Sea Grant Program, Univ. Wash., Seattle, WA. 



Joseph, J., and F. R. Miller 



1989. EI Nirio and the surface fishery for tunas in the east- 

 ern Pacific. Japan. Soc. Fish. Ocean., Bull. 53:77-80. 

 Lehodey, P.. J. Andre, M. Bertignac, J. Hampton, A. Stones, 

 C. Menkes, L. Memory, and N. Grima. 



1998. Predicting skipjack tuna forage distributions in the 

 equatorial Pacific using a coupled dynamical bio-geochemi- 

 cal model. Fish. Oceanogr 7:317-325. 



Lehodey, P., M. Bertignac, J. Hampton. A, Lewis, and J. Picaut. 



1997. El Nino Southern Oscillation and tuna in the western 

 Pacific. Nature 389:715-718. 



Mallet, J. P, S. Charles, H. Persat, and P Auger 



1999. Growth modellingin accordance with daily water temp- 

 erature in European grayling iThymallus thymallus L.). 

 Can. J. Fish. Aquat. Sci. 56:994-1000. 

 Maunder, M. N. 



1998a. Integration of tagging and population dynamics 

 models in fisheries stock assessment. Ph.D. diss., 306 p. 

 Univ. Washington, Seattle, WA. 

 1998b. Problems with using an environmental based re- 

 cruitment index: examples from a New Zealand snapper 

 iPagrus auratus) assessment. In Fishery stock assess- 

 ment models (F. Funk, T J. Quinn II, J. Heifetz, J. N. lanelli, 

 J. E. Powers, J. J. Schweigert, P. J. Sullivan, and C. I. Zhang, 

 eds.), p. 679-692. Alaska Sea Grant College Program 

 Report No. AK-SG-98-01, Univ Alaska, Fairbanks, AK. 

 2001a. A general framework for integrating the standard- 

 ization of catch-per-unit-effort into stock assessment 

 models. Can. J. Fish. Aquat. Sci. 58:795-803. 

 2001b. Integrated tagging and catch-at-age analysis ( ITCAAN). 

 In Spatial processes and management offish populations (G. 

 H. Kruse, N. Bez, A. Booth, M. W Dom, S. Hills, R. N. Lipcius, 

 D. Pelletier, C. Roy S. J. Smith, and D. Witherell, eds. ), p. 123- 

 146. Alaska Sea Grant College Program Report AK-SG-01- 

 02. Univ. Alaska, Fairbanks, AK. 

 Maunder, M. N., and P. J. Starr. 



1998. Validating the Hauraki Gulf snapper pre-recruit 

 trawl surveys and temperature recruitment relationship 

 using catch at age analysis with auxiliary information. 

 New Zealand Fisheries Research Document 98/15, 23 p. 

 NIWA (National Institute of Water and Atmospheric 

 Research), Wellington, New Zealand. 

 Maunder, M. N., and P. J. Starr. 



2001. Bayesian assessment of the SNAl snapper (Pagnis 

 aui'atus I stock on the northeast coast of New Zealand. N.Z. 

 J. Mar. and Freshwater Res. 35:87-110. 

 Maunder, M. N., and G. M. Watters. 



2001. Status of yellowfin tuna in the eastern Pacific Ocean. 

 Inter-Am. Trop. Tuna Comm. Stock Assess. Rep. 1:5-86. 

 Methot, R. D. 



1990. Synthesis model: an adaptable framework for analy- 

 sis of diverse stock assessment data. Inter North Pacif 

 Fish. Comm. Bull. 50:2.59-277. 

 Myers, R. A. 



1998. When do environment-recruitment correlations work? 

 Reviews in fish biology and fisheries 8:285-305. 

 Myers, R. A., J. Bridson, and N. J. Barrowman. 



1995. Summary of worldwide spawner and recruitment 

 data. Can. Tech. Rep. Fish. Aquat. Sci. 2020, iv -i- 327 p. 

 Paul, L. J. 



1976. A study on age, gi'owth, and population structure of 

 the snapper, Chrysophrus auratuf (Forsteri. in the Hau- 

 raki Gulf New Zealand. New Zealand Ministry of Fisher- 

 ies and Agriculture, Fish. Bull. 13, 62 p. 

 Ricker, W. E. 



1954. Stock and recuitment. J. Fish. Res. Board Can. 11: 

 559-623. 

 Shepherd, J. G., J. G. Pope, and R. D. Cousens. 



1984. Variations in fish stocks and hypotheses concerning 

 their links with climate. Rapp. P.-V. Reun., Cons. Int. 

 Explor Mer 185:255-267. 

 Watters, G. M., and M. N. Maunder 



2001. Status of bigeye tuna in the eastern Pacific Ocean. 

 Inter-Am. Trop. Tuna Comm. Stock Assess. Rep. 1:109- 

 210. 



