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Fishery Bulletin 105(1) 



Literature cited 



Baskerville-Bridges, B., J. C. Lindberg, and S. I. Dorsoshov. 



2004. The effect of light intensity, algal concentration, 

 and prey density on the feeding behavior of delta smelt 

 larvae. In Proceedings of the symposium early life his- 

 tory of fishes in the San Francisco estuary and watershed 

 (F. Feyrer, ed.), p. 219-228. Am. Fish. Soc, Santa 

 Cruz, CA. 



Bennett, W. A. 



2005. Critical assessment of the delta smelt population 

 in the San Francisco estuary, California. San Franc. 

 Estuary Watershed Sci. 3:(2) Article 1. 



Bennett, W. A., and P. B. Moyle. 



1996. Where have all the fishes gone? Interactive factors 

 producing fish declines in the Sacramento-San Joaquin 

 estuary. In San Francisco Bay: The ecosystem: further 

 investigations into the natural history of San Francisco 

 Bay and Delta with reference to the influence of man 

 (J. T. Hollibaugh, ed.), p. 519-542. Pacific Division 

 of the American Association for the Advancement of 

 Science, San Fransisco, CA. 

 Campana, S. E. 



1990. How reliable are growth back-calculations based 



on otoliths? Can. J. Fish. Aquat. Sci. 47:2219-2227. 



2001. Accuracy, precision, and quality control in age 



determination, including a review of the use and abuse 



of age validation methods. J. Fish Biol. 59:197-242. 



Campana, S. E., and J. D. Neilson. 



1985. Microstructure of fish otoliths. Can. J. Fish. 

 Aquat. Sci. 42:1014-1032. 

 Cock, A. G. 



1966. Genetical aspects of metrical growth and form in 

 animals. Q. Rev. Biol. 41:131-190. 

 Fujiwara, M., B. E., Kendall. R. M., Nisbet, and W. A. Bennett. 

 2005. Analysis of size trajectory data using an energetic- 

 based growth model. Ecology 86:1441-1451. 

 Gould, S. J. 



1966. Allometry and size in ontogeny and phylogeny. Biol. 

 Rev. 41:587-640. 

 Hare, J. A., and R. K. Cowen. 



1995. Effect of age, growth rate, and ontogeny on the 

 otolith size-fish size relationship in bluefish. Pomato- 

 mus saltatrix, and the implications for back-calculation 

 of size in fish early life history stages. Can. J. Fish. 

 Aquat. Sci. 52:1909-1922. 

 Hirose, T., and K. Kawaguchi. 



2001. Daily otolith increments and growth of reared 

 chika Hypomesiis japonicus larvae. B. Jpn. Natl. Fish. 

 Res. Inst.:141-144. 

 Jenkins, G. P. 



1987. Age and growth of co-occurring larvae of two 

 flounder species, Rhombosolea tapirina and Ammotre- 

 tis rostratus. Mar. Biol. 95:157-165. 

 McAllister, D. E. 



1963. A revision of the smelt family, Osmeridae. National 



Museum of Canada. Bulletin no. 191. Biological Series, 

 no. 71, 53 p. Ottawa, Dept. of Northern Affairs and 

 National Resources, Ottawa, Canada. 

 Morita, K., and T. Matsuishi. 



2001. A new model of growth back-calculation incorporat- 

 ing age effect based on otoliths. Can. J. Fish. Aquat. 

 Sci. 58:1805-1811. 



Moyle, P. B. 



2002. Inland fishes of California: revised and expanded, 

 502 p. Univ. California Press, Berkeley, CA. 



Moyle, P. B., B. Herbold, D. E. Stevens, and L. W. Miller. 



1992. Life history and status of delta smelt in the Sac- 

 ramento-San Joaquin estuary, California. Trans. Am. 

 Fish. Soc. 121:67-77. 

 Ohama, H. 



1990. Age determination of Japanese smelt with daily 

 otolith increment. Nippon Suisan Gakkaishi 56:1053- 

 1057. 

 Otterlei, E., A. Folkvord, and G. Nyhmammer. 



2002. Temperature-dependent otolith growth of larval 

 and early juvenile Atlantic cod (Gadus morhua). ICES 

 J. of Mar. Sci. 59:401-410. 

 Rice, J. A., L. B. Crowder, and M. E. Holey. 



1987. Exploration of mechanisms regulating larval 

 survival in Lake Michigan [USA] bloater: A recruit- 

 ment analysis based on characteristics of individual 

 larvae. Trans. Am. Fish. Soc. 116:703-718. 

 Sepulveda, A. 



1994. Daily growth increments in the otoliths of Euro- 

 pean smelt Osmerus eperlanus larvae. Mar. Ecol. Prog. 

 Ser. 108:33-42. 



Sirois, P., and J. J. Dodson. 



2000. Critical periods and growth-dependent survival of 

 larvae of an estuarine fish, the rainbow smelt Osmerus 

 mordax. Mar. Ecol. Prog. Ser. 203:233-245. 



Sirois, P., F. Lecomet, and J. J. Dodson. 



1998. An otolith-based back-calculation method to 

 account for time-varying growth rate in rainbow smelt 

 (Osmerus mordax) larvae. Can. J. Fish. Aquat. Sci. 

 55:2662-2671. 



Sokal, R. R.,andJ. FRohlf 



1973. An introduction to biostatistics, 368 p. W.H. Free- 

 man, San Francisco, CA. 

 Sweetnam, D. A. 



1999. Status of delta smelt in the Sacramento-San Joa- 

 quin estuary. Cal. Fish Game 85:22-27. 



USFWS (United States Fish and Wildlife Service). 



1995. Sacramento-San Joaquin Delta Native Fishes 

 Recovery Plan, 142 p. United States Fish and Wild- 

 life Service, 911 NE 11''' Avenue, Portland, Oregon 

 97232-4181. 



Vigliola, L., M. Harmelin-Vivien, and M. G. Meekan. 



2000. Comparison of techniques of back-calculation of 

 growth and settlement marks from the otoliths of three 

 species of Diplodus from the Mediterranean Sea. Can. 

 J. Fish. Aquat. Sci. 57:1291-1299. 



