Williams et al.: Scales of spatial variation in demography of a large coral-reef fish 



683 



tics offish populations. Bull. Fish. Res. Board Can. 191, 

 382 p. 

 Roberts, C. M., and N. V. C. Polunin. 



1991. Are marine reserves effective in management of reef 

 fisheries? Rev. Fish Biol. Fish. 1:65-91. 



Russ, G. R., A. C. Aleala, and A. S. Cabanban. 



1992. Marine reserves and fisheries management on coral 

 reefs with preliminary modeling of the effects of yield per 

 reci-uit. Proc. of the 7"^ int. coral reef svmp. 2, p. 988-995. 

 Univ. Guam, Marine Lab., Mangilao, Guam. 



Sale, P. F. 



1998. Appropriate spatial scales for studies of reef-fish 

 ecology. Aust. J. Ecol. 23:202-208. 

 Schnute, J. 



1981. A versatile growth model with statistically stable 

 parameters. Can. J. Fish. Aquat. Sci. 38:1128-1140. 



Sheperd, S. A., and L. D. Brown. 



1993. What is an abalone stock: implications for the role of refii- 

 gia in conservation. Can. J. Fish. Aquat. Sci. 50:2001-2009. 

 Shulman, M. J., and E. Bermingham. 



1995. Early life histories, ocean currents, and the population 

 genetics of Caribbean reef fishes. Evolution 49:897-910. 

 van Herwerden, L., J. Benzie, and C. R. Davies. 



In press. Microsatellite variation and population genetic 

 structure of red throat emperor {Lethrinus miniatus) in 

 the Great Barrier Reef Australia. J. Fish Biol. 

 Walters, C. J., and R. Bonfil. 



1999. Multispecies spatial assessment models for the Brit- 

 ish Colombia groundfish trawl fishery. Can. J. Fish. Aquat. 

 Sci. 56:601-628. 



