Kellison and Eggleston: Modeling release scenarios for Paraltchthys dentatus 



91 



Acknowledgments 



We thank Brian Burke (NCSU) for tutelage in the use of 

 Visual Basic. Mike Denson (South Carolina Department 

 of Natural Resources) and Pete Schuhmann (UNC-Wilm- 

 ington ) greatly contributed to the editing of an earlier ver- 

 sion of this manuscript. Mark Wuenschel, Michael Martin, 

 Brian Degan, Lisa Etherington. and Mikael Currimjoe pro- 

 vided valuable laboratory and field assistance necessary 

 for parameter estimation. This project was partially funded 

 by the University of North Carolina at Wilmington/North 

 Carolina State University Cooperative Ph.D. Program, and 

 a grant from the National Science Foundation (OCE 97- 

 34472) to D. Eggleston. 



Literature cited 



Adams, C. M.. and R. S. Pomeroy. 



1991. Scale economies in hard clam aquaculture. J. Shell- 

 fish Res. 10:307-308. 

 Barbeau. M. A., and H. Caswell. 



1999. A matrix model for short-term dynamics of seeded 

 populations of sea scallops. Ecol. Appl. 9:266-287. 

 Bax, N. J. 



1983. Early marine mortality of marked juvenile chum 

 salmon iOncorhynchus keta) released into Hood Canal, 

 Puget Sound, Washington, in 1980. Can. J. Fish. Aquat. 

 Sci. 40:426-435. 



Black, R. W. II, and N. G. Hairston Jr. 



1988. Predator driven changes in community structure. 

 Oecologia 77:468-479. 



Blankenship, H. L., and K. M. Leber. 



1996. A responsible approach to marine stock 

 enhancement. In Developing and sustaining world fish- 

 eries resources: the state of science and management (D. A. 

 Hancock, D. C. Smith, A. Grant, and J. P. Beumer, eds. I, p. 

 485^91. CSIRO, Collingwood, Australia. 



Botsford, L. W„ and R. C. Hobbs. 



1984. Optimal fishery policy with artificial enhancement 

 through stocking: California's white sturgeon as an 

 example. Ecol. Model. 23:293-312. 



Buckel, J. A., D. O. Conover, N. D. Steinberg, and K. A. McKown. 



1999. Impact of age-0 bluefish iPomatomus saltatrix) preda- 

 tion on age-0 fishes in the Hudson River estuary: evidence 

 for density-dependent loss of juvenile striped bass iMorone 

 saxatilis). Can. J. Fish. Aquat. Sci. 56:275-287. 



Burke, J. S. 



1995. Role of feeding and prey distribution on summer and 

 southern flounder in selection of estuarine nursery habitats. 

 J. Fish Biol. 47:355-366 

 Burke. J. S., J. M. Miller, and D. E. Hoss. 



1991. Immigration and settlement pattern of Paralichthys 

 dentatus and P. lethostigma in an estuarine nursery ground. 

 North Carolina, U.S.A. Neth. J. Sea Res. 27:393^405. 

 Burke, J. S., J. P. Monaghan, and S. Yokoyama. 



2000. Efforts to understand stock structure of summer 

 flounder {Paralichthys dentatus) in North Carolina, USA. 

 J. Sea Res. 44:111-122. 



Burke, J. S., T. Seikai, Y. Tanaka, and M. Tanaka. 



1999. Experimental intensive culture of summer flounder, 

 Paralichthys dentatus. Aquaculture 176: 135-144. 

 Bystroem, P., and E. Garcia-Berthou. 



1999. Density dependent growth and size specific competi- 

 tive interactions in young fish. Oikos 86: 217-232. 



Cowx, I. G. 



1999. An appraisal of stocking strategies in the light of devel- 

 oping country constraints. Fish. Manag. Ecol. 6: 21-34. 

 Elis, T., and R. N. Gibson. 



1995. Size-selective predation of 0-group flatfishes in a 

 Scottish coastal nursery ground. Mar. Ecol. Prog. Ser. 

 127:27-37. 



FAO (Food and Agriculture Organization of the United Nations). 



1998. Summary: The state of world fisheries and aquacul- 

 ture. http://www.fao.org/WAICENT/FAOINFO/FISHERY/ 

 FISHERY.HTM. [Accessed: June 1998.1 



Froese, R., and D. Pauly, eds. 



2001. FishBase. World wide web electronic publication. 

 http://www.fishbase.org. [Accessed: January 2001.] 

 Fujii, T, and M. Noguchi. 



1996. Feeding and growth of Japanese flounder {Paralich- 

 thys olivaceus) in the nursery ground. In Proceedings of 

 an international workshop: survival strategies in early life 

 stages of marine resources, p. 141-154. A. A. Balkema 

 Publishers, Brookfield, VT. 



Furuta, S. 



1999. Seasonal changes in abundance, length distribution, 

 feeding condition and predation vulnerability of juvenile 

 Japanese flounder, Paralichthys olivaceus, and prey mysid 

 density in the Tottori coastal area. Nippon Suisan Gak- 

 kaishi 65:167-174. 



Garcia, L. MaB.. R. F. Agbayani, M. N. Duray, 

 G. V. Hilomen-Garcia, A. C. Emata, and C. L. Marie. 



1999. Economic assessment of commercial hatchery produc- 

 tion of milkfish (Chanos chanos Forsskal) fry. J. Applied 

 Ichthyol. 15:70-74. 



Hansen, M. J., M. A. Bozek, J. R. Newby, S. P. Newman, and 

 M. D. Staggs. 



1998. Factors affecting recruitment of walleyes in Escanaba 

 Lake, Wisconsin. 1958-1996. North Am. J. Fish. Manag. 

 18:764-774. 

 Heppell, S. S., and L. B. Crowder. 



1998. Prognostic evaluation of enhancement programs using 

 population models and life history analysis. Bull. Mar. Sci. 

 62:495-507. 

 Hernandez-Llamas, A. 



1997. Management strategies of stocking density and length 

 of culture period for the Catarina scallop Argopecten circu- 

 lars (Sowerby): A bioeconomic approach. Aquacult. Res. 

 28:223-229. 



Hobbs, R. C, L. W Botsford, and R. G. Kope. 



1990. Bioeconomic evaluation of the culture/stocking concept 

 for California halibut. The California halibut. Paralichthys 

 californicus, resource and fisheries, 1990. p. 417^150. Cal. 

 Dep. Fish Game Fish. Bull., vol. 174. 

 Holling, C. S. 



1959. Some characteristics of simple types of predation and 

 parasitism. Canadian Entomologist 91: 385-398. 

 Houde, E. D. 



1987. Fish early life history dynamics and recruitment 

 variability. Am. Fish. Soc. Symp. 2:17-29. 

 Howson, U. A. 



2000. Nursery habitat quality for juvenile paralichthyid 

 flounders: Experimental analysis of the effects of physico- 

 chemical parameters. Ph.D. diss., 129 p. LTniv. Delaware, 

 Newark, DE. 129 p. 



Hurst, T P.. and D. O. Conover. 



1998. Winter mortality of young-of-the-year Hudson 

 River bass (Morone saxatilis): Size-dependent patterns 

 and effects on recruitment. Can. J. Fish Aquat. Sci. 55: 

 1122-1130. 



