Early Life History - Literature
Assigned Reading:
Cury, P., and C. Roy. 1989. Optimal environmental window and pelagic fish recruitment success in upwelling areas. Can. J. Fish. Aq. Sci. 46:670-680.
Hjort, J. 1926. Fluctuations in the year classes of important food fishes. J. du Cons. 1:5-38.
Houde, E. D. 1987. Fish early life dynamics and recruitment variability. Am. Fish. Soc. Symp. 2:17-29.
Other:
Browman, H. I., J.-F. St-Pierre, A. B. Skiftesvik and R. G. Racca (2003). Behaviour of Atlantic cod (Gadus morhua) larvae: An attempt to link maternal condition with larval quality. The Big Fish Bang: Proceedings of the 26th Annual Larval Fish Conference: 71-95.
Butler, J. L. 1991. Mortality and recruitment of pacific sardine, Sardinops sagax caerulea, larvae in the California Current. Can. J. Fish. Aqua. Sci. 48:1713-1723.
Clemmesen, C., V. Buhler, G. Carvalho, R. Case, G. Evans, L. Hauser, W. F. Hutchinson, O. S. Kjesbu, H. Mempel, E. Moksness, H. Otteraa, H. Paulsen, A. Thorsen and T. Svaasand. 2003. Variability in condition and growth of Atlantic cod larvae and juveniles reared in mesocosms: Environmental and maternal effects. J. Fish Biol 62: 706-723.
Cushing, D. H. 1974. The production cycle and numbers of marine fish. Pages 399-411 in F. R. Harden Jones, editor. Sea Fisheries Research. Wiley, New York.
Dower, J. F., T. J. Miller and W. C. Leggett (1997). The role of microscale turbulence in the feeding ecology of larval fish. Adv. Mar. Biol. 31: 169-220.
Folkvord, A. 2005. Comparison of size-at-age of larval Atlantic cod (Gadus morhua) from different populations based on size- and temperature-dependent growth models. Canadian Journal of Fisheries and Aquatic Sciences 62: 1037-1052.
Franks, P. J. S. and J. S. Jaffe. 2001. Microscale distributions of phytoplankton: Initial results from a two-dimensional imaging fluorometer, OSST. Marine Ecology-Progress Series 220: 59-72.
Fuiman, L. A., J. H. Cowan, M. E. Smith and J. P. O'Neal. 2005. Behavior and recruitment success in fish larvae: Variation with growth rate and the batch effect. Canadian Journal of Fisheries and Aquatic Sciences 62: 1337-1349.
Gargett, A. E. 1997. The optimal stability 'window': a mechanism underlying decadal fluctuations in North Pacific salmon stocks. Fish. Oceanogr. 6:109-117.
Gargett, A. E., M. Li, and R. Brown. 2001. Testing mechanistic explanations of observed correlations between environmental factors and marine fisheries. Canadian Journal of Fisheries and Aquatic Sciences 58:208-219.
Gerritsen, J., and J. R. Strickler. 1977. Encounter probabilities and community structure in zooplankton: A mathematical model. J. Fish. Res. Bd. Can. 34:73-82.
Gronkjaer, P., C. Clemmesen and M. St John. 1997. Nutritional condition and vertical distribution of Baltic cod larvae. J. Fish Biol 51: 352-369.
Gronkjaer, P. and M. Schytte. 1999. Non-random mortality of baltic cod larvae inferred from otolith hatch-check sizes. Marine Ecology-Progress Series 181: 53-59.
Houde, E. D. 1997. Patterns and trends in larval-stage growth and mortality of teleost fish. Journal of Fish Biology 51A:52-83.
Iles, T. D. and M. Sinclair. 1982. Atlantic herring: Stock discreteness and abundance. Sci. 215: 627-633.
Jennings, S., M. J. Kaiser, and J. D. Reynolds. 2001. Marine Fishery Ecology. in Source: Blackwell Science: Oxford OX2 0EL (UK), 432 pp; 2001. - Chapter 3. Fished species, life histories and distribution, p. 39-69.
Krautz, M. C., M. Gonzalez and L. R. Castro. 2003. Detection of anchoveta (Engraulis ringens Jenyns 1842) eggs in euphausiid diets using immunoassays (Elisa). J. Exp. Mar. Biol. Ecol 294: 27-39.
Lasker, R. 1975. Field criteria for survival of anchovy larvae: The relation between inshore chlorophyll maximum layers and successful first feeding. Fish. Bull. U.S. 73:953-1163.
Lasker, R. 1981. Factors contributing to variable recruitment of the northern anchovy (Engraudis mordax) in the California Currents contrasting years, 1925 through 1978. Rapp. R. -v. Reun. Cons. Int. Explor. Mer 178:375-388.
Lasker, R., editor. 1981. Marine fish larvae. Univ. Wash. Press, Seattle.
Logerwell Elizabeth, A., and E. Smith Paul. 2001. Mesoscale eddies and survival of late stage Pacific sardine (Sardinops sagax) larvae. Fisheries Oceanography [print] 10:13-25.
Logerwell, E. A., B. Lavaniegos, and P. E. Smith. 2001. Spatially-explicit bioenergetics of Pacific sardine in the Southern California Bight: are mesoscale eddies areas of exceptional prerecruit production? Progress in Oceanography 49:391-406. (note: this paper is the modeling paper and replaces Logerwell and Smith 2001, below, that I originally asked to be read; better yet, read both!)
Mackas, D. L., R. Goldblatt, and A. G. Lewis. 1998. Interdecadal variation in developmental timing of Neocalanus plumchrus populations at Ocean Station P in the subarctic North Pacific. Canadian Journal of Fisheries and Aquatic Sciences 55:1878-1893.
Mackas, D. L., and A. Tsuda. 1999. Mesozooplankton in the eastern and western subarctic Pacific: community structure, seasonal life histories, and interannual variability. Progress in Oceanography 43:335-363.
Mackas, D. L., R. E. Thomson, and M. Galbraith. 2001. Changes in the zooplankton community of the British Columbia continental margin, 1985-1999, and their covariation with oceanographic conditions. Canadian Journal of Fisheries and Aquatic Sciences 58:685-702.
MacKenzie B., R., J. Miller Thomas, S. Cyr, and C. Leggett William. 1994. Evidence for a dome-shaped relationship between turbulence and larval fish ingestion rates. Limnology & Oceanography 39:1790-1799.
MacKenzie, B. R., and T. Kiørboe. 1995. Encounter rates and swimming behavior of pause-travel and cruise larval fish predators in calm and turbulent laboratory environments. Limnol. Oceanongr. 40:1278-1289.
MacKenzie B. R., and T. Kiorboe. 2000. Larval fish feeding and turbulence: A case for the downside. Limnology & Oceanography 45:1-10.
MacKenzie, B. R., R. A. Myers and K. G. Bowen. 2003. Spawner-recruit relationships and fish stock carrying capacity in aquatic ecosystems. Marine Ecology-Progress Series 248: 209-220.
Marshall, C. T., N. A. Yaragina, Y. Lambert and O. S. Kjesbu. 1999. Total lipid energy as a proxy for total egg production by fish stocks. Nature 402: 288-290.
May, R. C. 1974. Larval mortality in marine fishes and the critical period concept. Pages 3-20 in J. H. S. Blaxter, editor. The early life history of fish. Springer-Verlag, New York.
McGurk Michael, D. 1986. Natural mortality of marine pelagic fish eggs and larvae: role of spatial patchiness. Mar. Ecol. Prog. Ser. 34:227-242.
Mariani, P., V. Botte and M. R. d'Alcala. 2005. An object-oriented model for the prediction of turbulence effects on plankton. Deep-Sea Res. Part II-Top. Stud. Oceanogr 52: 1287-1307.
Marshall, C. T., C. L. Needle, N. A. Yaragina, A. M. Ajiad and E. Gusev. 2004. Deriving condition indices from standard fisheries databases and evaluating their sensitivity to variation in stored energy reserves. Canadian Journal of Fisheries and Aquatic Sciences 61: 1900-1917.
Megrey, B. A. and S. Hinckley. 2001. Effect of turbulence on feeding of larval fishes: A sensitivity analysis using an individual-based model. ICES Journal of Marine Science 58: 1015-1029.
Methot, R. D. 1983. Seasonal variation in survival of larval Engraulis mordax estimated from the age distribution of juveniles. U.S. Natl. Mar. Fish. Serv. Bull. 81:741-750.
Mullin, M. M., E. R. Brooks, F. M. H. Reid, J. Napp, and E. F. Stewart. 1985. Vertical structure of near shore plankton off Southern California: A storm and a larval fish food web. Fish. Bull. U.S. 83:151-170.
O'Connell, C. P. 1980. Percentage of starving northern anchovy, Engraulis mordax, larvae in the sea as estimated by histological methods. Fish. Bull. 78.
Pepin, P. 2004. Early life history studies of prey-predator interactions: Quantifying the stochastic individual responses to environmental variability. Canadian Journal of Fisheries and Aquatic Sciences 61: 659-671.
Peterman, R. M., and M. J. Bradford. 1987. Wind speed and mortality rate of a marine fish the northern anchovy Engraulis mordax. Science (Washington D C) 235:354-356.
Peterman, R. M., M. J. Bradford, N. C. H. Lo, and R. D. Methot. 1988. Contribution of early life stages to interannual variability in recruitment of northern anchovy (Engraulis mordax). Can. J. Fish. Aquat. Sci. 45:8-16.
Pitchford, J. W., A. James and J. Brindley. 2005. Quantifying the effects of individual and environmental variability in fish recruitment. Fisheries Oceanography 14: 156-160.
Platt, T., C. Fuentes-Yaco, and K. T. Frank. 2003. Spring algal bloom and larval fish survival. Nature 423:398-399.
Riveiro, I., C. Guisande, I. Maneiro and A. R. Vergara. 2004. Parental effects in the european sardine Sardina pilchardus. Marine Ecology-Progress Series 274: 225-234.
Rothschild, B. J., and T. R. Osborn. 1988. Small-scale turbulence and plankton contact rates. J. Plank. Res. 10:465-474.
Rowe, S., J. A. Hutchings, D. Bekkevold and A. Rakitin. 2004. Depensation, probability of fertilization, and the mating system of atlantic cod (Gadus morhua l.). ICES Journal of Marine Science 61: 1144-1150.
Sundby, S. 1997. Turbulence and ichthyoplankton: influence on vertical distributions and encounter rates. Sci. Mar. 61 (Supl. 1):159-176.
Sundby, S., and P. Fossum. 1990. Feeding conditions of Arcto-norwegian cod larvae compared with the Rothshild-Osborn theory on small-scale turbulence and plankton contact rates. J. Plank. Res. 12:1153-1162.
Takasuka, A., I. Aoki and I. Mitani. 2003. Evidence of growth-selective predation on larval japanese anchovy Engraulis japonicus in Sagami Bay. Marine Ecology-Progress Series 252: 223-238.
Theilacker G., H., N. C. H. Lo, and W. Townsend Annie. 1993. An immunochemical approach to quantifying predation by euphausiids on the early stages of anchovy. Marine Ecology-Progress Series 92:35-50.
Theilacker Gail, H., and W. Shen. 1993. Calibrating starvation-induced stress in larval fish using flow cytometry. in Fuiman, L. A.: Ed. American Fisheries Society Symposium; Water quality and the early life stages of fishes. 14. 1993. 85-94.
Visser, A. W. and B. R. MacKenzie. 1998. Turbulence-induced contact rates of plankton: The question of scale. Marine Ecology-Progress Series 166: 307-310.
Wroblewski, J. S., and J. G. Richman. 1987. The non-linear response of plankton to wind mixing events - implications for survival of larval northern anchovy. J. Plankton Res. 9:103-123.
Wroblewski, J., J. Richman, and G. L. Mellor. 1989. Optimal wind conditions for the survival of larval northern anchovy, Engraulis mordax: A modeling investigation. Fish. Bull. 87:387-395.