Abstract
Variable recruitments of striped bass were hypothesized to be caused by factors influencing growth and survival of larvae. Eggs and larvae were collected in the Potomac River from 1987 to 1989 and in the Upper Chesapeake Bay in 1988 and 1989 to estimate abundances, larval growth and survival rates, and environmental variability. Larval batch dates, ages, and growth and mortality rates were estimated from analysis of otolith daily increments. A retrospective analysis of Potomae River ichthyoplankton data from 1974–1977 and 1980–1982 provided additional estimates of larval abundances and vital rates for comparative purposes. Significant correlations betweens vital rates (growth and mortality) and abundances of striped bass larvae, and the Maryland juvenile recruitment index indicated that recruitment level may be fixed during the larval stage. The ratio of mean daily growth and mortality rates (G:Z) of larvae in the Potomac River for 1987–1989 was highest in 1987 when the juvenile index was relatively high, and was lower in 1988 and 1989 when juvenile indices were low. In the Upper Bay, mean larval growth rate, survival rate, and the G:Z ratio were highest in 1989 when the juvenile index also was high. In both tributaries, abundances of late-stage larvae (8 mm SL) were correlated with juvenile-stage recruitment indices. The retrospective analysis provided additional evidence that Potomac River larval abundances and G:Z ratios were positively correlated with juvenile recruitment indices in the 1974–1977 and 1980–1982 periods. Conditions favoring striped bass larval abundance and potential recruitment differed between the Potomac River and the Upper Bay. In the Potomac, late-stage larval abundances coincided with late-season water temperatures that were relatively warm, low river discharges and high, late-season densities of zooplankton prey, which favored larval growth. In the Upper Bay, the high abundance of late-stage larvae in 1989 relative to 1988 was attributed to a higher egg production that was coincident with high zooplankton abundances.
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Literature Cited
Albrecht, A. B. 1964. Some observations on factors associated with survival of striped bass eggs and larvae.California Fish and Game 50:100–113.
Beaven, M. S. andJ. A. Mihursky. 1979. Food and feeding habits of larval striped bass: An analysis of larval striped bass stomachs from 1976 Potomac estuary collections. Reference Number [UMCEES]CBL 79-045, Chesapeake Biological Laboratory, Solomons, Maryland.
Boynton, W. R., E. M. Setzler, K. V. Wood, H. H. Zion, andM. Homer. 1977. Final report on Potomac River fisheries study. Ichthyoplankton and juvenile investigations. University of Maryland, CEES Reference Number 77–169-CBL. Chesapeake Biological Laboratory, Solomons, Maryland.
Buckler, D. R., P. M. Merhle, L. Cleveland, andF. W. Dweyer. 1987. Influence of pH on the toxicity of aluminum and other organic contaminants to East Coast striped bass.Water, Soil and Air Pollution 35:97–106.
Burton, W. H., S. B. Weisburg, A. Brindley, andJ. Gurley. 1992. Early life stage survival of striped bass in the Delaware River, USA.Archives of Environmental Contamination and Toxicology 23:333–338.
Campana, S. E. 1990. How reliable are growth back-calculations based on otoliths?Canadian Journal of Fisheries and Aquatic Sciences 47:2219–2227.
Campana, S. E. and C. M. Jones. 1992. Analysis of otolith microstructure data, p. 73–100.In David K. Stevenson and Steven E. Campana (eds.), Otolith Microstructure and Analysis.Canada Special Publication Fisheries and Aquatic Sciences 117.
Chesney, E. J., Jr. 1989. Estimating the food requirements of striped bass larvae,Morone saxatilis: The effects of light, turbidity and turbulence.Marine Ecology Progress Series 53:191–200.
Chesney, E. J., Jr. 1993. A model of survival and growth of striped bass larvae,Morone saxatilis, in the Potomac River, 1987.Marine Ecology Progress Series 92:15–25.
Cowan, J. H., Jr.,K. A. Rose, E. S. Rutherford, andE. D. Houde. 1993. Individual- based simulation model of young-of-the-year striped bass population dynamics. II. Factors affecting recruitment in the Potomac River, Maryland.Transactions of the American Fisheries Society 122:439–458.
Crecco, V. A. andT. F. Savoy. 1985. Effects of biotic and abiotic factors on growth and relative survival of young American shad,Alosa sapidissima, in the Connecticut River.Canadian Journal of Fisheries and Aquatic Science 42:1640–1648.
Cronin, W. B. 1971. Volumetric, areal and tidal statistics of the Chesapeake Bay estuary and its tributaries. Chesapeake Bay Institute Special Report 20, University of Maryland Center for Estuarine and Environmental Studies, Solomons, Maryland.
Dey, W. P. 1981. Mortality and growth of young-of-the-year striped bass in the Hudson River estuary.Transactions of the American Fisheries Society 110:151–157.
Doroshey, S. I. 1970. Biological features of the eggs, larvae and young of the striped bass [Roccus saxatilis (Walbaum)] in connection with the problem of its acclimatization in the USSR.Journal of Ichthyology 10:235–248.
Eldridge, M. B., J. A. Whipple, D. Eng, M. J. Bowers, andB. M. Jarvis. 1981. Effects of food and feeding factors on laboratory-reared striped bass larvae.Transactions of the American Fisheries Society 110:111–120.
Essic, R. J. andC. F. Cole. 1986. Methods of estimating larval fish mortality from daily increments in otoliths.Transactions of the American Fisheries Society 115:34–40.
Goodyear, C. P. 1985. Relationship between reported commercial landings and abundance of young striped bass in Chesapeake Bay, Maryland.Transactions of the American Fisheries Society 114:92–96.
Goodyear, C. P., J. E. Cohen, andS. W. Christensen. 1985. Maryland striped bass: Recruitment declining below replacement.Transactions of the American Fisheries Society 114:146–151.
Hall, L. W., Jr. 1987. Acidification effects on larval striped bass,Morone saxatilis, in Chesapeake Bay tributaries.Water, Air, and Soil Pollution 35:87–96.
Hall, L. W., Jr. 1988. Studies of striped bass in three spawning habitats.Marine Pollution Bulletin 19:478–486.
Hall, L. W., Jr. 1991. A synthesis of water quality and contaminants data on early life stages of striped bass,Morone saxatilis.Reviews in Aquatic Science 4:261–288.
Hall, L. W., Jr.,S. J. Bushong, M. C. Ziegenfuss, andW. S. Hall. 1988. Concurrent mobile on-site and in-situ striped bass contaminant and water quality studies in the Choptank River and Upper Chesapeake Bay.Environmental Toxicology and Chemistry 7:815–830.
Hall, L. W., Jr.,W. S. Hall, S. J. Bushong, andR. L. Herman. 1987a. In-situ striped bass (Morone saxatilis) contaminant and water quality studies in the Potomac River.Aquatic Toxicology 10:73–99.
Hall, L. W., Jr.,A. E. Pinckney, R. L. Herman, andS. E. Finger. 1987b. Survival of striped bass larvae and yearlings in relation to contaminants and water quality in the Upper Chesapeake Bay.Archives of Environmental Contaminants and Toxicology 16: 391–400.
Hall, L. W., Jr.,A. E. Pinckney, L. O. Horseman, andS. E. Finger. 1985. Mortality of striped bass larvae in relation to contaminants and water quality in a Chesapeake Bay tributary.Transactions of the American Fisheries Society 114:861–868.
Hall, L. W., Jr.M. C. Ziegenfus, S. J. Bushong, M. A. Unger, andR. L. Herman. 1989. Studies on contaminant and water quality effects on striped bass prolarvae and yearlings in the Potomac River and Upper Chesapeake Bay in 1988.Transactions of the American Fisheries Society 118:619–629.
Hall, L. W., Jr.M. C. Ziegenfuss, S. A. Fisher, J. A. Sullivan, andD. A. Palmer. 1993. The influence of contaminant and water quality conditions on larval striped bass in the Potomac River and Upper Chesapeake Bay in 1990: An in-situ study.Archives of Environmental Contaminants and Toxicology 24:1–10.
Heinle, D. R. 1969. Temperature and zooplankton.Chesapeake Science 10:186–209.
Heinle, D. R. andD. A. Flemer. 1975. Carbon requirements of a population of the estuarine copepodEurytemora affinis.Marine Biology 31:235–247.
Heinlf, D. R., D. A. Flemer, andJ. F. Ustach. 1976. Contribution of tidal marshlands to mid-Atlantic estuarine food chains. p. 309–320.In M. Wiley (ed.), Estuarine Processes, Volume II, Circulation, Sediments, and Transfer of Material in the Estuary. Academic Press, New York.
Houde, E. D. andL. Lubbers. 1986. Survival and growth of striped bass,Morone saxatilis, andMorone hybrid larvae: Laboratory and pond enclosure experiments.Fishery Bulletin, U.S. 84:905–914.
Houde, E. D. and L. G. Morin. 1990. Temperature effects on otolith daily increment deposition in striped bass and white perch larvae. p. 57–81.In E. D. Houde, E. S. Rutherford, R. M. Nyman, E. J. Chesney, Jr., T. A. Newberger, D. M. Monteleone, and, L. G. Morin (eds.), Egg Production and Larval Dynamics of Striped Bass and White Perch in the Potomac River and Upper Chesapeake Bay. Volume II. Report to the Maryland Department of Natural Resources, Contract No. F145-88-008. University of Maryland, Center for Environmental and Estuarine Studies, Reference Number [UMCEES] CBL 90-114. Solomons, Maryland.
Houde, E. D. and E. S. Rutherford. 1992. Egg production, spawning biomass and factors influencing recruitment of striped bass in the Potomac River and Upper Chesapeake Bay. Report to Maryland Department of Natural Resources, Contract No. CB89-C01-003. University of Maryland, Center for Environmental and Estuarine Studies, Reference Number [UMCEES] CBL 92-017. Solomons, Maryland.
Jones, C. andE. B. Brothers. 1987. Validation of the otolith increment aging technique for striped bass,Morone saxatilis, larvae reared under suboptimal feeding conditions.Fishery Bulletin, U.S. 85:171–178.
Kernehan, R. J., M. R. Headrich, andR. E. Smith. 1981. Early life history of striped bass in the Chesapeake and Delaware Canal and vicinity.Transactions of the American Fisheries Society 110:137–150.
Kohlenstein, L. C. 1980. Aspect of the population dynamics of striped bass (Morone saxatilis) spawning in the Maryland tributaries of the Chesapeake Bay. Ph.D. Dissertation. Johns Hopkins University, Baltimore, Maryland.
Leak, J. C. andE. D. Houde. 1987. Cohort growth and survival of bay anchovyanchoa mitchilli larvae in Biscayne Bay, Florida.Marine Ecology Progress Series 37:109–122.
Logan, D. T. 1985. Environmental variation and striped bass population dynamics: A size dependent mortality model.Estuaries 8:28–38.
Low, A. F. 1986. Striped bass egg and larva survey in the Sacramento-San Joaquin estuary. California Department of Fish and Game. Unreferenced report, November 1986. California Department of Fish and Game, Stockton, California.
Martin, F. D. and E. M. Setzler-Hamilton. 1983. Assessment of larval striped bass stock in the Potomac estuary. Final report to United States National Marine Fisheries Service. Reference Number [UMCEES]CBL 83-55. Solomons, Maryland.
Methot, R. D., Jr. 1983. Seasonal variation in survival of larval northern anchovy,Engraulis mordaux, estimated from the age distribution of juveniles.Fishery Bulletin, U.S. 81:741–750.
Olney, J. E., G. C. Grant, F. E. Schultz, C. L. Cooper, andJ. Hageman. 1983. Pterygiophore-interdigitation patterns in larvae of fourMorone species.Transactions of the American Fisheries Society 12:525–531.
Olney, J. E., J. D. Field, andJ. C. McGovern. 1991. Striped bass egg mortality, production and female biomass in Virginia rivers, 1980–1989.Transactions of the american Fisheries Society 120:354–367.
Pace, M. L., S. B. Baines, H. Cyr, andJ. A. Downing. 1993. Relationships among early life stages ofMorone americana andMorone saxatilis from long-term monitoring of the Hudson River.Canadian Journal of Fisheries and Aquatic Sciences 50:1976–1985.
Polcar, T. T. 1977. Striped bass ichthyoplankton abundance, mortality and production estimation for the Potomac River population. p. 110–126.In W. Van Winkle (ed.), Proceedings of a Conference on Assessing the Effects of Power Plant-induced Mortality on Fish Populations. Pergamon Press, New York.
Polcar, T. T. 1982. Factors affecting recruitment of Potomac River striped bass and resulting implications for management, p. 427–442.In V. S. Kennedy (ed.), Estuarine Comparisons. Academic Press., New York.
Polcar, T. T., J. K. Summers, R. A. Cummins, K. A. Rose, andD. G. Heimbuch. 1985. Investigations of relationships among pollutant loadings and fish stock levels in northeastern estuaries.Estuaries 8:20–29.
Radtke, R. L. 1984. Formation and structural composition of larval striped mullet otoliths.Transactions of the American Fisheries Society 113:186–191.
Rice, J. A., I. B. Crowder, andM. E. Holey. 1987. Exploration of mechanisms regulating larval survival in Lake Michigan bloater: A recruitment analysis based on characteristics of individual larvae.Transactions of the American Fisheries Society 116: 703–718.
Rogers, B. A. andD. T. Westin. 1981. Laboratory studies on effects of temperature and delayed initial feeding on development of striped bass larvae.Transaction of the Americal Fisheries Society 110:100–110.
Rogers, B. A., D. T. Westin and S. Saila. 1977. Life stage duration in Hudson River striped bass. University of Rhode Island, Marine Technical Report Number 31. Kingston, Rhode Island.
Rutherford, E. S. 1992. Relationship of larval stage growth and mortality to recruitment of striped bass,Morone saxatilis, in Chesapeake Bay. Ph.D. Dissertation, University of Maryland, College Park, Maryland.
Rutherford, E. S. andE. D. Houde. 1995. The influence of temperature on cohort-specific growth, survival and recruitment of larval striped bass,Morone saxatilis, in Chesapeake Bay.Fishery Bulletin 93:315–332.
Schaefer, R. K., R. H. Bradford, J. L. Markhm, andH. T. Hornick. 1991. Characterization of striped bass stocks in Maryland. p. 1–74.In H. T. Hornick, (project leader). Investigation of striped bass in Chesapeake Bay. United States Fish and Wildlife Service Federal Aid Project F-42-R-3, Maryland Department of Natural-Resources, Tidewater Administration, Annapolis, Maryland.
Secor, D. H. (1990). The early life history of natural and hatchery-produced striped bass,Morone saxatilis (Walbaum). Ph.D. Dissertation. University of South Carolina, Columbia, South Carolina.
Secor, D. H. andJ. M. Dean. 1989. Somatic growth effects on the otolith-fish size relationship in young pond-reared striped bass,Morone saxatilis (Walbaum).Canadian Journal of Fisheries and Aquatic Sciences 46:113–121.
Secor, D. H. andJ. M. Dean 1992. Comparison of otolithbased back-calculation methods to determine individual growth histories of striped bass,Morone saxatilis.Canadian Journal of Fisheries and Aquatic Sciences 49:1439–1454.
Secord, D. H. andE. D. Houde. 1995. Temperature effects on the timing of striped bass egg production, larval viability and recruitment potential in the Patuxent River (Chesapeake Bay).Estuaries 18:527–544.
Secor, D. T., E. D. Houde, andD. M. Moteleone. 1995. A mark-release experiment on larval striped bassMorone saxatilis in a Chesapeake Bay tributary.ICES Journal of Marine Science 52:87–101.
Setzler-Hamilton, E. M., W. R. Boynton, J. A. Mihursky, T. T. Polgar, andK. V. Wood. 1981. Spatial and temporal distribution of striped bass eggs, larvae, and juveniles in the Potomac estuary.Transactions of the American Fisheries Society 110 121–136.
Setzler-Hamilton, E. M., J. A. Mihursky, K. V. Wood, W. R. Boynton, D. Shelton, M. Homer, S. King, and W. Caplins. 1980. Potomac estuary fisheries program, ichthyoplankton and juvenile investigations. 1977 Final Report to Maryland Department of Natural Resources, Power Plant Siting Program. University of Maryland Reference Number [UMCEES]CBL 79-202, Solomons, Maryland.
Stevens, D. E. 1977. Striped bass (Morone saxatilis) year class strength in relation to river flow in the Sacramento-San Joaquin estuary.Transactions of the American Fisheries Society 106: 34–42.
Summers, J. K. andK. A. Rose. 1987. The role of interactions among environmental conditions in controlling historical fisheries variability.Estuaries 10:255–266.
Takacs, R. L. 1992. Early life history ofMorone saxatilis andM. americana: Ecology, feeding biology and larval conditions three tributaries of Chesapeake Bay. M.S. Thesis, University of Maryland, College Park, Maryland.
Tsai, C.-F. 1991. Prey density requirements of the striped bass,Morone saxatilis (Walbaum), larvae.Estuaries 14:207–217.
Tsai, C.-F., M. Wiley, andA.-L. Chai. 1991. Rise and fall of the Potomac River striped bass stock: A hypothesis of the role of sewage.Transactions of the American Fisheries Society 120:1–22.
Ulanowicz, R. E. andT. T. Polgar. 1980. Influence of anadromous spawning behavior and optimal environmental conditions upon striped bass (Morone saxatilis) year-class success.Canadian Journal of Fisheries and Aquatic Sciences 37:143–152.
Uphoff, J. H., Jr. 1989. Environmental effects on survival of eggs, larvae and juveniles of striped bass in the Choptank River, Maryland.Transactions of the American Fisheries Society 118:251–263.
Uphoff, J. H., Jr. 1992. Striped bass egg and larval survival in the Choptank River. Maryland Department of Natural Resources, Chesapeake Bay Research and Monitoring Division. Report CBRM-HI-92-1, Annapolis, Maryland.
Uphoff, J. H., Jr. 1993. Determining striped bass spawning stock status from the presence or absence of eggs in ichthyoplankton survey data.North American Journal of Fisheries Management 13:645–656.
Saldman, J. R. andH. Andreyko. 1993. Variation in patterns of interdigitation among superneurals, pterygiophotes and vertebral elements diagnostic for striped bass and white perch post yolk-sac larvae.Copeia 4:1097–1113.
Ware, D. M. 1975. Relation between egg size, growth, and natural mortability of larval fish.Journal of the Fisheries Research Board of Canada 32:2503–2512.
Zincone, L. H., Jr. andR. A. Rulifson. 1991. Instream flow and striped bass recruitment in the lower Roanoke River, North Carilina.Rivers 2:125–137.
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Rutherford, E.S., Houde, E.D. & Nyman, R.M. Relationship of larval-stage growth and mortality to recruitment of striped bass,Morone saxatilis, in Chesapeake Bay. Estuaries 20, 174–198 (1997). https://doi.org/10.2307/1352730
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DOI: https://doi.org/10.2307/1352730