Abstract
Estuaries provide nursery habitat for juvenile stages of several commercial decapod crustaceans worldwide, and those in the Northeastern Pacific are viewed as providing this function for Dungeness crab,Cancer magister. It is difficult to ascertain the degree to which such estuarine production of juveniles eventually contributes to coastal adult populations and fisheries since there are no direct surveys of adult abundance. As other authors have done, we used fishery landings data to compute the long-term average contribution of 1 + juvenile crab populations reared in estuaries to future coastal fisheries. We focused on Oregon and Washington states, but grouped landings in two large geographic zones by combining fishery ports as adjacent to Large Estuarine Zones (LEZ; Grays Harbor and Willapa Bay, Washington, and both sides of the Columbia River) and Small Estuarine Zones (SEZ; all other ports in Oregon). Mortality estimates were used to reduce 1 + crab abundance to surviving legal males, and portrayed as percent of the fisheries. Trends in the SEZ indicate that an average of only about 5–7% of estuarine production adds to the coastal adult population and contributes about $0.7 million to the fishery. The contribution is 25–30% in the LEZ (but may be higher since interannual density varies up to 5 times) and is worth about $3.9 million based on present ex-vessel value. Analyses of crab distribution and density indicate that the majority of an estuarine population (50–80%) is located in lower side channels (LSC) in spring and summer where temperature is higher and prey within and on adjacent intertidal flats is high. The potential average dollar value of equivalent legal male crab produced from the juvenile population is about $180 ha−1 in LSC (but $280 ha−1 in Grays Harbor where long-term density is highest), and lower in other estuarine habitats ($50–100 ha−1). Estuarine juvenile production provides a relatively stable source of recruits to coastal adult populations, and large systems in the LEZ are important nurseries. Since direct coastal settlement of larvae does occur but is highly variable, the estuarine contribution may be especially important when physical forcing or unusual events lead to low survival of the coastal 0+ cohort. An unusually long period of very low landings in the LEZ from 1981–1987 is interpreted in light of the Mount St. Helens eruption (1980) and subsequent transport and deposition of very fine silt fractions over much of the LEZ nearshore shelf that may have adversely affected several year classes of small, early benthic phase juveniles at that time.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
Literature Cited
Armstrong, J. L., D. A. Armstrong, andS. B. Mathews. 1995. Food habits of estuarine staghorn sculpin,Leptocottus armatus, with focus on consumption of juvenile Dungeness crab,Cancer magister.Fishery Bulletin 93:456–470.
Armstrong, D. andD. Gunderson. 1985. The role of estuaries in Dungeness crab early life history: A case study in Grays Harbor, Washington, p. 145–170.In Proceedings of the Symposium on Dungeness Crab Biology and Management. Alaska Sea Grant Report No. 85-3. University of Alaska Sea Grant College Program, Fairbanks, Alaska.
Botsford, L. W. 1986a. Population dynamics of the Dungeness crab (Cancer magister).Publication of Fisheries and Aquatic Sciences 92:140–153.
Botsford, L. W. 1986b. Effects of environmental forcing on age-structured populations: Northern California Dungeness crab (Cancer magister) as an example.Canadian Journal of Fisheries and Aquatic Sciences 43:2345–2352.
Botsford, L. W. 2001. Physical influences on recruitment to California current invertebrate populations on multiple scale.ICES Journal of Marine Science 58:1081–1091.
Botsford, L. W., D. A. Armstrong, andJ. M. Shenker. 1989. Oceanographic influences on the dynamics of commercially fished populations, p. 511–565.In M. R. Landry and B. M. Hickey (eds.), Coastal Oceanography of Washington and Oregon. Elsevier Oceanography Series, Amsterdam, The Netherlands.
Botsford, L. W., C. L. Moloney, J. L. Largier, andA. Hastings. 1998. Metapopulation dynamics of meroplanktonic invertebrates: The Dungeness crab (Cancer magister) as an example. p. 295–306.In G. S. Jamieson and A. Campbell (eds.), Proceedings of the North Pacific Symposium on Invertebrate Stock Assessment and Management. Canadian Special Publication of Fisheries and Aquatic Sciences 125. National Research Council Research Press, Ontario, Canada.
Botsford, L. W. andD. E. Wickham. 1975. Correlation of upwelling index and Dungeness crab catch.Fishery Bulletin 73:901.
Botsford, L. W. andD. E. Wickham. 1978. Behavior of age-specific, density-dependent models and the northern California Dungeness crab (Cancer magister) fishery.Journal of Fisheries Research Board of Canada 35:833–843.
Browder, J. A., L. N. May, Jr.,A. Rosenthal, J. G. Gosselink, andR. H. Baumann. 1989. Modeling future trends in wetland loss and brown shrimp production in Louisiana using thematic mapper imagery.Remote Sensing Environment 28:45–59.
Butler, IV,M. J. andW. F. Herrnkind. 1997. A test of recruitment limitation and the potential for artificial enhancement of spiny lobster (Panulirus argus) populations in Florida.Canadian Journal of Fisheries and Aquatic Sciences 54:452–463.
Butler, IV,M. J., J. H. Hunt, W. F. Herrnkind, M. J. Childress, R. Bertelsen, W. Sharp, T. Matthews, J. M. Field, andH. G. Marshall. 1995. Cascading disturbances in Florida Bay, USA: Cyanobacteria blooms, sponge mortality, and implications for juvenile spiny lobstersPanulirus argus.Marine Ecology Progress Series 129:119–125.
Caddy, J. F. 1986. Modeling stock-recruitment processes in Crustacea: Some practical and theoretical perspectives.Canadian Journal of Fisheries and Aquatic Sciences 43:2330–2344.
Cleaver, F. C. 1949. Preliminary Results of the Coastal Crab (Cancer magister) Investigation. Biological Report No. 49A. Washington State Department of Fisheries, Olympia, Washington.
Collier, P. C. 1983. Movement and growth of post-larval Dungeness crabs,Cancer magister, in the San Francisco area, p. 125–133.In P. W. Wild and R. N. Tasto (eds.), Life History, Environment, and Mariculture Studies of the Dungeness Crab,Cancer magister, with Emphasis on the Central California Resource. California Department of Fish and Game Fish Bulletin 172. Marine Technology Information Center, Long Beach, California.
Cortright, R., J. Weber, andR. Bailey. 1987. The Oregon Estuary Plan Book. Oregon Department of Land Conservation and Development, Salem, Oregon.
Dahlstrom, W. andP. Wild. 1983. A history of Dungeness crab fisheries in California, p. 7–23.In P. Wild and R. Tasto (eds.), Life History, Environment, and Mariculture Studies of the Dungeness Crab,Cancer magister, with Emphasis on the Central California Resource. California Department of Fish and Game Bulletin 172. Marine Technology Information Center, Long Beach, California.
Diamond, N. andD. G. Hankin. 1985. Movements of adult female Dungeness crabs (Cancer magister) in northern California based on tag recoveries.Canadian Journal of Fisheries and Aquatic Sciences 42:919–926.
Dumbauld, B. R., D. A. Armstrong, andT. L. Mcdonald. 1993. Use of oyster shell to enhance intertidal habitat and mitigate loss of Dungeness crab (Cancer magister) caused by dredging.Canadian Journal of Fisheries and Aquatic Sciences 50:381–390.
Dumbauld, B. R., E. P. Visser, D. A. Armstrong, L. Cole-Warner, K. L. Feldman, andB. E. Kauffman. 2000.Journal of Shell-fish Research 19:379–386.
Eggleston, D. B. andD. A. Armstrong. 1995. Pre- and post-settlement determinants of estuarine Dungeness crab recruitment.Ecological Monographs 65:193–216.
Eggleston, D. B., D. A. Armstrong, W. E. Elis, andW. S. Patton. 1998a. Estuarine fronts as conduits for larval transport: Hydrodynamics and spatial distribution of Dungeness crab postlarvae.Marine Ecology Progress Series 164:73–82.
Eggleston, D. B., L. L. Etherington, andW. E. Elis. 1998b. Organism response to habitat patchiness: species and habitat-dependent recruitment of decapod crustaceans.Journal of Experimental Marine Biology and Ecology 223:111–132.
Emmett, R. L. andJ. T. Durkin. 1985. The Columbia River estuary: An important nursery for Dungeness crabs,Cancer magister.Marine Fisheries Review 47:21–25.
Emmett, R., R. Llanso, J. Newton, R. Thom, M. Hornberger, C. Morgan, C. Levings, A. Copping, andP. Fishman. 2000. Geographic signatures of north American west coast estuaries.Estuaries 23:765–792.
Etherington, L. L. andD. B. Eggleston. 2000. Large-scale blue crab recruitment: Linking postlarval transport, post-set-tlement planktonic dispersal, and multiple nursery habitats.Marine Ecology Progress Series 204:179–198.
Feldman, K. L., D. A. Armstrong, B. R. Dumbauld, T. H. DeWitt, andD. C. Doty. 2000. Oysters, crabs, and burrowing shrimp: Review of an environmental conflict over aquatic resources and pesticide use in Washington State's (U.S.) coastal estuaries.Estuaries 23:141–176.
Fernandez, M. 1999. Cannibalism in Dungeness crabCancer magister: Effects of predator-prey size ratio, density, and habitat type.Marine Ecology Progress Series 182:221–230.
Fernandez, M., D. Armstrong, andO. Iribarne. 1993a. First cohort of young-of-the-year Dungeness crab,Cancer magister, reduces abundance of subsequent cohorts in intertidal shell habitat.Canadian Journal of Fisheries and Aquatic Sciences 50:2100–2105.
Fernandez, M., O. Iribarne, andD. Armstrong. 1993b. Habitat selection by young-of-the-year Dungeness crabCancer magister and predation risk in intertidal habitats.Marine Ecology Progress Series 92:171–177.
Gotshall, D. W. 1978. Northern California Dungeness crab,Cancer magister, movements as shown by tagging.California Fish and Game 64:234–254.
Gross, M. G. andJ. L. Nelson. 1966. Sedimentary movement on the continental shelf near Washington and Oregon.Science 154:879–885.
Gunderson, D. R., D. A. Armstrong, Y. B. Shi, andR. A. McConnaughey. 1990. Patterns of estuarine use by juvenile English sole (Parophrys vetulus) and Dungeness crab (Cancer magister).Estuaries 13:59–71.
Gunderson, D. R. andI. E. Ellis. 1986. Development of a plumb staff beam trawl for sampling demersal fauna.Fishery Research 4:35–41.
Gutermuth, F. B. andD. A. Armstrong. 1989. Temperature-dependent metabolic response of juvenile Dungeness crabCancer magister Dana: Ecological implications for estuarine and coastal populations.Journal of Experimental Marine Biology and Ecology 126:135–144.
Haywood, M. D. E., D. J. Vance, andN. R. Loneragan. 1995. Seagrass and algal beds as nursery habitats for tiger prawns (Penaeus semisulcatus andP. esculentus) in a tropical Australian estuary.Marine Biology 122:213–223.
Heck, Jr.,K. andT. A. Thoman. 1984. The nursery role of seagrass meadows in the upper and lower Chesapeake Bay.Estuaries 7:70–90.
Higgins, K., A. Hastings, J. N. Sarvela, andL. W. Botsford. 1997. Stochastic dynamics and deterministic skeletons: Population behavior of Dungeness crab.Science 276:1431–1435.
Hobbs, R. C., L. W. Botsford, andA. Thomas. 1992. Influence of hydrographic conditions and wind forcing on the distribution and abundance of Dungeness crab,Cancer magister, larvae.Canadian Journal of Fisheries and Aquatic Sciences 49:1379–1388.
Holsman, K. K., D. A. Armstrong, D. A. Beauchamp, andJ. R. Ruesink. 2003. The necessity for intertidal foraging by estuarine populations of subadult Dungeness crab,Cancer magister. Evidence from a bioenergetics model.Estuaries 26:xxx-xxx.
Huppert, D. D., R. L. Johnson, J. Leahy, andK. Bell. 2003. Interactions between human communities and estuaries in the Pacific Northwest: Trends and implications for management.Estuaries 26:994–1009.
Iles, T. D. andR. J. Beverton. 2000. The concentration hypothesis: The statistical evidence.ICES Journal of Marine Science 57:216–277.
Iribarne, O., M. Fernandez andD. Armstrong. 1994. Does space competition regulate density of juvenile Dungeness crabCancer magister Dana in sheltered habitats?Journal of Experimental Marine Biology and Ecology 183:259–271.
Johnson, D. F., L. W. Botsford, R. D. Methot, Jr., andT. C. Wainwright. 1986. Wind stress and cycles in Dungeness crab (Cancer magister) catch off California, Oregon, and Washington.Canadian Journal of Fisheries and Aquatic Sciences 43:838–845.
Kachel, N. B. and J. D. Smith. 1989. Sediment transport and deposition on the Washington Continental Shelf, p. 287—348.In M. R. Landry and B. M. Hickey (eds.), Coastal Oceanography of Washington and Oregon. Elsevier Oceanography Series. Amsterdam, The Netherlands.
LaRiviere, P. E. andS. T. Barry. 1998. Limited entry in the Washington coastal Dungeness crab (Cancer magister) fishery: The first step toward rationalizing an overcapitalized and chaotic fishery, p. 325–333.In G. S. Jamieson and A. Campbell (eds.), Proceedings of the North Pacific Symposium on Invertebrate Stock Assessment and Management. Canadian Special Publication of Fishery and Aquatic Sciences 125. National Research Council Research Press, Ontario, Canada.
Lipcius, R. N., W. T. Stochhausen, andD. B. Eggleston. 2001. Marine reserves for Caribbean spiny lobster: Empirical evaluation and theoretical metapopulation recruitment dynamics.Marine Freshwater Research 52:1589–1598.
Lough, R. G. 1976. Larval dynamics of the Dungeness crab,Cancer magister, off the central Oregon coast.Fishery Bulletin 74:353–376.
McCabe, Jr.,G. T., R. L. Emmett, T. C. Coley, andR. J. McConnell. 1988. Distribution, density, and size-class structure of Dungeness crabs in the river-dominated Columbia River estuary.Northwest Science 62:254–263.
McConnaughey, R. A. andD. A. Armstrong. 1995. Potential effects of global climate change on Dungeness crab (Cancer magister) populations in the northeastern Pacific Ocean, p. 291–306.In R. J. Beamish (ed.), Climate Change and Northern Fish Populations. Canadian Special Publication of Fisheries and Aquatic Sciences 121. National Research Council Monograph Publishing Program, Ontario, Canada.
McConnaughey, R. A., D. A. Armstrong, B. M. Hickey, andD. R. Gunderson. 1992. Juvenile Dungeness crab (Cancer magister) recruitment variability and oceanic transport during the pelagic larval phase.Canadian Journal of Fisheries and Aquatic Sciences 49:2028–2044.
McConnaughey, R. A., D. A. Armstrong, B. M. Hickey, andD. R. Gunderson. 1994. Interannual variability in coastal Washington Dungeness crab (Cancer magister) populations: Larval advection and the coastal landing strip.Fisheries Oceanography 3:22–38.
McDonald, P. S., G. C. Jensen, andD. A. Armstrong. 2001. The competitive and predatory impacts of the nonindigenous crabCarcinus maenas (L.) on early benthic phase Dungeness crabCancer magister Dana.Journal of Experimental Marine Biology and Ecology 258:39–54.
McGraw, K. A., L. L. Conquest, J. Waller, P. Dinnel, andD. Armstrong. 1988. Entrainment of Dungeness crabs,Cancer magister Dana, by Hopper Dredge in Grays Harbor, Washington.Journal of Shellfish Research 7:219–231.
Methot, Jr.,R. D. 1986. Management of Dungeness crab fisheries.Canadian Special Publication of Fisheries and Aquatic Sciences 92:326–334.
Methot, Jr.,R. D. 1989. Management of a cyclic resource: The Dungeness crab fisheries of the Pacific coast of North America, p. 205–223.In J. F. Caddy (ed.), Marine Invertebrate Fisheries: Their Assessment and Management. John Wiley and Sons, New York.
Minello, T. J. andJ. W. Webb, Jr. 1997. Use of natural and createdSpartina alterniflora salt marshes by fishery species and other aquatic fauna in Galveston Bay, Texas, USA.Marine Ecology Progress Series 151:165–179.
Minello, T. J. andR. J. Zimmerman. 1983. Fish predation on juvenile brown shrimp,Penaeus aztecus Ives: The effect of simulatedSpartina structure on predation rates.Journal of Experimental Marine Biology and Ecology 72:211–231.
Monaco, M. E., T. A. Lowery, andR. L. Emmett. 1992. Assemblages of U.S. west coast estuaries based on the distribution of fishes.Journal of Biogeography 19:251–267.
Nichols, F. H., J. E. Cloern, S. N. Luoma, andD. H. Peterson. 1986. The modification of an estuary.Science 231:567–573.
Orcutt, H. G. 1978. Dungeness crab research program. Marine Resources Administration Report 16. California Department of Fish and Game, Sacramento, California.
Orensanz, J. M. andV. F. Gallucci. 1988. A comparative study of postlarval life history schedules in four sympatricCancer species.Journal of Crustacean Biology 8:187–220.
Orth, R. andJ. van Montfrans. 1987. Utilization of a seagrass meadow and tidal marsh creek by blue crabsCallinectes sapidus. I. Seasonal and annual variations in abundance with emphasis on post-settlement juveniles.Marine Ecology Progress Series 41:283–294.
Palacios, R., D. A. Armstrong, andJ. Orensanz. 2000. Fate and legacy of an invasion: Extinct and extant populations of the soft-shell clam (Mya arenaria) in Grays Harbor (Washington).Aquatic Conservation: Marine and Freshwater Ecosystems 10: 279–303.
Peterson, W. T. 1973. Upwelling indices and annual catches of Dungeness crab,Cancer magister; along the west coast of the United States.Fishery Bulletin 71:902–910.
Ridge, M. J. H. andB. Carson. 1987. Sediment transport on the Washington continental shelf: Estimates of dispersal rates from Mount St. Helens ash.Continental Shelf Research 7:759–772.
Roegner, G. C., D. A. Armstrong, B. M. Hickey, andA. L. Shanks. 2003. Ocean distribution of Dungeness crab megalopae and recruitment patterns to estuaries in southern Washington State.Estuaries 26:1058–1070.
Rooper, C. N., D. A. Armstrong, andD. R. Gunderson. 2002. Habitat use by juvenile Dungeness crab with nursery estuaries, p. 609–629.In A. J. Paul, E. G. Dawe, R. Elner, G. S. Jamiseon, G. H. Kruse, R. S. Otto, B. Sainte-Marie, T. C. Shirley, and D. Woody (eds.), Crabs in Cold Water Regions: Biology, Management, and Economics. Alaska Sea Grant College Program Report AG-SG-02-01. University of Alaska Sea Grant College Program, Fairbanks, Alaska.
Rooper, C. N., D. R. Gunderson, andD. A. Armstrong. 2003. Patterns in use of estuarine habitat by juvenile English sole (Pleuronectes vetulus) in four eastern north Pacific estuaries.Estuaries 26:1142–1154.
Shi, Y. B., D. Gunderson, andD. Armstrong. 1995. Population dynamics of 0+ English sole,Pleuronectes vetulus, in estuaries and nearshore areas off Washington, p. 343–365.In Proceedings of the International Symposium on North Pacific Flatfish. Alaska Sea Grant College Program Report No. 95-04. University of Alaska Sea Grant College Program, Fairbanks, Alaska.
Shi, Y., D. R. Gunderson, andP. J. Sullivan. 1997. Growth and survival of 0+ English sole,Pleuronectes vetulus, in estuaries and adjacent nearshore waters off Washington.Fishery Bulletin 95:161–173.
Smith, B. D. andG. S. Jamieson. 1991. Movement, spatial distribution, and mortality of male and female Dungeness crabCancer magister near Tofino, British Columbia.Fishery Bulletin U.S. 89:137–148.
Staples, D. J. andD. J. Vance. 1985. Short-term and long-term influences on the immigration of postlarval banana prawnsPenaeus merguiensis, into a mangrove estuary of the Gulf of Carpentaria, Australia.Marine Ecology Progress Series 23:15–29.
Stevens, B. G. andD. A. Armstrong. 1984. Distribution, abundance, and growth of juvenile Dungeness crabs,Cancer magister, in Grays Harbor estuary, Washington.Fishery Bulletin 82: 469–483.
Stevens, B. G., D. A. Armstrong, andR. Cusimano. 1982. Feeding habits of the Dungeness crabCancer magister as determined by the Index of Relative Importance.Marine Biology 72: 135–145.
Tasto, R. N. 1983. Juvenile Dungeness crab,Cancer magister, studies in the San Francisco Bay area, p. 135–154.In P. W. Wild and R. N. Tasto (eds.), Life History, Environment, and Mariculture Studies of the Dungeness Crab,Cancer magister, with Emphasis on the Central California Resource. California Department of Fish and Game Fish Bulletin 172. Marine Technology Information Center, Long Beach, California.
Turner, R. E. 1977. Intertidal vegetation and commercial yields of Penaeid shrimp.Transactions of the American Fisheries Society 106:411–416.
Vance, D. J., M. D. E. Haywood, andD. J. Staples. 1990. Use of a mangrove estuary as a nursery area by postlarval and juvenile banana prawns,Penaeus merguiensis de Man, in northern Australia.Estuarine, Coastal and Shelf Science 31:689–701.
Wahle, R. A. andR. S. Steneck. 1991. Recruitment habitats and nursery grounds of the American lobsterHomarus americanus: A demographic bottleneck?Marine Ecology Progress Series 69: 231–243.
Wainwright, T. C. 1994. Individual growth and population size structure inCancer magister. Ph.D. Dissertation, University of Washington, Seattle, Washington.
Wainwright, T. C., D. A. Armstrong, P. A. Dinnel, J. M. Orensanz, andK. A. McGraw. 1992. Predicting effects of dredging on a crab population: An equivalent adult loss approach.Fishery Bulletin 90:171–182.
Waldron, K. D. 1958. The Fishery and Biology of the Dungeness Crab in Oregon Waters. Oregon Fish Commission Contribution No. 24. Oregon Fish Commission, Portland, Oregon.
Wild, P. W., P. M. W. Law, andD. R. McLain. 1983. Variations in ocean climate and crab fishery in California, p. 175–188.In P. W. Wild and R. N. Tasto (eds.), Life history, environment, and mariculture studies of the Dungeness crab,Cancer magister, with emphasis on the central California fishery resource. California Department of Fish and Game Fish Bulletin 172. Marine Technology Information Center, Long Beach, California.
Wild, P. W. andR. N. Tasto. 1983. Life History, Environment, and Mariculture Studies of the Dungeness Crab,Cancer magister, with Emphasis on the Central California Fishery Resource. California Department of Fish and Game Fish Bulletin 172. Marine Technology Information Center, Long Beach, California.
Source of Unpublished Materials
LaRiviere, P. personal communication. Washington Department of Fish and Wildlife, 600 Capital Way North, Olympia, Washington 98501-1091.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Armstrong, D.A., Rooper, C. & Gunderson, D. Estuarine production of juvenile dungeness crab (cancer magister) and contribution to the Oregon-Washington coastal fishery. Estuaries 26, 1174–1188 (2003). https://doi.org/10.1007/BF02803372
Received:
Revised:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF02803372