Hostname: page-component-cd9895bd7-jkksz Total loading time: 0 Render date: 2024-12-28T14:56:12.019Z Has data issue: false hasContentIssue false

Potential Ocean Dispersal of Cordgrass (Spartina spp.) from Core Infestations

Published online by Cambridge University Press:  20 January 2017

Vanessa H. Morgan
Affiliation:
Center for Lakes and Reservoirs, Portland State University, P.O. Box 751-ESM, Portland OR 97207
Mark D. Sytsma*
Affiliation:
Center for Lakes and Reservoirs, Portland State University, P.O. Box 751-ESM, Portland OR 97207
*
Corresponding author's E-mail: sytsmam@pdx.edu
Rights & Permissions [Opens in a new window]

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

Nonnative Spartina species (cordgrasses) are widely distributed along the West Coast of North America, but have not invaded all bays with susceptible habitat. We used drift cards to assess the patterns and rates of potential Spartina propagule dispersal by ocean currents from estuaries with significant populations of one or more Spartina species. Cards were released monthly for 1 yr from Willapa Bay, Washington; Humboldt Bay, California; and San Francisco Bay, California; with recovery information reported by volunteers. Recovery rates averaged 37% for all release sites. Cards were commonly recovered close to their bay of release but were repeatedly found hundreds of kilometers both north and south of their release location. Cards most generally traveled northward from the release sites. Cards from Humboldt and Willapa bays were commonly recovered along the British Columbia coast, particularly in the winter. Cards released from Humboldt Bay were found farthest from their release sites. One card from Humboldt Bay traveled 2,800 km to Kodiak Island, Alaska. The timing of seed production, combined with prevailing currents, puts bays currently uninfested by Spartina at risk of repeated propagule loading by ocean currents. A coordinated coast-wide strategy for eradication of all nonnative Spartina will be critical to the success of individual bay-wide eradication efforts.

Type
Research
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution license (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution, and reproduction in any medium, provided the original work is properly cited.
Copyright
Copyright © Weed Science Society of America

References

Literature Cited

Allen, J. A. and Krauss, K. W. 2006. Influence of propagule flotation longevity and light availability on establishment of introduced mangrove species in Hawai‘i. Pac. Sci. 60:367376.Google Scholar
Anttila, C. K., Daehler, C. C., Rank, N. E., and Strong, D. R. 1998. Greater male fitness of a rare invader (Spartina alterniflora, Poaceae) threatens a common native (Spartina foliosa) with hybridization. Am. J. Bot. 85:15971601.Google Scholar
Ayres, D., Smith, D., Zaremba, K., Kolhr, S., and Strong, D. R. 2004. Spread of exotic cordgrasses and hybrids (Spartina sp.) in the tidal marshes of San Francisco Bay, California, USA. Biol. Invasions 6:221231.Google Scholar
Ayres, D. R., Zaremba, K., Sloop, C. M., and Strong, D. R. 2008. Sexual reproduction of cordgrass hybrids (Spartina foliosa × alterniflora) invading tidal marshes in San Francisco Bay. Divers. Distrib. 14:187195.Google Scholar
Banas, N. S., Hickey, B. M., MacCready, P., and Newton, J. A. 2004. Dynamics of Willapa Bay, Washington: a highly unsteady, partially mixed estuary. J. Phys. Oceanogr. 34:24132427.Google Scholar
Biber, P. E. and Caldwell, J. D. 2008. Seed germination and seedling survival of Spartina alterniflora Loisel. Am. J. Agric. Biol. Sci. 3(3):633638.Google Scholar
Bortolus, A. 2006. The austral cordgrass Spartina densiflora Brong.: its taxonomy, biogeography and natural history. J. Biogeogr. 33:158168.Google Scholar
Bouma, T. J., De Vries, M. B., Low, E., Peralta, G., Tanczos, I. C., van de Koppel, J., and Herman, P. M. J. 2005. Trade-offs related to ecosystem engineering: a case study on stiffness of emerging macrophytes. Ecology 86:21872199.Google Scholar
Cannon, G. A. 1983. An overview of circulation in the Puget Sound estuarine System. NOAA Technical Memorandum. ERL PMEL-48. Pacific Marine Environmental Laboratory, Seattle, WA. 34 p.Google Scholar
Carr, E. M. and Dumbauld, B. R. 2000. Status of the European green crab invasion in Washington coastal estuaries: can expansion be prevented? J. Shellfish Res. 19:629630.Google Scholar
Castillo, J. M., Fernández-Baco, L., Castellanos, E. M., Luque, C. J., Figueroa, M. E., and Davy, A. J. 2000. Lower limits of Spartina densiflora and S. maritima in Mediterranean salt marsh determined by different ecophysiological tolerances. J. Ecol. 88:801812.Google Scholar
Castillo, J. M., Rubio-Casal, A. E., Redondo, S., Álvarez-López, A. A., Luque, T., Luque, C., Nieva, F. J., Castellanos, E. M., and Figueroa, M. F. 2005. Short-term responses to salinity of an invasive cordgrass. Biol. Invasions 7:2935.Google Scholar
Chambers, M. D., Hurn, H., Friendman, C. S., and Van Blaricom, G. R. 2003. Drift card simulations of larval dispersal from San Nicolas Island, California, during black abalone spawning season. Pages 421433 in Proceedings of the Sixth California Islands Symposium. Ventura, CA Institute for Wildlife Studies and National Park Service.Google Scholar
Chen, H., Li, B., Hu, J., Chen, J., and Wu, J. 2007. Effects of Spartina alterniflora invasion on benthic nematode communities in the Yangtze Estuary. Mar. Ecol. Prog. Ser. 336:99110.Google Scholar
Chew, F., Drennan, K. L., and Demoran, W. J. 1962. Some results of drift bottle studies off the Mississippi Delta. Limnol. Oceanogr. 7:252257.Google Scholar
Civille, J. C., Sayce, K., Smith, S. D., and Strong, D. R. 2005. Reconstructing a century of Spartina alterniflora invasion with historical records and contemporary remote sensing. Ecoscience 12:330338.Google Scholar
Cohen, A. N. and Carlton, J. T. 1998. Accelerating invasion rate in a highly invaded estuary. Science 279:555558.Google Scholar
Crawford, R.M.M. 2008. Plants at the Margin: Ecological Limits and Climate Change. New York Cambridge University Press. 478 p.Google Scholar
Crone, T. J., Ebbesmeyer, C. C., and Ingraham, W. J. 1998. Dispersion of 1,000 drift cards over Victoria's sewage outfalls. Pages 259266 in Puget Sound Research '98 Proceedings. Olympia, WA Puget Sound Water Quality Action Team.Google Scholar
Crooks, J. A. 2002. Characterizing Ecosystem-level consequences of biological invasions: the role of ecosystem engineers. Oikos 97:153166.Google Scholar
Daehler, C. C. and Strong, D. R. 1996. Status, prediction and prevention of introduced cordgrass Spartina spp. invasions in Pacific estuaries, USA. Biol. Conserv. 78:5158.Google Scholar
Dewees, C. M. and Strange, E. M. 1984. Drift bottle observations of the nearshore surface circulation off California, 1977–1983. Calif. Coop. Ocean Fish. 25:6873.Google Scholar
Ebbesmeyer, C. C. and Coomes, C. A. 1993. Historical shoreline recoveries of drifting objects: an aid for future shoreline utilization. Pages III-159III-164 in Proceedings of Oceans '93 Engineering in Harmony with Ocean. Seattle, WA Evans-Hamilton, Inc. Frenkel, R. E. and Boss, T. R., 1988. Introduction, establishment and spread of Spartina patens on Cox Island, Siuslaw Estuary, Oregon. Wetlands 8:33–49.Google Scholar
Goss-Custard, J. D. and Moser, M. E. 1988. Rates of change in the numbers of dunlin, Calidris alpina, wintering in British estuaries in relation to the spread of Spartina anglica . J. Appl. Ecol. 25:95109.Google Scholar
Grazul, Z. I. and Rowland, P. D. 2011. The Distribution of Spartina densiflora in the Humboldt Bay Region: Baseline Mapping. Arcata, CA U.S. Fish and Wildlife Service, Humboldt Bay National Wildlife Refuge. 13 p.Google Scholar
Grosholz, E. D. and Ruiz, G. M. 1995. Spread and potential impact of the recently introduced European green crab, Carcinus maenas, in central California. Mar. Biol. 122:239247.Google Scholar
Hart, K. M., Mooreside, P., and Crowder, L. B. 2006. Interpreting the spatio-temporal patterns of sea turtle strandings: going with the flow. Biol. Conserv. 129:283290.Google Scholar
Hickey, B. M. 1989. Patterns and processes of circulation over the shelf and slope. Pages 41115 in Hickey, B. M. and Landry, M. R., eds. Coastal Oceanography of Washington and Oregon. Amsterdam, The Netherlands Elsevier Science.Google Scholar
Hickey, B. M. and Banas, N. S. 2003. Oceanography of the U.S. Pacific Northwest coast and estuaries with application to coastal ecology. Estuaries 26:10101031.Google Scholar
Higgins, S. I. and Richardson, D. M. 1999. Predicting plant migration rates in a changing world: the role of long-distance dispersal. Am. Nat. 153:464475.Google Scholar
Holbrook, J. R. and Halpern, D. 1982. Winter-time near-surface currents in the Strait of Juan de Fuca. Atmos.-Ocean 20:327339.Google Scholar
Howard, V., Pfauth, M., Sytsma, M., and Isaacson, D. 2007. Oregon Spartina Response Plan. Portland, OR Center for Lakes and Reservoirs, Portland State University. 80 p.Google Scholar
Hubbard, J.C.E. 1970. Effects of cutting and seed production in Spartina anglica . J. Ecol. 58:329334.Google Scholar
Huiskies, A.H.L., Koutstaal, B. P., Herman, P.M.J., Beeftink, W. G., Markusse, M. M., and de Munck, W. 1995. Seed dispersal of halophytes in tidal salt marshes. J. Ecol. 83:559567.Google Scholar
Jennings, F. D. and Schwartzlose, R. A. 1960. Measurements of the California Current in March 1958. Deep-Sea Res. 7:4247.Google Scholar
Kittelson, P. M. and Boyd, M. J. 1997. Mechanisms of expansion for an introduced species of cordgrass, Spartina densiflora, in Humboldt Bay, California. Estuaries 20:770778.Google Scholar
Klinger, T. and Ebbesmeyer, C. 2001. Using oceanographic linkages to guide marine protected area network design. Pages 124 in Proceedings of the 2001 Puget Sound Research Conference. Olympia, WA Puget Sound Action Team.Google Scholar
Lee, T. and McPhaden, M. J. 2010. Increasing intensity of El Niño in the central–equatorial Pacific. Geophys. Res. Lett. 37:L14603.Google Scholar
Levin, L. A., Neira, C., and Grosholz, E. D. 2006. Invasive cordgrass modifies wetland trophic function. Ecology 87:419432.Google Scholar
Lynn, R. J. and Simpson, J. J. 1987. The California Current system: the seasonal variability of its physical characteristics. J. Geophys. Res. 92:12,94712,966.Google Scholar
Mack, R. N. and Lonsdale, W. M. 2001. Humans as global plant dispersers: getting more than we bargained for. BioScience 51:95102.Google Scholar
Minchinton, T. E. 2006. Rafting on wrack as a mode of dispersal for plants in coastal marshes. Aquat. Bot. 84:372376.Google Scholar
Mobberley, D. G. 1956. Taxonomy and distribution of the genus Spartina . Iowa State Coll. J. Sci. 30:471574.Google Scholar
Moody, M. E. and Mack, N. 1988. Controlling the spread of plant invasions: the importance of nascent foci. J. Appl. Ecol. 25:10091021.Google Scholar
Neira, C., Grosholz, E. D., Levin, L. A., and Blake, R. 2006. Mechanisms generating modification of benthos following tidal flat invasion by a Spartina hybrid. Ecol. Appl. 16:13911404.Google Scholar
[NOAA] National Oceanic and Atmospheric Administration. 2010. National Ocean Survey, Office of Response and Restoration, Hazardous Materials Division. Barber's Point, Oahu, Hawaii Drift Card Study 2002–2004. http://coris.noaa.gov/metadata/records/faq/barbers_pt_oahu_drift_card_survey_2002-2005.html#what.1. Accessed February 11, 2012.Google Scholar
Odum, H. T. and Odum, B. 2003. Concepts and methods of ecological engineering. Ecol. Eng. 20:339361.Google Scholar
Olofson Environmental, Inc. 2012. San Francisco Estuary Invasive Spartina Project—California Clapper Rail Habitat Enhancement Program Progress Report. Berkeley, CA prepared by Olofson Environmental, Inc. for the State Coastal Conservancy. 84 p.Google Scholar
Patten, K. and O'Casey, C. 2007. Use of Willapa Bay, Washington, by shorebirds and waterfowl after Spartina control efforts. J. Field Ornithol. 78:395400.Google Scholar
Petersen, C. 2006. Range expansion in the northeast Pacific by an estuary mud crab—a molecular study. Biol. Invasions 8:565576.Google Scholar
Plyler, D. B. and Carrick, K. M. 1993. Site-specific seed dormancy in Spartina alterniflora (Poaceae). Am. J. Bot. 80:752756.Google Scholar
Plyler, D. B. and Proseus, T. E. 1996. A comparison of the seed dormancy characteristics of Spartina patens and Spartina alterniflora (Poaceae). Am. J. Bot. 83:1114.Google Scholar
Poulain, P. and Niiler, P. P. 1989. Statistical analysis of the surface circulation in the California Current system using satellite-tracked drifters. J. Phys. Oceanogr. 19:15881603.Google Scholar
Ranwell, D. S. 1964. Spartina salt marshes in southern England. II. Rate and seasonal patterns of accretion. J. Ecol. 52:7994.Google Scholar
Reid, J. L. and Schwartzlose, R. A. 1962. Direct measurements of the Davidson Current off central California. J. Geophys. Res. 67:24912497.Google Scholar
Ridley, H. N. 1930. The Dispersal of Plants throughout the World. Ashford, Kent L. Reeve & Co. 744 p.Google Scholar
Ruiz, G. M., Fofonoff, P. W., Carlton, J. T., Wonham, M. J., and Hines, A. H. 2000. Invasion of coastal marine communities in North America: apparent patterns, processes, and biases. Annu. Rev. Ecol. Syst. 31:481531.Google Scholar
Sauers, K. A., Klinger, T., Coomes, C., and Ebbesmeyer, C. C. 2003. Synthesis of 41,300 drift cards released in Juan de Fuca Strait (1975–2002). Pages 112 in Proceedings of the 2003 Georgia Basin/Puget Sound Research Conference. Olympia, WA Puget Sound Action Team.Google Scholar
Sayce, K. 1988. Introduced Cordgrass, Spartina alterniflora Loisel, in Salt Marshes and Tidelands of Willapa Bay. Ilwaco, WA Willapa National Wildlife Refuge. USFWS–87058 (TS). 70 p.Google Scholar
Sayce, K., Dumbauld, B., and Hidy, J. 1997. Seed dispersal in drift of Spartina alterniflora . Pages 2731 in Proceedings of the Second International Spartina Conference. Olympia, WA Washington State University-Cooperative Extension.Google Scholar
Schwartzlose, R. A. 1962. Nearshore currents of the western United States and Baja California as measured by drift bottles. Cal. Coop. Ocean. Fish. 9:1521.Google Scholar
Schwartzlose, R. A. and Reid, J. L. 1972. Near-shore circulation in the California current. Cal. Coop. Ocean. Fish. 16:5765.Google Scholar
Stralberg, D., Toniolo, V., Page, G. W., and Stenzel, L. E. 2004. Potential Impacts of Non-Native Spartina Spread on Shorebird Populations in South San Francisco Bay. Stinson Beach, CA PBRO Conservation Science. 61 p.Google Scholar
Strong, D. R. and Ayres, D. A. 2009. Spartina introductions and consequences in salt marshes: arrive, survive, thrive, and sometimes hybridize. Pages 322 in Silliman, B. R., Grosholz, T., and Berness, M. D., eds. Human Impacts on Salt Marshes—A Global Perspective. Berkeley, CA University of California Press.Google Scholar
Suarez, A. V., Holway, D. A., and Case, T. J. 2001. Patterns of spread in biological invasions dominated by long-distance jump dispersal: insights from Argentine ants. Proc. Natl. Acad. Sci. U. S. A. 98:10951100.Google Scholar
Tegner, M. J. and Butler, R. A. 1985. Drift-tube study of the dispersal potential of green abalone (Haliotis fulgens) larvae in the southern California Bight: implications for the recovery of depleted populations. Mar. Ecol. Prog. Ser. 26:7384.Google Scholar
Thompson, J. D. 1991. The biology of an invasive plant. BioScience 41:393401.Google Scholar
Wasson, K., Zabin, C. J., Bediger, L., Diaz, C. M., and Pearse, J. S. 2001. Biological invasions of estuaries without international shipping: the importance of intraregional transport. Biol. Conserv. 102:143153.Google Scholar
West Coast Governors' Alliance on Ocean Health. 2008. West Coast Governors' Agreement on Ocean Health Action Plan. Pages 116 p. http://www.westcoastoceans.org. Accessed February 11, 2012.Google Scholar
Wonham, M. J. and Carlton, J. T. 2005. Trends in marine biological invasions at local and regional scales: the northeast Pacific Ocean as a model system. Biol. Invasions. 7:369392.Google Scholar
[WSDA] Washington State Department of Agriculture. 2009. Progress of the 2008 Spartina eradication program. Olympia, Washington Washington State Department of Agriculture. 39 p.Google Scholar