Abstract
In order to balance pressures for land-use development with protection of wetland resources, artificial wetlands have been constructed in an effort to replace lost ecosystems. Despite its regulatory appeal and prominent role in current mitigation strategies, it is unclear whether or not created systems actually compensate for lost wetland resources. Mitigation predictions that rely on artificial wetlands must be analyzed critically in terms of their efficacy. Destruction of wetlands due to burial by coal fly ash at a municipal landfill in Danvers, Massachusetts, USA, provided an opportunity to compare resulting growth of created cattail (Typha) marshes with natural wetland areas. Once the appropriate cattail species was identified for growth under disturbed landfill conditions, two types of artificial wetlands were constructed. The two systems differed in their hydrologic attributes: while one had a surface water flow characteristic of most cattail wetlands, the second system mimicked soil and water conditions found in naturally occurring floating cattail marshes. Comparison of plant growth measurements for two years from the artificial systems with published values for natural cattail marshes revealed similar structure and growth patterns. Experiments are now in progress to investigate the ability of created cattail marshes to remove and accumulate heavy metals from polluted landfill leachate. Research of the type reported here must be pursued aggressively in order to document the performance of artificial wetlands in terms of plant structure and wetland functions. Such research should allow us to start to evaluate whether artificial systems actually compensate for lost wetlands by performing similar functions and providing the concomitant public benefits.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
Literature Cited
Benson, D., and D. Foley. 1956. Waterfowl use of small, manmade wildlife marshes in New York state.New York Fish and Game Journal 3:217–224.
Blomberg, G. 1987. Development and mitigation in the Pacific northwest.Northwest Environmental Journal 3:63–91.
Brodie, G. A., D. A. Hammer, and D. A. Tomljanovich. 1988. Constructed wetlands for acid drainage control in the Tennessee valley. Pages 325–331in Mine drainage and surface water reclamation, Volume 1: Mine water and mine waste. 19–21 April 1988, Pittsburgh, Pennsylvania US Department of Interior, Bureau of Mines. Information Circular 9183.
Broome, S. W., E. D. Seneca, and W. W. Woodhouse, Jr. 1986. Long-term growth and development of transplants of the salt-marsh grassSpartina alterniflora.Estuaries 9:63–74.
Cherry, D. S., and R. K. Guthrie. 1979. The uptake of chemical elements from coal ash and settling basin effluent by primary producers. II. Relation between concentrations in ash deposits and tissues of grasses growing in the ash.The Science of the Total Environment 13:27–31.
Coats, R., M. Swanson, and P. Williams. 1989. Hydrologic analysis for coastal wetland restoration.Environmental Management 13:715–727.
Cook, A. H., and C. F. Powers. 1958. Early biochemical changes in the soils and waters of artificially created marshes in New York.New York Fish and Game Journal 5:9–65.
Cooper, J. W. 1987. An overview of estuarine habitat mitigation projects in Washington State.Northwest Environmental Journal 3:113–127.
Craft, C. B., S. W. Broome, and E. D. Seneca. 1989. Exchange of nitrogen, phosphorous, and organic carbon between transplanted marshes and estuarine waters.Journal of Environmental Quality 18:206–211.
Crites, R. W., D. C. Gunther, A. P. Kruzic, J. D. Pelz, and G. Tchobanoglous. 1988. Constructed wetlands and aquatic plant systems for municipal wastewater treatment. Design Manual, Office of Research and Development, US Environmental Protection Agency. Center for Environmental Research Information, Cincinnati, Ohio. EPA/625/1-88/022.
Crow, G. E., and C. B. Hellquist. 1981. Aquatic vascular plants of New England: Part 2. Typhaceae and Sparganiaceae. New Hampshire Agricultural Experiment Station Bulletin 517, 21 pp.
Dane, C. W. 1959. Succession of aquatic plants in small artificial marshes in New York state.New York Fish and Game Journal 6:57–76.
D’Avanzo, C. 1987. Vegetation in freshwater replacement wetlands in the Northeast. Pages 53–81in J. S. Larson and C. Neill (eds.), Mitigating freshwater wetland alterations in the glaciated northeastern United States: An assessment of the science base. The Environmental Institute, University of Massachusetts at Amherst. 87-1.
Dobberteen, R. A. 1990. Scientific analysis and policy evaluation of wetland replication in Massachusetts. Doctoral dissertation. Tufts University, Medford, Massachusetts, 247 pp.
Dornbush, J. N. 1989. Natural renovation of leachate-degraded groundwater in excavated ponds at a refuse landfill. Pages 743–752in D. A. Hammer (ed.) Constructed wetlands for wastewater treatment: Municipal, industrial and agricultural. Proceedings from the first international conference on constructed wetlands for wastewater treatment. 13–17 July 1988, Chattanooga, Tennessee. Lewis Publishers, Chelsea, Michigan.
Dubbe, D. R., E. G. Garver, and D. C. Pratt. 1988. Production of cattail (Typha spp.) biomass in Minnesota, USA.Biomass 17:79–104.
Dunbabin, J. S., J. Pokorny, and K. H. Bowmer. 1988. Rhizosphere oxygenation byTypha domingensis Pers. in miniature artificial wetland filters used for metal removal from wastewaters.Aquatic Botany 29:303–317.
El-Mogazi, D., D. J. Lisk, and L. H. Weinstein. 1988. A review of physical, chemical, and biological properties of fly ash and effects on agricultural ecosystems.The Science of the Total Environment 74:1–37.
Emerson, F. B. 1961. Experimental establishment of food and cover plants in marshes created for wildlife in New York state.New York Fish and Game Journal 8:130–144.
Feder, W., J. Mika, J. L. Griffith, and G. Bastanza (eds.). 1982. Summary update of research projects with incinerator bottom ash residue. Bureau of Solid Waste Management, Department of Environmental Management, Boston, Massachusetts, 136 pp.
Grace, J. B., and J. S. Harrison. 1986. The biology of Canadian weeds. 73.Typha latifolia L.,Typha angustifolia L. andTypha xglauca Godr.Canadian Journal of Plant Science 66:361–379.
Grace, J. B., and R. G. Wetzel. 1981. Effects of size and growth rate on vegetative reproduction inTypha.Oecologia 50:158–161.
Grace, J. B., and R. G. Wetzel. 1982. Niche differentiation between two rhizomatous plant species:Typha latifolia andTypha angustifolia.Canadian Journal of Botany 60:46–57.
Hammer, D. A. (ed.). 1989. Constructed wetlands for wastewater treatment: Municipal, industrial and agricultural. Proceedings from the first international conference on constructed wetlands for wastewater treatment. 13–17 July 1988, Chattanooga, Tennessee. Lewis Publishers, Chelsea, Michigan, 831 pp.
Hedin, R. S., D. M. Hyman, and R. W. Hammack. 1988. Implications of sulfate-reduction and pyrite formation processes for water quality in a constructed wetland: Preliminary observation. Pages 382–388in Mine drainage and surface water reclamation, Volume 1: Mine water and mine waste. 19–21 April 1988, Pittsburgh, Pennsylvania. US Department of Interior, Bureau of Mines. Information Circular 9183.
Hegstrom, L. J., and S. D. West. 1989. Heavy metal accumulation in small mammals following sewage application to forests.Journal of Environmental Quality 18:345–349.
Hemond, H. F., and J. Benoit. 1988. Cumulative impacts on water quality functions of wetlands.Environmental Management 12:639–653.
Hogg, E. H., and R. W. Wein. 1988. The contribution ofTypha components to floating mat buoyancy.Ecology 69:1025–1031.
Hollick, M. 1981a. Environmental impact assessment as a planning tool.Journal of Environmental Management 12:79–90.
Hollick, M. 1981b. Enforcement of mitigation measures resulting from environmental impact assessment.Environmental Management 5:507–513.
Holling, C. S. (ed.). 1978. Adaptive environmental assessment and management. John Wiley & Sons, New York, 376 pp.
Jordan, T. E., and D. F. Whigham. 1988. The importance of standing dead shoots of the narrow-leaved cattail,Typha angustifolia L.Aquatic Botany 29:319–328.
Jordan, W. R., M. E. Gilpin, and J. D. Aber. 1987. Restoration ecology: A synthetic approach to ecological research. Cambridge University Press, Great Britain, 342 pp.
Kirby, C. J. 1978. Wetland development, an alternative. Pages 139–142in J. A. Kusler and J. H. Montanari (eds.), Proceedings of the national wetland protection symposium. US Fish and Wildlife Service, Biological Services Program, Washington, DC.
Klopatek, J. M., and F. W. Stearns. 1978. Primary productivity of emergent macrophytes in a Wisconsin freshwater marsh ecosystem.American Midland Naturalist 100:320–332.
Krusi, B. O., and R. W. Wein. 1988. Experimental studies on the resiliency of floatingTypha mats in a freshwater marsh.Journal of Ecology 76:60–72.
Kusler, J. 1983. Our national wetland heritage: A protection guidebook. Environmental Law Institute, Washington, DC, 167 pp.
Kusler, J. A., and M. E. Kentula (eds.). 1990. Wetland creation and restoration: The status of the science. US Environmental Protection Agency. Contract 68-C8-0006 and CR-814298-01-0. Island Press, Washington, DC, 594 pp.
Kusler, J. A., M. L. Quammen, and G. Brooks (eds.). 1988. Proceedings of the national wetland symposium: Mitigation of impacts and losses. 8–10 October 1986, New Orleans, Louisiana. Association of State Wetland Managers, Berne, New York. Technical report 3, 460 pp.
LaRoe, E. T. 1986. Wetland habitat mitigation: An historical overview.National Wetlands Newsletter 8(5):8–10.
Larson, J. S., and C. Neill (eds.). 1987. Mitigating freshwater wetland alterations in the glaciated Northeastern United States: An assessment of the science base. The Environmental Institute, University of Massachusetts at Amherst. 87-1, 143 pp.
Lathwell, D. J., H. F. Mulligan, and D. R. Bouldin. 1969. Chemical properties, physical properties and plant growth in twenty artificial wildlife marshes.New York Fish and Game Journal 16:158–183.
Lathwell, D. J., D. R. Bouldin, and E. A. Goyette. 1973. Growth and chemical composition of aquatic plants in twenty artificial wildlife marshes.New York Fish and Game Journal 20:108–128.
Lefor, M. W., and W. C. Kennard. (eds.). 1988. Proceedings of the fourth wetlands conference: Wetlands creation and restoration. 15 November 1986, Storrs, Connecticut. Connecticut Institute of Water Resources, Storrs, Connecticut, 99 pp.
Lewis, R. R. 1990. Wetland restoration/creation/enhancement terminology: Suggestions for standardization. Pages 417–421in J. A. Kusler and M. E. Kentula (eds.), Wetland creation and restoration: The status of the science. US Environmental Protection Agency. Contract 68-C8-0006 and CR-814298-01-0. Island Press, Washington, DC.
Lowry, D. J., E. Sorenson, and D. Titus. 1988. Wetland replacement in Massachusetts: Regulatory approach and case studies. Pages 35–36in M. W. Lefor and W. C. Kennard (eds.), Proceedings of the fourth wetlands conference: Wetlands creation and restoration. 15 November 1986, Storrs, Connecticut. Connecticut Institute of Water Resources, Storrs, Connecticut.
McMillan, C. 1959. Salt tolerance within aTypha population.American Journal of Botany 46:521–526.
McNaughton, S. J. 1966. Ecotype function in theTypha community-type.Ecological Monographs 36:297–325.
McNaughton, S. J., T. C. Folsom, T. Lee, F. Park, C. Price, D. Roeder, J. Schmitz, and C. Stockwell. 1974. Heavy metal tolerance inTypha latifolia without the evolution of tolerant races.Ecology 55:1163–1165.
MGLA. 1974. The Wetlands Protection Act, Chapter 131, Section 40. Massachusetts General Laws and Acts. Boston, Massachusetts.
Morton, J. F. 1975. Cattails (Typha spp.)—weed problem or potential crop?Economic Botany 29:7–29.
Nichols, D. S. 1983. Capacity of natural wetlands to remove nutrients from wastewater.Journal of Water Pollution Control Federation 55:495–505.
Nickerson, N. H., and R. A. Dobberteen. 1988. Danvers municipal landfill wetland mitigation study—final report. Technical report for the Danvers Conservation Commission and New England Power Company, 28 pp.
Nickerson, N. H., R. A. Dobberteen, and N. M. Jarman. 1989. Effects of power-line construction on wetland vegetation in Massachusetts, USA.Environmental Management 13:477–483.
Penko, J. M., and D. C. Pratt. 1987. Growth and mortality of shoots in three populations ofTypha glauca Godr.Journal of the Minnesota Academy of Science 53:25–28.
Race, M. S. 1985. Critique of present wetlands mitigation policies in the United States based on an analysis of past restoration projects in San Francisco Bay.Environmental Management 9:71–82.
Reed, S. C., E. J. Middlebrooks, and R. W. Crites. 1988. Natural systems for waste management and treatment. McGraw-Hill Book Company, New York, 308 pp.
Reimold, R. J., and S. A. Cobler. 1986. Wetlands mitigation effectiveness. US Environmental Protection Agency Contract No. 68-04-0015. Boston, Massachusetts, 75 pp.
Ristich, S. S., S. W. Fredrick, and E. H. Buckley. 1976. Transplantation ofTypha and the distribution of vegetation and algae in a reclaimed estuarine marsh.Bulletin of the Torrey Botanical Club 103:157–164.
Sencindiver, J. C., and D. K. Bhumbla. 1988. Effects of cattails (Typha) on metal removal from mine drainage. Pages 359–366in Mine drainage and surface water reclamation, Volume 1: Mine water and mine waste. 19–21 April 1988, Pittsburgh, Pennsylvania. US Department of Interior, Bureau of Mines. Information Circular 9183.
Smith, S. G. 1967. Experimental and natural hybrids in North AmericanTypha (Typhaceae).American Midland Naturalist 78:257–287.
Sokal, R. R., and F. J. Rohlf. 1969.Biometry. W. A. Freeman and Company, San Francisco, California, 776 pp.
Staubitz, W. W., J. M. Surface, T. S. Steenhuis, J. H. Peverly, M. J. Lavine, N. C. Weeks, W. E. Sanford, and R. J. Kopka. 1989. Potential use of constructed wetlands to treat landfill leachate. Pages 735–742in D. A. Hammer (ed.), Constructed wetlands for wastewater treatment: Municipal, industrial and agricultural. Proceedings from the First international conference on constructed wetlands for wastewater treatment. 13–17 July 1988, Chattanooga, Tennessee. Lewis Publishers, Chelsea, Michigan.
Stillings, L. L., J. J. Gryta, and T. A. Ronning. 1988. Iron and managanese removal in aTypha-dominated wetland during ten months following its construction. Pages 317–324in Mine drainage and surface water reclamation. Volume 1: Mine water and mine waste. 19–21 April 1988. Pittsburgh, Pennsylvania. US Department of Interior, Bureau of Mines. Information Circular 9183.
Taylor, G. J., and A. A. Crowder. 1983. Uptake and accumulation of heavy metals byTypha latifolia in wetlands of the Sudbury, Ontario region.Canadian Journal of Botany 61:63–73.
Trautmann, N. M., J. H. Martin, J. K. S. Porter, and K. C. Hawk, Jr. 1989. Use of artificial wetlands for treatment of municipal solid waste landfill leachate. Pages 245–252in D. A. Hammer (ed.), Constructed wetlands for wastewater treatment: Municipal, industrial and agricultural. Proceedings from the first international conference on constructed wetlands for wastewater treatment. 13–17 July 1988, Chattanooga, Tennessee. Lewis Publishers, Chelsa, Michigan.
Wieder, R. K. 1988. Determining the capacity for metal retention in man-made wetlands constructed for treatment of coal mine drainage. Pages 375–381in Mine drainage and surface water reclamation. Volume 1: Mine water and mine waste. 19–21 April 1988, Pittsburgh, Pennsylvania. US Department of Interior, Bureau of Mines. Information Circular 9183.
Wolf, R. B., L. C. Lee, and R. R. Sharitz. 1986. Wetland creation and restoration in the United States from 1970 to 1985: An annotated bibliography.Wetlands 6:1–88.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Dobberteen, R.A., Nickerson, N.H. Use of created cattail (Typha) wetlands in mitigation strategies. Environmental Management 15, 797–808 (1991). https://doi.org/10.1007/BF02394817
Issue Date:
DOI: https://doi.org/10.1007/BF02394817