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Cost—Benefit Aspects of Coastal Vegetation Establishment in Tampa Bay, Florida

Published online by Cambridge University Press:  24 August 2009

William E. Hoffman  and
James A. Rodgers Jr
William E. Hoffman
Affiliation:
Vegetation Principal Investigator, Tampa Marine Institute, 1310 Shoreline Drive, Tampa, Florida 33605, USA
James A. Rodgers Jr
Affiliation:
National Audubon Society, 1020 82nd St South, Tampa, Florida 33619, USA.
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Extract

Between late 1978 and mid-1979, two major coastal vegetation plantings were completed on dredge material in Tampa Bay, Florida. On the dredge material extension of Sunken Island, 1.64 ha of Smooth Cordgrass was planted via 12-cm ‘plugs’ on 1-m centres, in rows 2 m apart. After 14 months, this planting is showing 93.4% survival. On dredge-material island CDA-D, 0.52 ha of mangroves (63% Black and 37% White) was planted via 0.3–1.9 m transplants on 2-m centres. After 13 months, this planting is showing 73.3% survival.

The nature of these two plantings permits a comparison of their cost and man-power requirements. The labour requirements for Smooth Cordgrass were 995 man-hours/ha as opposed to 2,541 man-hours for mangrove transplanting. Smooth Cordgrass requires $4,566/ ha for plugs ($1.03/plug) while mangrove transplants cost $11,459/ha ($3.92/transplant). These costs are for comparison only, as they entail primarily labour and neglect most of the indirect costs that may be experienced.

An analysis of benefits for both salt-marsh and mangrove planting indicates that Smooth Cordgrass provides greater primary production on a g C/m2 basis than mangroves. Both plantings serve as colonial waterbird nesting habitat and source-areas for further planting, but Cordgrass does so in a shorter time-frame. When weighing the positive and negative aspects of both, Spartina alterniflora is preferred over mangroves where both are present.

Type
Main Papers
Information
Environmental Conservation , Volume 8 , Issue 1 , Spring 1981 , pp. 39 - 43
Copyright
Copyright © Foundation for Environmental Conservation 1981

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References

REFERENCES

Gosselink, J. G., Odum, E. P. & Pope, R. M. (1974). The Value of the Tidal Marsh. Center for Wetland Resources, Louisiana State University, Baton Rouge, Louisiana, Publ. LSU-SG-74–03. [Not available for checking.]Google Scholar
Knutson, P. L. (1977). Planting guidelines for marsh development and bank stabilization. CETA 77–3, U.S. Army, Coastal Engineering Research Center, Fort Belvoir, Virginia, [Not available for checking.]Google Scholar
Lewis, R. R. III (1979). Large scale mangrove restoration on St Croix, U.S. Virgin Islands. Proceedings, 6th Annual Conference on the Restoration and Creation of Wetlands, pp. 231–42.Google Scholar
Lewis, R. R. III & Lewis, C. S. (1977). Tidal march creation on dredge material in Tampa Bay, Florida. Proceedings, 4th Annual Conference on the Restoration of Coastal Vegetation in Florida, pp. 4567.Google Scholar
Schreiber, R. W. & Schreiber, E. A. (1978). Colonial bird use and plant succession on dredge material islands in Florida. Vol. I, Sea and Wading Bird Colonies. Vicksburg, Mississippi, Environmental Effects Laboratory, U.S. Army Engineer Waterways Exp. Sta., Contract Report D-78–14 [not available for checking].Google Scholar
Teas, H. T. (1977). Ecology and restoration of mangrove shorelines in Florida. Environmental Conservation, 4(1), pp. 51–8, 7 figs.CrossRefGoogle Scholar
Thayer, G. W., Stuart, H. H., Kenworth, W. J., Ustach, J. F. & Hall, A. B. (1978). Habitat values of salt marshes, mangroves, and sea grasses for aquatic organisms. Pp. 235–46 in Wetland Functions and Values: The State of Our Understanding. [Not available for checking.]Google Scholar
Woodhouse, W. W. Jr, Seneca, E. D. & Broome, S. W. (1974). Propagation of Spartina alterniflora for substrate stabilization and salt-marsh development. TM-46, U.S. Army Coastal Engineering Research Center, Fort Belvoir, Virginia [not available for checking].Google Scholar