Abstract
Recolonisation by crab species and sediment-infauna taxa (at class level) in artificially regenerated mangrove stands of Avicennia marina, Rhizophora mucronata and Sonneratia alba (5 yr old) were studied using respective bare sites (open without mangroves or denuded) and natural sites (relatively undisturbed) as controls. The controls were chosen based on site history, physical proximity and tidal inundation class in reference to the particular reforested mangrove stand and samples randomly taken. A number of environmental variables were measured; interstitial water salinity and temperature (measured at low tide) were lower, whereas sediment organic matter content was higher in the areas with mangrove cover, with the natural sites having the highest content. The bare sites were generally sandier, whereas the areas with mangrove cover had higher proportions of clay and silt. Generally, there was a higher crab density in the reforested sites than in the bare sites, whereas crab species diversity (Shannon diversity index) did not vary from one site to another for any of the mangrove species. In terms of crab species composition, the reforested sites were more similar (Sørensen similarity coefficient) to the natural sites and less to the bare controls. For sediment-infauna, the reforested sites had a significantly higher density than the respective bare controls, while the natural sites had the highest density. The number of sediment-infauna taxa in both the reforested and natural sites of all the mangrove species was similar and higher than in the comparable bare sites. The results suggest that the reforested sites are supporting more faunal recolonisation, and therefore becoming more akin to the natural mangrove sites in terms of the investigated functional indicators. The findings seem to support the use of artificial mangrove regeneration (in areas where natural regeneration has been impeded by physical conditions or otherwise) as an effective management tool in the restoration and conservation of the functional integrity of degraded mangrove habitats.
Key words: Crabs, Environmental variables, Kenya, Recolonisation, Restored mangroves, Sediment-infauna
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References
Ahmad N. 1984. Some aspects of economic resources of Sundarban mangrove forest of Bangladesh. In: Soepadimo E., Rao A.N. and Macintosh D.J. (Eds.), Proceedings of the Asian Symposium on Mangrove Environment, Research and Management. University of Malaya, Kuala Lumpar, Malaysia, pp. 644-651.
Aksornkoae S. 1993. Ecology and Management of Mangroves. IUCN, Bangkok, Thailand, 176 pp.
Aksornkoae S. 1996. Reforestation of mangrove forests in Thailand: a case study of Pattani province. In: Field C.D. (Ed.), Restoration of Mangrove Ecosystems. International Society of Mangrove Ecosystems (ISME), Okinawa, Japan, pp. 52-63.
Arnold K. 1986. Methods of Soil Analysis. Part 1: Physical and Mineralogical Methods. 2nd ed. American Society of Agronomy, Madison, Wisconsin, 1159 pp.
Begon H., Harper J.L. and Townsend C.R. 1996. Ecology: Individuals, Populations and Communities. 3rd ed. Blackwell Science, Oxford, UK, 1068 pp.
Cannicci S., Ritossa S., Ruwa R.K. and Vannini M. 1996. Tree fidelity and hole fidelity in the tree crab Sesarma leptosoma. Journal of Experimental Marine Biology and Ecology 196(1-2): 299-311.
Cannicci S., Dahdouh-Guebas F., and Montemagno L. 1997. Field Keys for Kenyan Mangrove Crabs. Museo Zoologico 'Leo Pardi' of the University of Florence, Florence, Italy.
Dahdouh-Guebas F. 2001. Mangrove vegetation structure, dynamics and regeneration. Ph.D. Thesis, Vrije Universiteit Brussel, Belgium. 317 pp.
Dahdouh-Guebas F. 2002. The use of remote sensing and GIS in the sustainable management of tropical coastal ecosystems. In: Dahdouh-Guebas F. (Ed.), Remote Sensing and GIS in the Sustainable Management of Tropical Coastal Ecosystems. Environment, Development and Sustainability 4: 93-112.
Dahdouh-Guebas F., Giuggioli M., Oluoch A., Vannini M. and Cannicci S. 1999. Feeding habits of non-ocypodid crabs from two mangrove forests in Kenya. Bulletin of Marine Science 64: 291-297.
Dahdouh-Guebas F., Verneirt M., Cannicci S., Kairo J.G., Tack J.F. and Koedam N. 2002. An exploratory study on grapsid crab zonation in mangrove forests in Kenya. Wetlands Ecology and Management 10: 179-187.
Dahdouh-Guebas F., Verneirt M., Tack J.F. and Koedam N. 1997. Food preferences of Neosarmatium meinerti de Man (Decapoda: Sesarminae) and its possible effect on the regeneration of mangroves. Hydrobiologia 347: 83-89.
Day J.H. 1974. A Guide to Marine Life of South Africa Shores. 2nd edn. Balkema, Capetown, South Africa, 300 pp.
Ellison A.M. 2000. Mangrove restoration: Do we know enough? Restoration Ecology 8: 219-229.
Fondo E. and Martens E. 1998. Effects of mangrove deforestation on macrofaunal densities in Gazi Bay, Kenya. Mangroves and Salt Marshes 2: 75-81.
Frith D.W., Tantanasiriwong R. and Bhatia O. 1976. Zonation and abundance of macrofauna on amangrove shore, Phuket Island, Southern Thailand. Phuket Marine Biology Center Research Bulletin 10: 1-37.
Frith D.W. and Frith C.B. 1977. Observations on fiddler crabs (Ocypodidae: Genus Uca) on Surin Island, Western Peninsular, Thailand, with special reference to Uca tetragonon (Herbst). Phuket Marine Biology Center Research Bulletin 18: 1-14.
Harkantra S.N., Rodrigues C.L. and Parulekar A.H. 1982. Macrobenthos of the shelf off North Eastern Bay of Bengal. Indian Journal of Marine Science 11: 115-121.
Kairo J.G. 1995. Community participatory forestry for rehabilitation of deforested mangrove areas of Gazi Bay (Kenya). 'A first approach'. Final Technical Report, 59 pp.
Kent M. and Coker P. 1992. Vegetation Description and Analysis: A Practical Approach. Wiley, New York, 363 pp.
Kitheka J.U. 1997. Coastal tidally-driven circulation and the role of water exchange in the linkage between tropical coastal ecosystems. Estuarine Coastal and Shelf Science 45: 177-187.
Lee S.Y. 1997. Potential trophic importance of the faecal material of the mangrove sesarmine crab Sesarma messa. Marine Ecology Progress Series 159: 275-284.
Lee S.Y. 1998. Ecological role of grapsid crabs in mangrove ecosystems: a review. Marine Freshwater Research 49: 335-343.
Macnae W. 1968. A general account of the fauna and flora of mangrove swamps and forests in the Indo-West Pacific region. Advances in Marine Biology 6: 73-270.
Macnae W. and Kalk M. 1962. The ecology of the mangrove swamps at Inhaca Island, Mozambique. Journal of Ecology 50: 19-34.
Macintosh D.J. 1984. Ecology and productivity of Malaysian mangroves crab populations (Decapoda: Branchyura). In: Soepadimo E., Rao A.N. and Macintosh D.J. (Eds.), Proceedings of the Asian Symposium on Mangrove Environment, Research and Management. University of Malaya, Kuala Lumpar, Malaysia, pp. 354-377.
Macintosh D.J. 1988. The ecology and physiology of decapods of mangrove swamps. Symposium of the Zoological Society London 59: 315-341.
Malley D.F. 1978. Degradation of mangrove leaf litter by the tropical sesarmid crab Chiromanthes onychophorum. Marine Biology 49: 377-386.
Micheli F. 1993. Feeding ecology of mangrove crabs in North Eastern Australia: mangrove litter consumption by Sesarma messa and Sesarma smithii. Journal of Experimental Marine Biology and Ecology 171: 165-186.
Micheli F., Gherardi F. and Vannini M. 1991. Feeding and burrowing ecology of two East African mangrove crabs. Marine Biology 111: 247-254.
Ngoile M.A.K. and Shunula J.P. 1992. Status and exploitation of the mangroves and associated fishery resources in Zanzibar. In: Jaccarini V. and Martens E. (Eds.), The Ecology of Mangroves and Related Ecosystems. Hydrobiologia 247: 229-234.
Qureshi M.T. 1996. Restoration of mangroves in Pakistan. In: Field C.D. (Ed.), Restoration of Mangrove Ecosystems. International Society of Mangrove Ecosystems (ISME), Okinawa, Japan, pp. 126-142.
Rawlins S.P. 1957. The East-African mangrove trade. Unpublished manuscript #51 of the National Museum of Kenya, Nairobi, Kenya.
Rönnbäck P. 2001. Mangroves and Seafood Production. The Ecological Economics of Sustainability. Akademitryck AB, Edsbruk, Sweden.
Robertson A.I. 1991. Plant-animal interactions and the structure and function of mangrove forest ecosystems. Australian Journal of Ecology 16: 433-443.
Robert L., Morlang A. and Gorman L. 1997. Monitoring the coastal environment Part II: Sediment sampling and geotechnical methods. Journal of Coastal Research 13: 308-330.
Ruwa R.K. 1997. Zonation of burrowing crabs in the mangroves of the east coast of Kenya. In: Kjerfre B., de Lacerda L.D. and Diop E.H.S. (Eds.), Mangrove Ecosystem Studies in Latin America and Africa. UNESCO, Paris, France, pp. 316-324.
Saenger P. 1996. Mangrove restoration in Australia: a case study of Brisbane International Airport. In: Field C.D. (Ed.), Restoration of Mangrove Ecosystems. International Society of Mangrove Ecosystems (ISME), Okinawa, Japan, pp. 36-51.
Sasekumar A., Chong V.C., Leh M.V. and D'Cruz R. 1992. Mangroves as a habitat for fish and prawns. In: Jaccarini V. and Martens E. (Eds.), The Ecology of Mangroves and Related Ecosystems. Hydrobiologia 247: 195-207.
Schrijvers J., Van Gansheke D. and Vincx M. 1995. Mangrove benthic infauna of mangrove and surrounding beaches at Gazi Bay, Kenya. Hydrobiologia 306: 55-66.
SFFL 1997. Performance Report for the Years 1994, 1995 and 1996. Small Fisheries Federation of Lanka, Pambala, Kakkapalliya, Sri Lanka.
Siddiqi N.A., and Khan M.A.S. 1996. Planting techniques of mangroves on new accretions in the coastal areas of Bangladesh. In: Field C.D. (Ed.), Restoration of Mangrove Ecosystems. International Society of Mangrove Ecosystems (ISME), Okinawa, Japan, pp. 143-159.
Slim F.J., Hemminga M.A., Ochieng C., Jannink N.T., Cocheret de laMoriniere E. and van der Velde G. 1997. Leaf litter removal by the snail Telebralia palustris (Linnaeus) and sesarmid crabs in an East African mangrove forest (Gazi Bay, Kenya). Journal of Experimental Marine Biology and Ecology 215: 35-48.
Smith III T.J. 1987. Seed predation in relation to tree dominance and distribution in mangrove forests. Ecology 68: 266-273.
Steele O.C., Ewel C.K. and Goldstein G. 1999. The importance of propagule predation in a forest of non-indigenous mangrove trees. Wetlands 19: 705-708.
Steinke T.D., Rajh A. and Holland A.J. 1993. The feeding behaviour of the red mangrove crab Sesarma meinerti De Man, 1887 (Crustacea: Decapoda: Grapsidae) and its effect on the degradation of mangrove litter. South African Journal of Marine Science 13: 151-160.
Stromberg H., Petterson C. and Johnson R. 1998. Spatial variations in benthic macrofauna and nutrient dynamics in a mangrove forest subject to intense deforestation: Zanzibar, Tanzania. Ambio 27(8): 734-739.
Tack J.F. and Polk P. 1999. The influence of tropical catchments upon the coastal zone: modelling the links between groundwater and mangrove losses in Kenya, India and Florida. In: Harper D. and Brown T. (Eds.), Sustainable Management in Tropical Catchments. John Wiley and Sons Ltd, London.
Tomlinson P.B. 1986. The Botany of Mangroves. Cambridge University Press, Cambridge, UK, 419 pp.
Vannini M., Oluoch A. and Ruwa R.K. 1997. Tree climbing decapods of Kenyan mangroves. In: Kjerfre B., de Lacerda L.D. and Diop E.H.S. (Eds.), Mangrove Ecosystem Studies in Latin America and Africa. UNESCO, Paris, France, pp. 325-338.
Wartel S., Barusseau J. and Cornand L. 1995. Improvement of grain size analyzes using the automated SEDIGRAPH 5100. Studiedocumenten van het K.B.I.N. 28 pp.
Watson J.G. 1928. Mangrove Forests of the Malay Peninsula. Malay Forest Records Vol. 6. Fraser and Neave, Singapore, 275 pp.
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Bosire, J., Dahdouh-Guebas, F., Kairo, J. et al. Spatial variations in macrobenthic fauna recolonisation in a tropical mangrove bay. Biodiversity and Conservation 13, 1059–1074 (2004). https://doi.org/10.1023/B:BIOC.0000018149.88212.2d
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DOI: https://doi.org/10.1023/B:BIOC.0000018149.88212.2d