Hostname: page-component-78c5997874-ndw9j Total loading time: 0 Render date: 2024-11-18T04:26:00.572Z Has data issue: false hasContentIssue false

Conservation and management of humpback dolphins: the South African perspective*

Published online by Cambridge University Press:  24 April 2009

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.

Population biology and socio-ecology of Indo-Pacific humpback dolphins Sousa chinensis were investigated during a 3-year study period in the Algoa Bay region, South Africa. The dolphins inhabit a narrow strip of coastal waters, mostly less than 15 m deep. Groups are small (mean = 7 animals) and their daily activities concentrate around shallow rocky reefs—the primary feeding grounds. Dependence on these restricted, shallow-water habitats is evident throughout the year. Site fidelity is generally weak and is subject to seasonal migration, although female site fidelity seems to be related to reproductive stage. Births occur predominantly in summer. The social system is highly fluid, structured to some degree by sex and age, ‘matesearching’ behaviour being the most likely male reproductive strategy. The dolphins inhabiting Algoa Bay are part of a substantially larger population that uses a considerable length of the coastal zone. Estimated population parameters are generally low, as are modelled population growth rates, and an increase in the population size seems unlikely. Humpback dolphins appear to be vulnerable to negative environmental pressure and the alteration/destruction of inshore habitats is probably among the greatest threats to them. Conservation of this species should be given high priority and be seen as an important part of integrated coastal zone management. Establishment of multiple-use management areas with controlled ecotourism and several priority sites declared as strict reserves seems to be the most effective conservation approach. In order to be successful, conservation and management policies need to recognize the needs and lifestyles of the local inhabitants.

Type
Research Article
Copyright
Copyright © Fauna and Flora International 2000

References

Cockcroft, V.G. (1989) Biology of Indopacific humpback dolphins (Sousa plumbea) off Natal, South Africa. In Abstracts, Eighth Biennial Conference on the Biology of Marine Mammals. Pacific Grove, California, USA.Google Scholar
Cockcroft, V.G. (1990) Dolphin catches in the Natal shark nets, 1980 to 1988. South African journal of Wildlife Research, 20, 4451.Google Scholar
Cockcroft, V.G. (1994) Is there common cause for dolphin capture in gillnets? A review of dolphin catches in shark nets off Natal, South Africa. Reports of the International Whaling Commission, Special Issue, 15, 541547.Google Scholar
Cockcroft, V.G. & Karczmarski, L. (1997) Can dolphins benefit from conservation zones in South Africa? Custos, 11 1214.Google Scholar
Cockcroft, V.G. & Krohn, R. (1994) Passive gear fisheries off the southwestern Indian and southeastern Atlantic oceans: an assessment of their possible impact on cetaceans. Reports of the International Whaling Commission, Special Issue, 15, 317328.Google Scholar
Cockcroft, V.G., De Kock, A.C., Lord, D.A. & Ross, G.J.B. (1989) Organochlorines in bottlenose dolphins Tursiops truncatus from the east coast of South Africa. South African Journal of Marine Science, 8, 207217.CrossRefGoogle Scholar
Cockcroft, V.G., Ross, G.J.B., Connell, A.D., Gardner, B.D. & Butler, A.C. (1991) Occurrence of organochlorines in stranded cetaceans and seals from the east coast of southern Africa. In Cetaceans and Cetacean Research in the Indian Ocean Sanctuary (eds Leatherwood, S. and Donovan, G. P.), pp. 271276. Marine Mammal Technical Report No. 3., UNEP.Google Scholar
Cockcroft, V.G., Vely, M., Rakotonirina, B.P., Young, D.D. & Karczmarski, L. (1997) Marine mammals of Madagascar (and the Comoros Islands) and their exploitation. International Whaling Commission Scientific Committee Report SC/49sol;SH18.Google Scholar
Constantine, R. (1999) Effects of tourism on marine mammals in New Zealand. Science for Conservation Series 106, New Zealand Department of Conservation, Wellington.Google Scholar
De Kock, A.C., Best, P.B., Cockcroft, V.G. & Bosma, C. (1994) Persistent organochlorine residues in small cetaceans from the east and west coasts of southern Africa. Science of the Total Environment, 154, 153162.CrossRefGoogle Scholar
Durham, B. (1994) The distribution and abundance of the humpback dolphins (Sousa chinensis,) along the Natal coast, South Africa. MSc thesis, University of Natal.Google Scholar
Gilpin, M.E. & Diamond, J.M. (1976) Calculation of immigration and extinction curves from the species-area-distance relation. Proceedings of the National Academy of Sciences of the United States of America, 73, 41304134.Google Scholar
Gilpin, M.E. & Soulé, M.E. (1986) Minimum viable populations: processes of species extinction. In Conservation Biology: the Science of Scarcity and Diversity (ed. Soulé, M. E.), pp. 1934. Sinauer Associates, Sunderland.Google Scholar
Goodwin-Smith, J. (1997) Molecular genetic assessment of the population structure and variation in two inshore dolphin genera on the east coast of South Africa. PhD thesis, Rhodes University.Google Scholar
Guissamulo, A. T. (1993) Distribuicao e abundancia de golfinhos e dugongos e suas interaccoes com algumas pescarias nas baias de Maputo e Bazaruto. Licenciatura thesis, Universidade Eduardo Mondlane, Maputo [in Portuguese].Google Scholar
Guissamulo, A.T. (2000) Ecological studies of bottlenose and humpback dolphins of Maputo Bay, southern Mozambique. PhD thesis, University of Natal.Google Scholar
Guissamulo, A.T. & Cockcroft, V.G. (1997) Dolphin and dugong occurrence and distribution and fisheries interactions in Maputo and Bazaruto Bays, Mozambique. International Whaling Commission Scientific Committee Report SC/49/SM24.Google Scholar
Hale, P. (1997) Conservation of inshore dolphins in Australia. Asian Marine Biology, 14, 8391.Google Scholar
Jefferson, T.A. (2000) Population biology of the Indo-Pacific hump-backed dolphin in Hong Kong waters. Wildlife Monographs (in press).Google Scholar
Jefferson, T.A. & Karczmarski, L. (2000) Sousa chinensis. Mammalian Species (in press).2.0.CO;2>CrossRefGoogle Scholar
Johannes, R.E. & Hatcher, B.G. (1986) Shallow tropical marine environments. In Conservation Biology: the Science of Scarcity and Diversity (ed. Soulé, M. E.), pp. 371382. Sinauer Associates, Sunderland.Google Scholar
Karczmarski, L. (1996) Ecological studies of humpback dolphins Sousa chinensis in the Algoa Bay region, Eastern Cape, South Africa. PhD thesis, University of Port Elizabeth.Google Scholar
Karczmarski, L. (1999) Group dynamics of humpback dolphins Sousa chinensis in the Algoa Bay region, South Africa. Journal of Zoology, 249, 283293.CrossRefGoogle Scholar
Karczmarski, L. & Cockcroft, V.G. (1997) Socio-ecology and population biology of humpback dolphins (Sousa chinensis) in the Algoa Bay region, South Africa: an overview. International Whaling Commission Scientific Committee Report SC/49/SM23.Google Scholar
Karczmarski, L. & Cockcroft, V.G. (1998) Matrix photo-identification technique applied in studies of free-ranging bottlenose and humpback dolphins. Aquatic Mammals, 24, 143147.Google Scholar
Karczmarski, L. & Cockcroft, V.G. (1999) Daylight behaviour of Humpback dolphins Sousa chinensis in Algoa Bay, South Africa. Zeitschrift fur Saugetierkunde, 64, 1929.Google Scholar
Karczmarski, L., Thornton, M. & Cockcroft, V.G. (1997) Description of selected behaviours of humpback dolphins Sousa chinensis. Aquatic Mammals, 23, 127133.Google Scholar
Karczmarski, L., Cockcroft, V.G., McLachlan, A. & Winter, P.E.D. (1998) Recommendations for the conservation and management of humpback dolphins Sousa chinensis in the Algoa Bay region, South Africa. Koedoe, 41, 121129.CrossRefGoogle Scholar
Karczmarski, L., Cockcroft, V.G. & McLachlan, A. (1999a) Group size and seasonal pattern of occurrence of humpback dolphins Sousa chinensis in Algoa Bay, South Africa. South African journal of Marine Science, 21, 8997.CrossRefGoogle Scholar
Karczmarski, L., Winter, P.E.D., Cockcroft, V.G. & McLachlan, A. (1999b) Population analyses of Indo-Pacific humpback dolphins Sousa chinensis in Algoa Bay, Eastern Cape, South Africa. Marine Mammal Science, 15, 11151123.CrossRefGoogle Scholar
Karczmarski, L., Cockcroft, V.G. & McLachlan, A. (2000a) Habitat use and preferences of Indo-Pacific humpback dolphins Sousa chinensis in Algoa Bay, South Africa. Marine Mammal Science, 16, 6579.CrossRefGoogle Scholar
Karczmarski, L., Thornton, M. & Cockcroft, V.G. (2000b) Daylight occurrence of humpback dolphins Sousa chinensis in Algoa Bay, South Africa. African Journal of Ecology, 38, 8690.CrossRefGoogle Scholar
Klinowska, M. (1991) Dolphins, porpoises and whales of the world. In The IUCN Red Data Book. IUCN, Gland.Google Scholar
Kukenthal, W. (1892) Sotalia teuszii n. sp., ein pflanzenfressender Delphin aus Kamerun. Zoologishe Jahrbuch, 6, 442446.Google Scholar
Lai Mohan, R.S. (1994) Review of gillnet fisheries and cetacean bycatches in the northeastern Indian Ocean. Reports of the International Whaling Commission, Special Issue, 15, 329343.Google Scholar
Marsh, H., Corkeron, P.J., Limpus, C.J., Shaughnessy, P.D. & Ward, T.M. (1993) Conserving marine mammals and reptiles in Australia and Oceania. In Conservation Biology in Australia and Oceania (eds Moritz, C. and Kikkawa, J.), pp. 225244. Surrey Beatty & Sons, Chipping Norton.Google Scholar
Martineau, D., De Guise, S., Fournier, M., Shugart, L., Girard, C, Lagace, A. et al. (1994) Pathology and toxicology of beluga whales from the St. Lawrence estuary, Quebec, Canada. Past, present and future. Science of the Total Environment, 154, 201215.CrossRefGoogle Scholar
Mate, B.R., Rossbach, K.A., Nieukirk, S.L., Wells, R.S., Irvine, A.B., Scott, M.D. et al. . (1995) Satellite-monitored movements and dive behavior of a bottlenose dolphin (Tursiops truncatus) in Tampa Bay, Florida. Marine Mammal Science, 11, 452463.CrossRefGoogle Scholar
Obura, D., Ilangakoon, A., Jayewardene, H. & Stone, G. (eds) (1996) Integrating marine conservation in the Indian Ocean: 1996 and beyond. Report of the Indian Ocean Conservation Program Workshop, Mombasa, Kenya, 1995. New England Aquarium, Boston.Google Scholar
Ogden, J.C. & Gladfelter, E.H. (1983) Coral reefs, seagrass beds and mangroves: their interaction in the coastal zone of the Caribbean. UNESCO Reports in Marine Science 23.Google Scholar
Osbeck, P. (1765) Reise nach Ostindien und Chiina. Koppe, Rostok.Google Scholar
Reeves, R.R. & Leatherwood, S. (1994) Dolphins, Porpoises And Whales: 1994–1998 Action Plan for the Conservation of Cetaceans. IUCN, Gland.Google Scholar
Reijnders, P.J.H. (1980) Organochlorine and heavy metal residues in harbour seals from the Wadden Sea and their possible effects on reproduction. Netherlands Journal of Sea Research, 14, 3065.CrossRefGoogle Scholar
Ross, G.J.B., Heinsohn, G.E. & Cockcroft, V.G. (1994) Humpback dolphins Sousa chinensis (Osbeck, 1765), Sousa plumbea (G. Cuvier, 1829) and Sousa teuszii(Kukenthal, 1892). In Handbook of Marine Mammals, Vol. 5: The First Book of Dolphins (eds Ridgway, S. H. and Harrison, R.), pp. 2342. Academic Press, San Diego.Google Scholar
Rützler, K. & Feller, I.C. (1987) Mangrove swamp communities. Oceanus, 30, 7684.Google Scholar
Salm, R.V. & Clark, J.R. (1989) Marine and Coastal Protected Areas: A Guide for Planners and Managers. IUCN, Gland.Google Scholar
Simmonds, M.P. & Hutchinson, J.D. (eds) (1996) The Conservation of Whales and Dolphins. John Wiley & Sons, Chichester.Google Scholar
Slooten, E. & Lad, F. (1991) Population biology and conservation of Hector's dolphin. Canadian Journal of Zoology, 69, 17011707.Google Scholar
Slooten, E., Dawson, S.M. & Whitehead, H. (1993) Associations among photographically identified Hector's dolphins. Canadian Journal of Zoology, 71, 23112318.CrossRefGoogle Scholar
Subramanian, A.N., Tanabe, S., Tatsukawa, R., Saito, S. & Miyazaki, N. (1987) Reduction in the testosterone levels by PCBs and DDE in Dall's porpoises of the northwestern north Pacific. Marine Pollution Bulletin, 18, 643646.CrossRefGoogle Scholar
Vos, J.G. & De Roy, T. (1972) Immuno suppressive activity of a polychlorinated biphenyl preparation on the humoral immune response in guinea pigs. Toxicology and Applied Pharmacology, 21, 549555.Google Scholar
Wells, R.S. (1993) The marine mammals of Sarasota Bay. In Sarasota Bay: 1992 Framework for Action (eds Roat, P., Ciccolella, C., Smith, H. and Tomasko, D.), pp. 9.19.23. Sarasota Bay National Estuary Program, Sarasota.Google Scholar
Whitehead, H. (1987) Social organization of sperm whales off the Galapagos: implication for management and conservation. Reports of the International Whaling Commission, 37, 195199.Google Scholar
Whitehead, H. & Arnbom, T. (1987) Social organization of sperm whales off the Galapagos Islands, February–April 1985. Canadian Journal of Zoology, 65, 913919.CrossRefGoogle Scholar