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RESEARCH ARTICLE
Contents Vol 60(6)

Nursery grounds, movement patterns and growth rates of dusky sharks, Carcharhinus obscurus: a long-term tag and release study in South African waters

Nigel E. Hussey A E , Ian D. McCarthy A , Sheldon F. J. Dudley B C and Bruce Q. Mann D
+ Author Affiliations
- Author Affiliations

A School of Ocean Sciences, College of Natural Sciences, Bangor University, Menai Bridge, Anglesey, LL59 5AB, UK.

B KwaZulu-Natal Sharks Board, Private Bag 2, Umhlanga Rocks 4320, South Africa.

C Biomedical Resource Unit, University of KwaZulu-Natal, Durban 4056, South Africa.

D Oceanographic Research Institute, PO Box 107012, Marine Parade, Durban 4056, South Africa.

E Corresponding author. Email: nigel.hussey@bangor.ac.uk

Marine and Freshwater Research 60(6) 571-583 https://doi.org/10.1071/MF08280
Submitted: 3 October 2008  Accepted: 16 January 2009   Published: 19 June 2009

Abstract

Knowledge of movement patterns of sharks in coastal waters is critical for the structuring of regional management plans. Through a long-term tag–recapture program, 9716 dusky sharks (Carcharhinus obscurus) were tagged and released along the east coast of South Africa. A total of 648 C. obscurus, principally small sharks (<100 cm PCL), were recaptured. Most recaptures were within 100 km of the tagging location in the nursery habitat in KwaZulu-Natal (KZN) with small scale movements occurring throughout the year. Forty-eight C. obscurus undertook movements >200 km that indicated a southerly migration between KZN and Eastern/Southern Cape (E/SC) between June and November. Seasonal northerly migrations were less well defined. The largest southerly and northerly movements were 1323 km and 1374 km, respectively. For sharks moving 1–100 km south from their tagging locality in KZN, an increase in displacement occurred between June and September identifying animals beginning their migration to the E/SC. With increasing displacement, there was also an increase in minimum swimming speed. Calculated growth rates of small sharks of 10.3–11.5 cm year–1 were in agreement with current literature values. Established tag–recapture programs provide an important tool in understanding the ecology of early life-stages of coastal shark species.

Additional keywords: displacement, GROTAG, migration, nursery concept, residency, tag–recapture.


Acknowledgements

We are indebted to the anglers and fishermen who participate in the ORI-WWFSA tagging program and who provided the data to enable this study to take place. The use of Colin Simpfendorfer’s GROTAG spreadsheet enabled aspects of the growth analysis. Comments provided by Sabine Wintner, Sean Fennessey, Simon Oliver and two anonymous referees greatly improved this manuscript. Gratitude is expressed to David Cocks for discussions regarding aspects of this work. This research, including the tag–recapture program, complies with the laws of South Africa. N. E. H. was supported by a NERC PhD studentship (NER/S/A/2005/13426).


References

Bass A. J., D’Aubrey J. D., and Kistnasamy N. (1973). Sharks of the east coast of southern Africa. 1. The genus Carcharhinus (Carcharhinidae). South African Association for Marine Biological Research, Oceanographic Research Institute, Investigational Report No. 33. Durban, South Africa.

Beck, M. W. , Heck, K. L. , Able, K. W. , Childers, D. L. , and Eggleston, D. B. , et al. (2001). The identification, conservation and management of estuarine and marine nurseries for fish and invertebrates. Bioscience 51, 633–641.
Crossref | GoogleScholarGoogle Scholar | Branstetter S. (1990). Early life-history implications of selected carcharhinoid and lamnoid sharks of the northwest Atlantic. In ‘Elasmobranchs as Living Resources: Advances in Biology, Ecology, Systematics and the Status of the Fisheries’. (Eds H. L. Pratt Jr, S. H. Gruber and T. Taniuchi.) pp. 17–28. National Oceanic and Atmospheric Administration Technical Report, National Marine Fisheries Service No. 90.

Bullen E. M., and Mann B. Q. (2006). ORI/WWF-SA Tagging project: Summary of dusky sharks (Carcharhinus obscurus) tagged and recaptured in South Africa 1984–2006. South African Association for Marine Biological Research, Oceanographic Research Institute, Investigational Report No. 13. Durban, South Africa.

Clarke, E. , and Von Schmidt, K. (1965). Sharks of the central Gulf coast of Florida. Bulletin of Marine Science 15, 13–83.
Connell A. D. (1997). Seasonal trends in sardine spawning at Park Rynie, KwaZulu-Natal south coast. In ‘Workshop on South African Sardine’. (Eds M. Barange and C. Van Der Lingen.) pp. 29–33. Sea Fisheries Research Institute, Benguela Ecology Programme Report No. 29.

Davies D. H., and Joubert L. S. (1967). Tag evaluation and shark tagging in South African waters, 1964–1965. In ‘Sharks, Skates and Rays’. (Eds P. W. Gilbert, R. F. Mathewson and D. P. Rall.) pp. 111–140. (John Hopkins Press: Baltimore, MD.)

Dicken, M. L. , Smale, M. J. , and Booth, A. J. (2006). Shark fishing effort and catch of the ragged-tooth shark Carcharias taurus in the South African competitive shore-angling fishery. African Journal of Marine Science 28, 589–601.
Hoenig J. M. (1979). Growth rate of large sharks determined by vertebral rings. PhD Thesis, University of Rhode Island, Kingston.

Hutchings, L. , Beckley, L. E. , Griffiths, M. H. , Roberts, M. J. , and Sundby, S. , et al. (2002). Spawning on the edge: spawning grounds and nursery areas around the southern African coastline. Marine and Freshwater Research 53, 307–318.
Crossref | GoogleScholarGoogle Scholar | Musick J. A., Branstetter S., and Colvocoresses J. A. (1993). Trends in shark abundance from 1974 to 1991 for the Chesapeake Bight region of the U.S. Mid Atlantic coast. NOAA Technical Report. St Petersburg, FL, National Marine Fisheries Service 115, 1–18.

Natanson, L. J. , and Kohler, N. E. (1996). A preliminary estimate of age and growth of the dusky shark (Carcharhinus obscurus) from the south-west Indian Ocean, with comparisons to the western North Atlantic population. South African Journal of Marine Science 17, 217–224.
Ricker W. E. (1979). Growth rates and models. In ‘Fish Physiology ’. (Eds W. S. Hoar, D. J. Randall and J. R. Brett.) pp. 677–743. (Academic Press: New York.)

Sauer, W. H. H. , Smale, M. J. , and Lipinski, M. R. (1992). The location of spawning grounds, spawning and schooling behaviour of the squid Loligo vulgaris reynaudii (Cephalopoda: Myopsida) off the Eastern Cape Coast, South Africa. Marine Biology 114, 97–107.
Simpfendorfer C. A. (1999). Demographic analysis of the dusky shark fishery in southwestern Australia. In ‘Life in the Slow Lane: Ecology and Conservation of Long-Lived Marine Animals’. (Ed. J. A. Musick) pp. 149–160. American Fisheries Society Symposium No. 23. Bethesda, MD.

Simpfendorfer, C. A. (2000). Growth rates of juvenile dusky sharks, Carcharhinus obscurus (Lesueur, 1818), from southwestern Australia estimated from tag-recapture data. Fishery Bulletin 98, 811–822.
Van der Elst R. P. (1981). ‘A Guide to Common Sea Fishes of Southern Africa.’ (C. Struik: Cape Town.)

Voegeli, F. A. , Smale, M. J. , Webber, D. M. , Andrade, Y. , and O’Dor, K. (2001). Ultrasonic telemetry, tracking and automated monitoring technology for sharks. Environmental Biology of Fishes 60, 267–282.
Crossref | GoogleScholarGoogle Scholar | Zar J. H. (1999). ‘Biostatistical Analysis.’ 4th edn. (Prentice Hall: Upper Saddle River, NJ.)