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RESEARCH ARTICLE
Contents Vol 58(10)

Validation of age and growth in a long-lived temperate reef fish using otolith structure, oxytetracycline and bomb radiocarbon methods

Graeme P. Ewing A E , Jeremy M. Lyle A , Raymond J. Murphy A B , John M. Kalish C D and Philippe E. Ziegler A
+ Author Affiliations
- Author Affiliations

A Marine Research Laboratories, Tasmanian Aquaculture and Fisheries Institute, University of Tasmania, Private Bag 49, Hobart, Tas. 7001, Australia.

B Present address: Resource Planning and Development Commission, GPO Box 1691, Hobart, Tas. 7001, Australia.

C Division of Botany and Zoology, Australian National University, Canberra, ACT 0200, Australia.

D Present address: Department of Agriculture, Fisheries and Forestry, GPO Box 858, Canberra, ACT 2601, Australia.

E Corresponding author. Email: graeme.ewing@utas.edu.au

Marine and Freshwater Research 58(10) 944-955 https://doi.org/10.1071/MF07032
Submitted: 15 February 2007  Accepted: 17 September 2007   Published: 30 October 2007

Abstract

Generating age estimates for long-lived fish requires particular attention to validation because they are usually difficult to age owing to narrow increment structure. A robust validation of the accuracy and precision of banded morwong, Cheilodactylus spectabilis, sampled from Tasmanian waters, was undertaken. Age at the first enumerated increment was established from analysis of juvenile cohorts, and the timing and periodicity of increment formation was established using a quantitative model from oxytetracycline (OTC) mark-recaptures at liberty for periods of up to 8 years. The accuracy of age estimates was examined independently by comparing radiocarbon values in the otolith region corresponding to the first year of growth against the south-western Pacific calibration curve. C. spectabilis is very long-lived, with males and females living to over 90 years of age. Growth modelling revealed a fast initial growth phase, terminating in an abrupt plateau near the asymptotic length. This species displays substantial sexual dimorphism in growth, with males growing to larger sizes than females.

Additional keywords: cheilodactylidae, longevity.


Acknowledgements

We wish to thank Brett Wolf for providing access to samples of recently settled fish and the various research staff, including Tim Debnam and Sean Tracey, who assisted with the collection and processing of otoliths. Commercial fishers, in particular Mark Cuthbertson, who assisted with sampling and willingly provided information on recaptures are gratefully acknowledged. We are particularly grateful for the improvement of the manuscript by the referee A. H. Andrews and two anonymous referees. The present study was assisted with funding provided by the Fisheries Research and Development Corporation, Projects 93/109 and 95/145.


References

Akaike H. (1974). A new look at the statistical model identification. In ‘Institute of Electrical and Electronic Engineers Transactions on Automatic Control’. pp. 716–723. (IEEE Control Systems Society: New York.)

Andrews, A. H. , Burton, E. J. , Kerr, L. A. , Cailliet, G. M. , Coale, K. H. , Lundstrom, C. C. , and Brown, T. A. (2005). Bomb radiocarbon and lead-radium disequilibria in otoliths of bocaccio rockfish (Sebastes paucispinis): a determination of age and longevity for a difficult-to-age fish. Marine and Freshwater Research 56, 517–528.
Crossref | GoogleScholarGoogle Scholar | Beckman D. W., and Wilson C. A. (1995). Seasonal timing of opaque zone formation in fish otoliths. In ‘Recent Developments in Fish Otolith Research’. (Eds D. H. Secor, J. M. Dean and S. E. Campana.) pp. 27–43. (University of South Carolina Press: Columbia, SC.)

Bruce, B. D. , Evans, K. , Sutton, C. A. , Young, J. W. , and Furlani, D. M. (2001). Influence of mesoscale oceanographic processes on larval distribution and stock structure in jackass morwong (Nemadactylus macropterus: Cheilodactylidae). ICES Journal of Marine Science 58, 1072–1080.
Crossref | GoogleScholarGoogle Scholar | Eschmeyer W. N., Herald E. S., and Hammann H. (1983). ‘A Field Guide to Pacific Coast Fishes of North America.’ (Houghton Mifflin Company: Boston.)

Ewing, G. P. , Welsford, D. C. , Jordan, A. R. , and Buxton, C. (2003). Validation of age and growth estimates using thin otolith sections from the purple wrasse, Notolabrus fucicola. Marine and Freshwater Research 54, 985–993.
Crossref | GoogleScholarGoogle Scholar | Froese R., and Pauly D. (2006). FishBase. World Wide Web electronic publication. Available at www.fishbase.org, version (11/2006) [Validated September 2007].

Gillanders, B. M. , Ferrell, D. J. , and Andrew, N. L. (1999). Aging methods for yellowtail kingfish, Seriola lalandi, and results from age- and size-based growth models. Fishery Bulletin 97, 812–827.
Gomon M. F., Glover J. C. M., and Kuiter R. H. (1994). ‘The Fishes of Australia’s South Coast.’ (State Print: Adelaide.)

Hostetter, E. B. , and Munroe, T. A. (1993). Age, growth, and reproduction of tautog Tautoga onitis (Labridae: Perciformes) from coastal waters of Virginia. Fishery Bulletin 91, 45–64.
Kalish J. M. (1995b). Radiocarbon and fish biology. In ‘Recent Developments in Fish Otolith Research’. (Eds D. H. Secor, J. M. Dean and S. E. Campana.) pp. 637–653. (University of South Carolina Press: Columbia, SC.)

Kalish J. M. (2001). Use of the bomb radiocarbon chronometer to validate fish age. Fisheries Research and Development Corporation, Canberra, Australia, Final Report FRDC Project number 93/109.

Kalish J. M., Beamish R. J., Brothers E. B., Casselman J. M., Francis R. I. C. C., Mosegaard H., Panfili J., Prince E. D., Thresher R. E., Wilson C. A., and Wright P. J. (1995). Glossary for otolith studies. In ‘Recent Developments in Fish Otolith Research’. (Eds D. H. Secor, J. M. Dean and S. E. Campana.) pp. 723–729. (University of South Carolina Press: Columbia, SC.)

Kalish, J. M. , Johnston, J. M. , Gunn, J. S. , and Clear, N. P. (1996). Use of the bomb radiocarbon chronometer to determine age of southern bluefin tuna Thunnus maccoyii. Marine Ecology Progress Series 143, 1–8.
Crossref | GoogleScholarGoogle Scholar | Murphy R. J., and Lyle J. M. (1999). Impact of gillnet fishing on inshore temperate reef fishes, with particular reference to Banded Morwong. Tasmanian Aquaculture and Fisheries Institute, University of Tasmania, FRDC Project number 95/145 Final Report. Available at http://www.utas.edu.au/tafi/PDF_files/GillnetFRDCfinalreport.pdf [Validated September 2007].

Piner, K. R. , and Wischniowski, S. G. (2004). Pacific halibut chronology of bomb radiocarbon in otoliths from 1944 to 1981 and a validation of ageing methods. Journal of Fish Biology 64, 1060–1071.
Crossref | GoogleScholarGoogle Scholar | Wolf B. (1998). Update on juvenile banded morwong in Tasmania. Fishing Today. 4(11), 30–31.

Woodbury, D. (1999). Reduction of growth in otoliths of widow and yellowtail rockfish (Sebastes entomelas and S. flavidus) during the 1983 El Nino. Fishery Bulletin 97, 680–689.