Free Standard AU & NZ Shipping For All Book Orders Over $80!
Register      Login
Marine and Freshwater Research Marine and Freshwater Research Society
Advances in the aquatic sciences
RESEARCH ARTICLE

Age validation of canary rockfish (Sebastes pinniger) using two independent otolith techniques: lead-radium and bomb radiocarbon dating

Allen H. Andrews A F , Lisa A. Kerr B , Gregor M. Cailliet A , Thomas A. Brown C , Craig C. Lundstrom D and Richard D. Stanley E
+ Author Affiliations
- Author Affiliations

A Moss Landing Marine Laboratories, California State University, 8272 Moss Landing Road, Moss Landing, CA 93940, USA.

B University of Maryland Center for Environmental Science, Chesapeake Biological Laboratory, PO Box 38, Solomons, MD 20688, USA.

C Lawrence Livermore National Laboratory, Center for Accelerator Mass Spectrometry, 7000 East Avenue, Livermore, CA 94551, USA.

D University of Illinois – Urbana Champaign, Department of Geology, 245 Natural History Building, 1301 West Green St, Urbana, IL 61801, USA.

E Fisheries and Oceans Canada, Pacific Biological Station, Nanaimo, British Columbia, V9T 6N7, Canada.

F Corresponding author. Email: andrews@mlml.calstate.edu

Marine and Freshwater Research 58(6) 531-541 https://doi.org/10.1071/MF07074
Submitted: 12 April 2007  Accepted: 11 May 2007   Published: 29 June 2007

Abstract

Canary rockfish (Sebastes pinniger) have long been an important part of recreational and commercial rockfish fishing from south-east Alaska to southern California, but localised stock abundances have declined considerably. Based on age estimates from otoliths and other structures, lifespan estimates vary from ~20 years to over 80 years. For the purpose of monitoring stocks, age composition is routinely estimated by counting growth zones in otoliths; however, age estimation procedures and lifespan estimates remain largely unvalidated. Typical age validation techniques have limited application for canary rockfish because they are deep-dwelling and may be long-lived. In this study, the unaged otolith of the pair from fish aged at the Department of Fisheries and Oceans Canada was used in one of two age validation techniques: (1) lead-radium dating and (2) bomb radiocarbon (14C) dating. Age estimate accuracy and the validity of age estimation procedures were validated based on the results from each technique. Lead-radium dating proved successful in determining that a minimum estimate of lifespan was 53 years and provided support for age estimation procedures up to ~50–60 years. These findings were further supported by Δ14C data, which indicated that a minimum estimate of lifespan was 44 ± 3 years. Both techniques validate, to differing degrees, age estimation procedures and provide support for inferring that canary rockfish can live more than 80 years.

Additional keywords: accelerator mass spectrometry, age estimation, alpha-spectrometry, carbon-14, lead-210, radiometry, radium-226, Scorpaenidae.


Acknowledgements

We thank Shayne MacLellan and Darlene Gillespie of the Department of Fisheries & Oceans Canada, Pacific Biological Station, Nanaimo, B.C., Canada for providing aged canary rockfish otoliths for this study in addition to assistance with manuscript preparations. Thanks to Melissa Stevens for assisting with processing the otolith samples and age groups analysed in this study, Paula Zermeno at the Center for Accelerator Mass Spectrometry for assistance with the bomb radiocarbon analyses, and Kenneth Coale for assistance with data interpretation. This work was supported by the National Sea Grant College Program of the USA Department of Commerce’s National Oceanic and Atmospheric Administration under NOAA Grant number NA06RG0142, project numbers R/F-182 and R/F-190, through the California Sea Grant College Program; and in part by the California State Resources Agency. This research was also supported by the Center for Accelerator Mass Spectrometry under the University Collaborative Research Program at Lawrence Livermore National Laboratory and was carried out, in part, under the auspices of the USA Department of Energy by University of California, Lawrence Livermore National Laboratory under Contract No. W-7405-Eng-48. The views expressed herein do not necessarily reflect the views of any of those organisations. The USA government is authorised to reproduce and distribute for governmental purposes.


References

Andrews, A. H. , Cailliet, G. M. , and Coale, K. H. (1999a). Age and growth of the Pacific grenadier (Coryphaenoides acrolepis) with age estimate validation using an improved radiometric ageing technique. Canadian Journal of Fisheries and Aquatic Sciences 56, 1339–1350.
Crossref | GoogleScholarGoogle Scholar | Bloeser J. A. (1999). ‘Diminishing Returns: the Status of West Coast Rockfish.’ (Pacific Marine Conservation Council: Astoria, OR.)

Boehlert, G. W. (1980). Size composition, age composition, and growth of canary rockfish, Sebastes pinniger, and splitnose rockfish, S. diploproa, from the 1977 rockfish survey. Marine Fisheries Review 42, 55–60.
Boehlert G. W., and Yoklavich M. M. (1986). Long-term cycles of growth in Sebastes: extracting information from otoliths. In ‘Proceedings of the International Rockfish Symposium’. pp. 171–196. October 1986, Anchorage, Alaska, USA.

Cailliet, G. M. , Andrews, A. H. , Burton, E. J. , Watters, D. L. , Kline, D. E. , and Ferry-Graham, L. A. (2001). Age determination and validation studies of marine fishes: do deep-dwellers live longer? Experimental Gerontology 36, 739–764.
Crossref | GoogleScholarGoogle Scholar | PubMed | Chilton D. E., and Beamish R. J. (1982). ‘Age determination methods for fishes studied by the Groundfish Program at the Pacific Biological Station.’ Canadian Special Publication of Fisheries and Aquatic Sciences No. 60. (Department of Fisheries and Oceans: Ottawa, Canada.)

Crone P. R., Piner K. R., Methot R. D., Conser R. J., and Builder T. L. (1999). ‘Status of the canary rockfish resource off Oregon and Washington in 1999.’ Appendix to ‘The Status of the Pacific Coast Groundfish Fishery through 1999 and Recommended Acceptable Biological Catches for 2000’. (Pacific Fishery Management Council: Portland, OR.)

DeMott G. E. (1983). Movement of tagged lingcod and rockfishes off Depoe Bay, Oregon. M.S. Thesis. (Oregon State University, Portland, OR.)

Francis, R. I. C. C. (2003). The precision of otolith radiometric ageing of fish and the effect of within-sample heterogeneity. Canadian Journal of Fisheries and Aquatic Sciences 60, 441–447.
Crossref | GoogleScholarGoogle Scholar | Kalish J. M. (2001). ‘Use of the Bomb Radiocarbon Chronometer to Validate Fish Age.’ Final Report FRDC Project 93/109. (Fisheries Research and Development Corporation: Canberra.)

Kalish, J. M. , Nydal, R. , Nedreaas, K. H. , Burr, G. S. , and Eine, G. L. (2001). A time history of pre- and post-bomb radiocarbon in the Barents Sea derived from Arcto-Norwegian cod otoliths. Radiocarbon 43(2B), 843–855.
Kline D. E. (1996). Radiochemical age verification for two deep-sea rockfishes (Sebastolobus altivelis and S. alascanus). M.Sc. Thesis, California State University. (Moss Landing Marine Laboratories: San Jose, CA.)

Love M. S., Yoklavich M., and Thorsteinson L. (2002). ‘The Rockfishes of the Northeast Pacific.’ (University of California Press: Berkeley, CA.)

MacLellan S. E. (1997). ‘How to Age Rockfish (Sebastes) using S. alutus as an Example – the Otolith Burnt Section Technique.’ Canadian Technical Report of Fisheries and Aquatic Sciences 2146.

Methot R., and Piner K. (2002). Stock assessment of canary rockfish off California, Oregon and Washington in 2001. Appendix in ‘Status of the Pacific Coast Groundfish Fishery through 2002; Stock Assessment and Fishery Evaluation. Vol. I’. (Pacific Fishery Management Council: Portland, OR.)

Methot R. D., and Stewart I. J. (2005). ‘Status of the U.S. Canary Rockfish Resource in 2005.’ (National Marine Fisheries Service, Northwest Fisheries Science Center: Seattle, WA.)

Phillips, J. B. (1964). Life history studies on ten species of rockfish (genus Sebastodes). California Department of Fish and Game Fish Bulletin 126,
Smith J. N., Nelson R., and Campana S. E. (1991). The use of Pb-210/Ra-226 and Th-228/Ra-228 disequilibria in the ageing of otoliths of marine fish. In ‘Radionuclides in the Study of Marine Processes’. (Eds P. J. Kershaw and D. S. Woodhead.) pp. 350–359. (Elsevier Applied Science: New York).

Stanley R. D. (1999). ‘Canary Rockfish Assessment for 1999 and Recommended Yield Options for 2000/2001.’ Canadian Stock Assessment Secretariat, Research Document 99/203. (Fisheries and Oceans Canada, Pacific Biological Station: Nanaimo, BC, Canada.)

Stevens, M. M. , Andrews, A. H. , Cailliet, G. M. , Coale, K. H. , and Lundstrom, C. C. (2004). Radiometric validation of age, growth, and longevity for the blackgill rockfish, Sebastes melanostomus. Fishery Bulletin 102, 711–722.
Westrheim S. J., and Harling W. R. (1975). ‘Age-length Relationships for 26 Scorpaenids in the Northeastern Pacific Ocean.’ Fisheries and Marine Service Research and Development Technical Report 565. (Research and Development Directorate, Pacific Biological Station: Nanaimo, BC, Canada.)

Yamanaka K. L., and Kronlund A. R. (1997). ‘Inshore Rockfish Stock Assessment for the West Coast of Canada in 1996 and Recommended Yields for 1997.’ Canadian Technical Report of Fisheries and Aquatic Sciences No. 2175. (Department of Fisheries and Aquatic Sciences: Ottawa, Canada.)