Register      Login
Marine and Freshwater Research Marine and Freshwater Research Society
Advances in the aquatic sciences
Shopping Cart: ( empty )
You are here: Home > Journals > MF > MF08139
RESEARCH ARTICLE
Contents Vol 60(4)

Acoustic and radio-transmitter retention in common carp (Cyprinus carpio) in New Zealand

Adam J. Daniel A C , Brendan J. Hicks A , Nicholas Ling A and Bruno O. David B
+ Author Affiliations
- Author Affiliations

A Centre for Biodiversity and Ecology Research, School of Science and Engineering, University of Waikato, Private Bag 3105, Hamilton, New Zealand.

B Research, Development and Improvement, Department of Conservation, PO Box 112, Hamilton, New Zealand.

C Corresponding author. Email: carpresearch@gmail.com

Marine and Freshwater Research 60(4) 328-333 https://doi.org/10.1071/MF08139
Submitted: 30 April 2008  Accepted: 4 December 2008   Published: 29 April 2009

Abstract

Common carp (Cyprinus carpio) are notoriously difficult to monitor in water temperatures above 20°C using telemetry owing to transmitter expulsion. To reduce transmitter loss, radio transmitters were anchored to the pelvic girdle and a polymer coating was applied to acoustic transmitters to reduce tissue irritation in two tank trials. Ten dummy transmitters were surgically implanted in each of four groups of adult koi carp, a highly coloured strain of C. carpio. Water temperatures ranged between 7 and 24°C. After 365 days, the control and test groups of each trial had similar expulsion rates (P ≥ 0.30; two-tailed Fisher’s exact probability test). Expulsion rates for uncoated acoustic transmitters were 60% (n = 6), coated acoustic transmitters 50% (n = 5), unanchored radio transmitters 60% (n = 6) and anchored radio transmitters 90% (n = 9). Expulsions occurred 15–362 days after implantation as a result of ulcers at or near the surgical wound. Bacterial infection of the wound appears to be the primary mechanism for transmitter expulsion.

Additional keywords: surgical implant, tagging, tag rejection, tag shedding.


Acknowledgements

This study was funded by contract UOWX0505 from the New Zealand Foundation for Research, Science and Technology. Funding and assistance were also provided by New Zealand Department of Conservation and Environment Waikato. Alex Ring, Grant Tempero and Dudley Bell, University of Waikato, assisted with fish capture. Veterinary equipment was donated by Newstead Veterinary Services, Hamilton, New Zealand and Becton Dickson Pty Ltd., Australia. We would like to thank Brendan Ebner, Christian Bauer and other referees for their helpful comments. This study was approved by the University of Waikato Animal Ethics Committee (protocol no. 660).


References

Baras, E. , and Westerloppe, L. (1999). Transintestinal expulsion of surgically implanted tags by African catfish Heterobranchus longifilis of variable size. Transactions of the American Fisheries Society 128, 737–746.
Crossref | GoogleScholarGoogle Scholar | Hicks B.J., Osborne M.W., and Ling N. (2006). Quantitative estimates of fish abundance from boat electrofishing. In ‘A Guide to Monitoring Fish Stocks and Aquatic Ecosystems, Darwin, 11–15 July 2005’. (Eds M. J. Phelan and H. Bajhau.) pp. 104–111. (Australian Society for Fish Biology: Darwin.)

Jepsen, N. , Mikkelsen, J. S. , and Koed, A. (2008). Effects of tag and suture type on survival and growth of brown trout with surgically implanted telemetry tags in the wild. Journal of Fish Biology 72, 594–602.
Crossref | GoogleScholarGoogle Scholar | Kynard B., and Kieffer M. (1997). Rejection of internal telemetry transmitters by shortnose sturgeon. In ‘Application of Acoustic and Archival Tags to Assess Estuarine, Nearshore, and Offshore Habitat Utilization and Movement by Salmonids, Seattle, 10–11 September, 1996’. (Ed. G. W. Boehlert.) p. 54. (U.S. Department of Commerce: La Jolla, CA.)

Okland, F. , Hay, C. J. , Naesje, T. F. , Nickandor, N. , and Thorstad, E. B. (2003). Learning from unsuccessful radio tagging of common carp in a Namibian reservoir. Journal of Fish Biology 62, 735–739.
Crossref | GoogleScholarGoogle Scholar | Penne C. R., and Pierce C. L. (2006). Annual progress report. Habitat use, seasonal distribution, and aggregation of common carp (Cyprinus carpio) in Clear Lake, Iowa. Iowa Department of Natural Resources Fisheries Bureau, United States Geological Survey, Iowa State University.

Penne, C. R. , and Pierce, C. L. (2007). Effect of relative volume on radio transmitter expulsion in subadult common carp. North American Journal of Fisheries Management 27, 986–991.
Crossref | GoogleScholarGoogle Scholar | Stuart I., and Jones M. (2002). Ecology and management of common carp in the Barmah–Millewa Forest. Final Report of the Point Source Management of Carp Project to Agriculture Fisheries and Forestry Australia. Arthur Rylah Institute, Melbourne.

Summerfelt, C. , and Mosier, D. (1984). Transintestinal expulsion of surgically implanted dummy transmitters by channel catfish. Transactions of the American Fisheries Society 113, 760–766.
Crossref | GoogleScholarGoogle Scholar |

Thoreau, X. , and Baras, E. (1997). Evaluation of surgery procedures for implanting telemetry transmitters into the body cavity of tilapia Oreochromis aureus. Aquatic Living Resources 10, 207–211.
Crossref | GoogleScholarGoogle Scholar |

Welch, D. , Batten, S. , and Ward, B. (2007). Growth, survival, and tag retention of steelhead trout (O. mykiss) surgically implanted with dummy acoustic tags. Hydrobiologia 582, 289–299.
Crossref | GoogleScholarGoogle Scholar |