Abstract
Externally attached telemetry transmitters are unsuitable to tag yellow eels Anguilla anguilla (L.), in streams where they exhibit cryptic life habits and hide in narrow cavities between rocks. We evaluated the adequacy of surgical implantation and closing procedures for tagging eels with biotelemetry transmitters. Epoxy dummy transmitters (18 × 8 mm, 1.6–1.7 g) were implanted in eels anaesthetised with 2-phenoxy-ethanol (0.9 ml 1-1), through a 20 mm mid ventral incision made in the posterior quarter of their body cavity. The incision was either left open, or closed in different ways: stitches (absorbable or non absorbable suture material) or commercial-grade cyanoacrilate adhesive (Loctite™). Fish were stocked in a 4 m2 flow through tank (15–17 °C), controlled daily for mortality and weekly for evaluating the healing process.
No transmitter was expelled over a 12-week period, even in eels with unclosed incisions, of which 50% healed within 28 days (t 50). Regardless of the nature of the filament, suturing induced skin and muscle necrosis, caused significantly higher mortality rates (60% after 10 weeks) and paradoxically slowed down the healing rate (40 and 45 d, respectively). Cyanoacrilate suppressed the inflammatory response and granted higher survival rate (90%), but did not permit to speed up the closing process (t 50 = 52 d), as eels actively bit and removed the adhesive within hours. This behaviour was suppressed when we applied a freshly cut fragment of the eel dorsal fin as a biological bandage over the drying cyanoacrilate. The adhesive remained in place for one to two days and permitted to substantially increase the healing rate (t 50 = 15 d). These results substantiate the efficiency of surgery techniques for tagging eels with radio transmitters, at least for units of small weight and bulk.
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References
Baras, E., 1991. A bibliography on underwater telemetry. Can. Rep. Fish. aquat. Sci. 1819: 1–55.
Baras, E., 1992. Etude des stratégies d’occupation du temps et de l’espace chez le barbeau fluviatile, Barbus barbus (L). Cah. Ethol. 12: 125–442.
Baras, E. & J. P. Lagardère, 1995. Fish telemetry in aquaculture: review and perspectives. Aquacult. Int. 3: 1–26.
Baras, E. & J. C. Philippart (eds), 1996. Underwater biotelemetry. University of Liège, Belgium: vi + 257 pp.
Baras, E., C. Birtles, L. Westerloppe, X. Thoreau, M. Ovidio, D. Jeandrain & J. C. Philippart, 1998. A critical review of surgery techniques for implanting telemetry devices into the body cavity of fish. In Y. Le Maho (ed.), Proceedings of the 5th European Conference on Wildlife Telemetry. Strasbourg, France. 26–30 August 1996: 10 pp, in press.
Baras, E., D. Jeandrain, B. Serouge & J. C. Philippart, 1998. Seasonal variations in time and space utilization by radio-tagged yet-low eels Anguilla anguilla (L.) in a small stream. Hydrobiologia 371/372: 187–198.
Baras, E., L. Westerloppe & J. C. Philippart, 1996. Adéquation de procédures d’implantation chirurgicale pour le PIT tagging de juvéniles du tilapia Oreochromis niloticus. Rapports de la Station Aquacole de Tihange 96: 1–14.
Carmichael, G. J., 1991. Recovery of channel catfish from abdominal surgery. Progress. Fish Cult. 53: 193–195.
Ernande, B., 1995. Etude du rythme d’activité de l’anguille européenne Anguilla anguilla L. en marais maritime par télémétrie acoustique. M.S. Thesis, CNRS Ifremer, 41 pp. + ann. CREMA l’Houmeau, Place du Séminaire, BP 5, F-17137 L’Houmeau, France.
Hart, L. G. & R. C. Summerfelt, 1975. Surgical procedures for implanting ultrasonic transmitters into flathead catfish (Pylodictis olivaris). Trans. am. Fish. Soc. 104: 56–59.
Helfman, G. S., D. L. Stoneburner, E. L. Boseman, P. A. Christian & R. Whalen, 1983. Ultrasonic telemetry of American eel movements in a tidal creek. Trans. am. Fish. Soc. 112: 105–110.
Knights, B. C. & B. A. Lasee, 1996. Effects of implanted transmitters on adult bluegills at two temperatures. Trans. am. Fish. Soc. 125: 440–449.
LaBar, G. W., J. A. Hernando Casal & C. Fernandez Delgado, 1987. Local movements and population size of European eels, Anguilla anguilla, in a small lake in south-western Spain. Envir. Biol. Fishes 19: 111–117.
MacFarland, W. N. & G. W. Klontz, 1969. Anesthesia in fishes. Federal Proceedings 28: 1535–1540.
Marty, G. D. & R. C. Summerfelt, 1990. Wound healing in channel catfish by epithelialization and contraction of granulation tissue. Trans. am. Fish. Soc. 119: 145–150.
McGovern, P. & T. K. McCarthy, 1992. Local movements of freshwater eels (Anguilla anguilla L.) in western Ireland. In I. G. Priede & S. M. Swift (eds), Wildlife Telemetry: Remote Sensing and Monitoring of Animals. Ellis Horwood, Chichester, UK: 319–327.
Nemetz, T. G. & J. R. MacMillan, 1988. Wound healing of incisions closed with a cyanoacrylate adhesive. Trans. am. Fish. Soc. 117: 190–195.
Nielsen, J., 1988. Marking and tagging methods applied to eel, Anguilla anguilla (L.). EIFAC FAO occasional paper 21.
Petering, R. W. & D. L. Johnson, 1991. Suitability of cyanoacrilate adhesive to close incisions in black crappies used in telemetry studies. Trans. am. Fish. Soc. 120: 535–537.
Prentice E. F., T. A. Flagg & R. S. McCutcheon, 1990. Feasibility of using implantable passive integrated transponder (PIT) tags in salmonids. Am. Fish. Soc. Symp. 7: 317–322.
Priede, I. G. & S. M. Swift (eds), 1992. Wildlife Telemetry: Remote Sensing and Monitoring of Animals. Ellis Horwood Ltd., Chichester, UK, 708 pp.
Roberts, R. J., A. MacQueen, W. M. Shearer & H. Young, 1973. The histopathology of salmon tagging. I. The tagging lesion in newly tagged parr. J. Fish Biol. 5: 497–503.
Stasko, A. B. & S. A. Rommel Jr., 1974. Swimming depth of adult American eels (Anguilla rostrata) in a saltwater bay as determined by ultrasonic tracking. J. Fish. Res. Bd Can. 21: 1148–1150.
Summerfelt, R. C. & L. S. Smith, 1990. Anesthaesia, surgery, and related techniques. In C. B. Schreck & P. B. Moyle (eds), Methods for Fish Biology. Am. Fish. Soc., Bethesda, Maryland: 213–272.
Tesch, F. W., 1974. Speed and direction of silver and yellow eels, Anguilla anguilla, released and tracked in the open North Sea. Ber. dt. wiss Kommn. Meereforsch. 23: 181–197.
Tesch, F. W., 1989. Changes in swimming depth and direction of silver eels (Anguilla anguilla L.) from the continental shelf to the deep sea. Aquat. Living Resour. 2: 9–20.
Thoreau, X. & E. Baras, 1996. Anaesthesia and surgery procedures for implanting telemetry transmitters into the body cavity of tilapias Oreochromis aureus. In E. Baras & J. C. Philippart (eds), Underwater Biotelemetry. University of Liège, Belgium: 13–22.
Winter, J. D., 1983. Underwater biotelemetry. In L. A. Nielsen & J. D. Johnsen (eds), Fisheries Techniques. Am. Fish. Soc., Bethesda, Maryland: 371–395.
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Baras, E., Jeandrain, D. (1998). Evaluation of surgery procedures for tagging eel Anguilla anguilla (L.) with biotelemetry transmitters. In: Lagardère, JP., Anras, ML.B., Claireaux, G. (eds) Advances in Invertebrates and Fish Telemetry. Developments in Hydrobiology, vol 130. Springer, Dordrecht. https://doi.org/10.1007/978-94-011-5090-3_13
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DOI: https://doi.org/10.1007/978-94-011-5090-3_13
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