Abstract
Sharks were among the first marine animals to carry telemetry systems because of their size and the need to understand their interactions with humans. Modern telemetry systems can gather many kinds of data (limited only by imagination, funding and sensor types), indicating which animals are near telemetry receivers and what they are doing. Receivers now range from simple autonomous detector units for deployment in mid-water in large-scale grids, to sophisticated automated benthic recorders, to triangulating radio-linked buoy systems (RAP), to ship-borne transponders. In addition, archival tags can now gather and store data even while the shark is away, to be downloaded later. Older types had to be recovered, but popup tags release from sharks automatically, surface and transfer data to satellites, while CHAT tags download whenever queried by a nearby transponding acoustic receiver. Sophisticated animal-borne tags dramatically increase the information gathered about sharks and their environment. The examples provided show the parallel progression of shark biology and acoustic biotelemetry illustrating that telemetry systems are tools for gathering data, which can often be honed to facilitate biological experiments. Future visions include sensors that directly measure shark swimming power and cardiac output, compressing the data so that it can be delivered to RAP systems tracking multiple animals with meter resolution in near real time. CHAT tags as small as 22 mm diameter should be able to return similar data from trips of hundreds of kilometers. Continued communication between biologists and engineers is essential to develop these technologies.
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Bagley, P.M. & I.G. Priede. 1997. An autonomous free-fall acoustic tracking system for investigation of fish behaviour at abyssal depths. Aquat. Living Res. 10: 67–74.
Baldwin, H.A. & G.F. Ingle. 1964. A remote control technique for the study of olfaction in sharks. National Biomedical and Scientific Instrumentation Symposium 2: 217–228.
Bass, G.A. & M. Rascovich. 1965.A device for the sonic tracking of large fishes. Zoologica 50: 75–82.
Carey, F.G. & K.D. Lawson. 1973. Temperature regulation in a free-swimming bluefin tuna. Comp. Biochem Physiol. 44A: 375–392.
Carey, F.G. & J.V. Scharold. 1990. Movement of blue sharks (Prionace glauca) in depth and course. Mar. Biol. 106: 329–342.
Carey, F.G., J.M. Teal, J.W. Kanwisher, K.D. Lawson & J.S. Beckett. 1971. Warm bodied fish. Amer. Zool. 11: 137–145.
Carey, F.G., J.W. Kaniwisher, O. Brazier, G. Garielson, J.G. Casey & H.L. Pratt Jr. 1982. Temperature and activities of a white shark, Carcharodon carcharias. Copeia 1982: 254–260.
Carey, F.G., J.G. Casey, H.L. Pratt, D. Urquhart & J.E. McCosker. 1985. Temperature, heat production and heat exchange in Lamnid sharks. pp. 92–108. In: G. Sibley, J.A. Seigel & C.C. Swift (ed.) Biology of the White Shark, Mem. S. Cal. Acad. Sci. 8.
Casey, J.G. 1985. Trans-Atlantic migrations of the blue shark: a case history of cooperative shark tagging. pp. 253–268. In: R.H. Stroud (ed.) World Angling Resources and Challenges, International Game Fish Association, Fort Lauderdale.
Casey, J.G. & N.E. Kohler. 1992. Tagging studies on the shortfin mako shark (Isurus oxyrinchus) in theWestern North Atlantic. Aust. J. Mar. Freshwater Res. 43: 45–60.
Engas, A., S. Lø kkeborg & J.T. Ovredal. 1996. Natural and fishing gear induced behaviour of tagged fish, studied by means of a stationary positioning system. pp. 203–211. In: E. Baras & J.C. Philippart (ed.) Underwater Biotelemetry, University of Liege, Liege.
Engas, A., E.K. Haugland & J.T. Ovredal. 1997. Reactions of cod (Gadhus morhua L.) in the pre-vessel zone to an approaching trawler under different light conditions. Hydrobiologia 371/372: 109–206.
Goldman, K.J., S.D. Anderson, J.E. McCosker & A.P. Klimley. 1996. Temperature, swimming depth andmovements of a white shark at the South Farallon Islands, California. pp. 111–120. In: A.P. Klimley & D.G. Ainley (ed.) Great White Sharks: The Biology of Carcharodon carcharias, Academic Press,San Diego.
Hammill, M.O., V. Lesage, G. Lobb, P. Carter & F.A. Voegeli. 1999. A remote release mechanism to recover time-depth recorders from marine mammals. Mar. Mam. Sci. 15: 584–588.
Klimley, A.P., S.B. Butler, D.R. Nelson & A.T. Stull. 1988. Diel movements of scalloped hammerhead sharks (Sphyrna lewini Griffith and Smith) to and from a seamount in the Gulf of California. J. Fish Biol. 33: 751–761.
Klimley, A.P., F.A. Voegeli, S.C. Beavers & B.J. LeBoeuf. 1998. Automated listening stations for tagged marine fishes. Mar. Tech. Soc. J. 32: 94–101.
Klimley, A.P., B.J. LeBoeuf, K.M. Cantara, J.E. Richert, S.F. Davis & S. Van Sommeran. 2000. Radio-acoustic positioning: a tool for studying site-specific behavior of large marine animals. Mar. Biol. (in press).
Kohler, N.E. & P.A. Turner. 2001. Shark tagging: a review of conventional methods and studies. Env. Biol. Fish. 60: 191–223 (this volume).
Lø kkeborg, S. & A. Fernö. 1999. Diel activity pattern and food search behaviour in cod, Gadus morhua. Env. Biol. Fish. 54: 345–353.
Lowe, C.G. 1996. Kinematics and critical swimming speed of juvenile scalloped hammerhead sharks. J. Exp. Biol. 199: 2605–2610.
Lowe, C.G. & K.J. Goldman. 2000. Physiological telemetry of elasmobranchs: taking the laboratory into the field. Env. Biol. Fish. (in press).
McKibben, J.N. & D.R. Nelson. 1981. A portable real-time, x- y plotting system for ultrasonic tracking of fish. pp. 105–115. In: F.M. Long (ed.) Proceedings of the 3rd International Conference onWildlife Biotelemetry, University of Wyoming, Laramie.
McKibben, J.N., D.R. Nelson & S.H. Gruber. 1985. A data logging monitor for aquatic biotelemetry. pp 90–96. In: F.M. Long (ed.) Proceedings of the 5th International Conference on Wildlife Biotelemetry, University of Wyoming, Laramie.
Nelson, D.R. 1978. Telemetering techniques for the study of free-ranging sharks. pp. 419–482. In: E.S. Hodgson & R.F. Mathewson (ed.) Sensory Biology of Sharks, Skates and Rays, Office of Naval Research, Department of the Navy, Arlington.
Nelson, D.R. & J. McKibben. 1981. Timed release, recoverable, ultrasonic/radio transmitters for tracking pelagic sharks. pp. 90–104. In: F.M. Long (ed.) Proceedings of the 5th International Conference on Wildlife Biotelemetry, University of Wyoming, Laramie.
Nelson, D.R., J.N. McKibben, W.R. Strong, Jr., C.G. Lowe, J.A. Sisneros, D.M. Schroeder & R.J. Lavenberg. 1997. An acoustic tracking of a megamouth shark, Megachasma pelagios: a crespuscular vertical migratory. Env. Biol. Fish. 49: 389–399.
O'Dor, R.K., D.M. Webber & F.A. Voegeli. 1989.A multiple buoy acoustic/radio telemetry system for automated positioning and telemetry of physical and physiological data. pp. 444–452. In: A. Uchiyama & C.J. Amlaner (ed.) Proceedings of the 10th International Symposium on Biotelemetry, Waseda Univ. Press, Tokyo.
O'Dor, R.K., J. Forsythe, D.M. Webber, J. Wells & M.J. Wells. 1993. The cost of living for Nautilus in the wild. Nature 363: 626–628.
O'Dor, R.K., J.A. Hoar, D.M. Webber, F.G. Carey, S. Tanaka, H. Martins & F.M. Porteiro. 1994. Squid (Loligo forbesi) performance and metabolic rates in nature. Mar. Fresh. Behav. Physiol. 25: 163–177.
O'Dor, R.K., Y. Andrade, D.M. Webber, W.H.H. Sauer, M.J. Roberts, M.J. Smale & F.A. Voegeli. 1998. Applications and performance of radio-acoustic positioning and telemetry (RAPT) systems. Hydrobiologia 371/372: 1–8.
Pincock, D.G. & F.A. Voegeli. 1992. Quick course in underwater telemetry systems. VEMCO Limited, Shad Bay. 31 pp.
Sauer, W.H.H. & M.J. Smale. 1991. Predation patterns on the inshore spawning grounds of the squid Loligo vulgaris reynaudii (Cephalopoda: Loliginidae) off the south-eastern Cape, South Africa. S. Afr. J. Mar. Sci. 11: 513–523.
Sauer, W.H.H., M.J. Roberts, M.R. Lipinski, M.J. Smale, R.T. Hanlon, D.M. Webber & R.K. O'Dor. 1997. Choreography of the squid's ‘nuptial dance’. Biol. Bull. 192: 203–207.
Scariotta, T.C. & D.R. Nelson. 1977. Diel behaviour of the blue shark, Prionace glauca, near Santa Catalina Island. Calif. Fish. Bull. 75: 519–528.
Scharold, J., N. Chin Lat, W.R. Lowell & J.B. Graham. 1989. Metabolic rate, heart rate, and tail beat frequency during sustained swimming in the leopard shark Thiakis semifasciata. J. Exp. Biol. 48: 223–230.
Scharold, J. & S.H. Gruber. 1991. Telemetered heart rate as a measure of metabolic rate in the lemon shark, Negaprion brevirostris. Copeia 1991: 942–953.
Skajaa, K., A. Ferno, S. Lokkeborg & E.K. Haugland. 1998. Basic movement pattern and chemo-oriented search towards baited pots in edible crab (Cancer pagarus L.) Hydrobiologia 371/372: 143–153.
Stasko, A.B. & D.G. Pincock. 1977. Review of underwater biotelemetry, with emphasis on ultrasonic techniques. J. Fish. Res. Board Can. 34: 1261–1285.
Stevens, J.D. 1976. First results of shark tagging in the north-east Atlantic, 1972- 1975. J. Mar. Biol. Ass. UK 56: 929–937.
Stevens, J.D. 1990. Further results from a tagging study of pelagic sharks in the North-East Atlantic. J. Mar. Biol. Ass. UK 70: 707–720.
Trefethen, P.S., J.W. Dudley & M.R. Smith. 1957. Ultrasonic tracer follows tagged fish. Electronics 30: 156–160.
Voegeli, F.A. 1988. Ultrasonic tracking, position monitoring and data telemetry systems. pp. 279–284. In: A. Uchiyama & C.J. Amlaner (ed.) Proceedings of the 10th International Symposium on Biotelemetry, Waseda Univ. Press, Tokyo.
Voegeli, F.A. 1990. Ultrasonic telemetry of swimming speed data. pp. 279–284. In: C.J. Amlaner (ed.) Proceedings of the 11th International Symposium on Biotelemetry, Yokohama, Japan.
Voegeli, F.A & D.G. Pincock. 1981. Determination of fish swimming speed by ultrasonic telemetry. Biotelemetry and Patient Monitoring 7: 215–220.
Voegeli, F.A., G. Hoar & D.W. Church. 1983. A new generation of ultrasonic receivers for biotelemetry. pp. 63–75. In: D.G. Pincock (ed.) Proceedings of the 4th International Conference onWildlife Telemetry, Applied Microelectronics Inst., Halifax.
Voegeli, F.A, G.L. Lacroix & J.M. Anderson. 1997. Development of miniature pingers for tracking Atlantic salmon smolts at sea. Hydrobiology 371/372: 35–46.
Wartzok, D., S. Sayegh, H. Stone, J. Barchak & W. Barnes. 1992. Acoustic tracking system for monitoring under-ice movements of polar seals. J. Acoust. Soc. Am. 92: 682–687.
Webber, D.M. 1999. Respiratory and cardiovascular correlates of activity metabolism in the Atlantic cod Gadus morhua. Ph.D. thesis, Cambridge University, Cambridge. 280 pp.
Webber, D.M. & R.K. O'Dor. 1986. Monitoring the metabolic rate and activity of free swimming squid with telemetered jet pressure. J. Exp. Biol. 126: 205–224.
Webber, D.M., R.G. Boutilier & S.K. Kerr. 1998. Cardiac output as a predictor of metabolism in cod (Gadus morhua). J. Exp. Biol. 201: 2779–2789.
Webber, D.M., F.A. Voegeli & M.J. Smale. 2000. The development of differential pressure techniques to measure swimming speed in fish. In: J. Eiler (ed.) Proceedings of the 15th International Symposium on Biotelemetry (in press).
West, G.J. & J.D. Stevens. 2001. Archival tagging of school shark, Galeorhinus galeus, in Australia: initial results. Env. Biol. Fish. 60: 283–298 (this volume).
Wolcott, T.G. 1995. New options in physiological and behavioural ecology through multichannel telemetry. J. Exp. Mar. Biol. Ecol. 193: 239–256.
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Voegeli, F.A., Smale, M.J., Webber, D.M. et al. Ultrasonic Telemetry, Tracking and Automated Monitoring Technology for Sharks. Environmental Biology of Fishes 60, 267–282 (2001). https://doi.org/10.1023/A:1007682304720
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DOI: https://doi.org/10.1023/A:1007682304720