Abstract
The basic (natural) movement pattern and gear-induced behaviour of female edible crab Cancer pagurus L. were studied by means of a stationary positioning system. Nine crabs were tagged with ultrasonic transmitters and their positions were monitored approximately every third minute for 9–24 days. Because the crabs sometimes hid, the signals were often received improperly, resulting in inaccurate position fixes, and a computer program to distinguish between movement and inactivity was developed.
Edible crabs showed a nocturnal activity cycle. During the day crabs were in hiding as indicated by less accurate position fixes. There were variations in activity levels both between and within individuals. Three crabs hardly moved at all during the study, while the others were active during some, or all nights. The crabs did not return to the same place after movement, but stayed close to the hydrophone triangle (290 × 350 × 175 m) throughout the study. The activity and movement patterns are discussed in relation to optimal foraging behaviour and predator avoidance.
Six baited pots were set in the area on seven nights. Four of the crabs located baited pots during the study. Three crabs located pots more than once, resulting in a total of nine localisations. Three of the tagged crabs were caught. The localisations of baited pots were divided into four categories on the basis of the current direction at the start of the localisation and whether the crab was caught or not, in order to suggest the probability of the localisation being chemically stimulated. At least six of the localisations seemed to be induced by chemical attraction to the bait. Pots were always located during night at the time of high activity. The searching distances ranged from 12 to 48 m. Speed of movement during searching was higher than speed during basic movement.
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References
Ansell, A. D., 1973. Changes in oxygen consumption, heart rate and ventilation accompanying starvation in the decapod crustacean Cancer pagurus. Neth. J. Sea Res. 7: 455–475.
Atkinson, R. J. A., 1974. The activity rhythm of Goneplax rhomboides (L.). Mar. Behav. Physiol. 2: 325–335.
Atkinson, R. J. A. & E. Naylor, 1973. Activity rhythms in some burrowing decapods. Heloländer wiss. Meeresunters. 24: 192–201.
Atkinson, R. J. A. & E. Naylor, 1976. An endogenous activity rhythm and the rhythmicity of catches of Nephrops norvegicns (L.). J. exp. mar. Biol. Ecol. 25: 95–108.
Bell, W. J., 1990. Searching behaviour. The behavioural ecology of finding resources. Chapman and Hall, London, 309 pp.
Bennett, D. B. & C. G. Brown, 1983. Crab (Cancer pagurus) migrations in the English Channel. J. mar. biol. Ass. U.K. 63: 371–398.
BenTuvia, A. & W. Dickson, 1969. Proceedings of the FAO conference on fish behaviour in relation to fishing techniques Bergen Norway, 19–27 October 1967. FAO Fish. Rep., 1, 2, 3, 384 pp.
Bjordal, Å., 1979. Rapport fra forsøksfiske etter sjøkreps rr ed teiner på vestlandet. Fiskets gang 25: 779–783.
Bjordal, Å., 1986. The behaviour of Norway lobster towards baited creels and size selectivity of creels and trawls. Fist Dir. Skr Hav Unders. 18: 131–137.
Burt, W. H., 1943. Territoriality and home range concepts as applied to mammals. J. Mammal. 24: 346–352.
Butler, T. H., 1954. Food of the commercial crab in the Queen Charlotte Islands region, Canada. Fish. Res. Bd Can., Prog. Rep. Pac. Coast Stn. 99: 3–5.
Camus, P., 1982. Marquage d’une population côtière de tourteaux (Cancer pagurus L.) en baie d’Audierne (Bretagne sud) — Premiers résultats. ICES, Shellfish Committee, C.M. 1982/K: 18, 13 pp.
Cerda, G. & M. Wolff, 1993. Feeding ecology of the crab Cancer polyodon in La Herradura Bay, Northern Chile. II. Food spectrum and prey consumption. Mar. Ecol. Prog. Ser. 100: 119–125.
Chapman, C. J. & A. L. Rice, 1971. Some direct observations on the ecology of the Norway lobster Nephrops norvegicus. Mar. Biol. 10: 321–329.
Chatterton, T. D. & B. G. Williams, 1994. Activity patterns of the New Zealand cancrid crab Cancer novaezelandiae (Jacc uirot) in the field and laboratory. J. exp. mar. Biol. Ecol. 178: 261–274.
Clark, D. S. & J. M. Green, 1990. Activity and movement patterns of juvenile Atlantic cod, Gadus morhua, in Concept on Bay, Newfoundland, as determined by sonic telemetry. Can. J. Zool. 68: 1434–1442.
DeCoursey, P. J., 1983. Biological timing. In F. J. Vernberg & W. B. Vernberg (eds), The Biology of Crustacea — Behaviour and Ecology. Academic Press, New York: 107–150.
Drummon-Davis, N. C., K. H. Mann & R. A. Pottle, 1982. Some Estimates of Population Density and Feeding Habits of the Rock Crab, Cancer irrotatus, in a Kelp Bed in Nova Scotia. Can. J. Fish. Aquat. Sci. 39: 636–639.
Edwards, R. L., 1958. Movements of individual members in a population of the shore crab, Carcinus maenas L., in the littoral zone. J. anim. Ecol. 27: 37–45.
Eggeleston, D. B. & R. N. Lipcius, 1992. Shelter seclection by spiny lobster under variable predation risk, social conditions, and shelter size. Ecology 73: 992–1011.
Einer, R. W., P. G. Beninger, L. E. Linkletter & S. Lanteigne, 1985. Guide to indication fragments of principal prey taxa in the stomachs of two common Atlantic crab species: Cancer borealis, Stimpson (1859) and Cancer irrotatus, Say (1817). Can. tech. Rep. Fish. Aquat. Sci. 1403, 19 pp.
Engås, A., S. Løkkeborg & J. T. Øvredal, 1996. Natural and fishinggear-induced behaviour of tagged fish, studied by means of a stationary positioning system. In E. Baras & J. C. Philippart (eds), Underwater Telemetry: 203-211. Proceedings of the First Conference and Workshop on Fish Telemetry in Europe. University of Liege, Belgium.
Fernö, A., 1993. Advances in understanding of basic behaviour: consequences for fish capture studies. ICES mar. Sci. Symp. 196: 5–11.
Fielder, D. R., 1965. The spiny lobster, Jasus lalandei (H. Milne-Edwards), in South Australia. Aust. J. mar. Freshwat. Res. 16: 351–367.
Fish, P. A. & J. Savitz, 1983. Variations in Home Ranges of Large-mouth Bass, Yellow Perch, Bluegills, and Pumpkinseecs in an Illinois Lake. Trans. am. Fish. Soc. 112: 147–153.
Gottshall, D. W., 1977. Stomach contents of northern California Dungeness crabs, Cancer magister. Calif. Fish. Game 63: 43–51.
Gundersen, K. R., 1977. Migration of crab in Norwegian waters. ICES C.M. Shellfish Comitee, Doc (mimeo) 39: 1–8.
Gundersen, K. R., 1979. Some results of tagging experiments on the edible crab (Cancer pagurus) in Norwegian waters. Rapp. R-v. Réun. Cons. int. Explor. Mer. 175: 222–224.
Hall, S. J., D. J. Basford, M. R. Robertson, D. G. Raffaelli & I. Tuck, 1991. Patterns of recolonisation and the importance of pit-digging by the crab Cancer pagurus in a subtidal sand habitat. Mar. Ecol. Prog. Ser. 72: 93–102.
Hawkins, A. D., G. G. Urquhart & G. W. Smith, 1980. Ultrasonic Tracking of Juvenile Cod by Means of a Large Spaced Hydrophone Array. In C. J. Amlaner, Jr. & D. W. MacDonald (eds), A Handbook on Biotelemetry and Radio Tracking. Pergamon Press, Oxford: 461–470.
Hazlett, B. & D. Rittschof, 1975. Daily Movements and Home Range in Mitrax spinosissimus (Majidae, Decapoda). Mar. Behav. Physiol. 3: 101–118.
Hill, B. J., 1976. Natural food, foregut clearance-rate and activity of the crab Scylla serrata. Mar. Biol. 34: 109–116.
Hill, B. J., 1978. Activity, Track and Speed of Movement of the Crab Scylla serrata in an Estuary. Mar. Biol. 47: 135–141.
Hockett, J. C. & H. Kritzler, 1972. Capture-recapture methods with Uca. Biol. Bull. 142: 49–56.
Jernakoff, P., 1987. Foraging patterns of juvenile western rock lobster Panulirus crygnus George. J. exp. mar. Biol. Ecol. 113: 125–144.
Karlsson, K. & M. E. Cristiansen, 1996. Occurrence and population composition of the edible crab (Cancer pagurus) on rocky shores of an islet on the south coast of Norway. Sarsia 81: 307–314.
Karnofsky, E. B., J. Atema & R. H. Elgin, 1989a. Natural Dynamics of Population structure and Habitat Use of the Lobster, Homarus americanus, in a shallow Cove. Biol. Bull. 176: 247–256.
Karnofsky, E. B., J. Atema & R. H. Elgin, 1989b. Field Observations of Social Behavior, Shelter Use, and Foraging in the Lobster, Homarus americanus. Biol. Bull. 176: 239–246.
Latrouite, D. & D. Le Foll, 1989. Donnes sur les migrations des crabes torteau Cancer pagurus et les araignees de mer Maja squinado. Océanis 15: 133–142.
Lawton, P., 1989. Predatory interaction between the brachyuran crab Cancer pagurus and decapod crustacean prey. Mar. Ecol. Prog. Ser. 52: 169–179.
Mason, J., 1965. The Scottish crab-tagging experiments, 1960–61. Rapp. P.-v. Reun. Cons. int. Explor. Mer. 156: 71–80.
Meek, A., 1913. The migrations of crabs. Report of the Dove Marine Laboratory, Cullercoats, Northumberland 2: 13–20.
Morrissey, J. F. & S. H. Gruber, 1993. Home Range of Juvenile Lemon Sharks, Negaprion brevirostris. Copeia 1993: 425–434.
Naylor, E., 1958. Spontaneous tidal and diurnal rhythms of locomotor activity in Carcinus maenas (L.). J. exp. Biol. 35: 602–610.
Naylor, E., 1960. Locomotor rhythms in a population of Carcinus maenas (L.) from non-tidal conditions. J. exp. Biol. 37: 481–488.
Phillips, B. F., L. M. Joll & D. C. Ramm, 1984. An electromagnetic tracking system for studying the movements of rock (spiny) lobsters. J. exp. mar. Biol. Ecol. 79: 9–18.
Rae, B. B., 1967. The food of cod in the North Sea and on West of Scotland fishing grounds. Mar. Res. 1967, 68 pp.
Rae, B. B., 1968. The food of seals in the Scottish waters. Mar. Res. 1969, 23 pp.
Rae, B. B. & R. G. J. Shelton, 1982. Notes on the food of nine species of elasmobranch (Part I) and nine species of demersal teleost (Part II) fishes from Scottish waters. ICES C.M. 1982/G: 56, 5 pp.
Rebach, S., 1985. Rhythmicity under constant conditions in the rock crab, Cancer irrotatus. Bull. mar. Sci. 36: 454–466.
Reese, E. S., 1975. A comparative field study of the social behavior and related ecology of reef fishes of the family Chaetodontidae. Z. Tierpsychol. 37: 37–61.
Robles, C., D. A. Sweetnam & D. Dittman, 1989. Diel variation of intertidal foraging by Cancer productus L. in British Columbia. J. Nat. Hist. 23: 1041–1049.
Shelton, R. G. J., J. A. M. Kinnear & K. Livingstone, 1979. A preliminary account of the feeding habits of the edible crab, Cancer pagurus L. of N. W. Scotland. Int. Counc. Explor. Sea Comm. Meet. (Shellfish and Benthos Comm.) K: 35: 1–6.
Skajaa, K., 1997. Basic movement pattern and chemo-oriented search toward baited gears in demersal species; a field study of ling and edible crab. Cand. scient, thesis, Department of Fisheries and Marine Biology. University of Bergen, Norway, 138 pp.
Stehlik, L. L., 1993. Diets of the brachyuran crabs Cancer irrotatus, C Borealis, and Ovalipes ocellatus in the New York Bight. J. Crust. Biol. 13: 723–735.
Stevens, B. G., D. A. Armstrong & R. Cusimano, 1982. Feeding habits of the Dungeness crab Cancer magister as determined by the index of relative importance. Mar. Biol. 72: 135–145.
Vannini, M. & S. Cannicci, 1995. Homing behaviorur and possible cognitive maps in crustacean decapods. J. exp. mar. Biol. Ecol. 193: 67–91.
Wardle, C. S. & C. E. Hollingworth, 1993. Fish behaviour in relation to fishing operations. ICES mar. Sci. Symp. 196, 216 pp.
Warner, G. F., 1977. The biology of crabs. Elek Science London, London, 201 pp.
Weissburg, M. J. & R. K. Zimmer-Faust, 1993. Life and death in moving fluids: hydrodynamic effects on chemosensory-mediated predation. Ecology 74: 1428–1443.
Williamson, H. C. 1900. Contributions to the life-history of the edible crab (Cancer pagurus. Linn.), Rep. Fish. Bd Scot., Ann. Rep. 18: 77–143.
Woll, A. K., 1981. Krabbens (Cancer pagurus) biologi i midtre og ytre Romsdal. Cand. scient, thesis. University of Trondheim, Norway, 75 pp (in Norwegian).
Zimmer-Faust, R. K., 1989. The relationship between chemoreception and foraging behavior in crustaceans. Limnol. Oceanogr. 34: 1367–1374.
Zimmer-Faust, R. K., C. M. Finelli, N. D. Pentcheff & D. S. Wethey, 1995. Odor plumes and animal navigation in turbulent water flow: A Field Study. Biol. Bull. 188: 111–116.
Zimmer-Faust, R. K., P. B. O’Neill & D. W. Schar, 1996. The relationship between predator activity state and sensitivity to prey odor. Biol. Bull. 190: 82–87.
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Skajaa, K., Fernö, A., Løkkeborg, S., Haugland, E.K. (1998). Basic movement pattern and chemo-oriented search towards baited pots in edible crab (Cancer pagurus L.). 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_18
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