Abstract
An immense variety of fish may, on occasions, aggregate around or beassociated with floating structures such as drifting algae, jelliedzooplankton, whales, floats or anchored fish aggregating devices (ineffect, there are over 333 fish species belonging to 96 familiesrecorded in the literature).
Several hypotheses have been advanced to explain this behaviour ofpelagic fish, although the most widely accepted theory is that fish usefloating materials, to some extent, to protect themselves frompredators. However, we think that aggregation under floats may be theresult of behaviour that has evolved to safeguard the survival of eggs,larvae and juvenile stages, during dispersion to other areas. Naturalfloating structures (e.g., algae, branches of trees) drift in seacurrents that originate in places where the floating objects arefrequently found (e.g., river estuaries, coastal areas). These same seacurrents also introduce some of the planktonic production generated inthese areas into the oligotrophic pelagic environment. Fish associatedwith drifting floating structures probably feed on invertebratesassociated with the structures. However, they may also benefit from theaccumulated plankton in the converging waters. Adult fish of somemigratory species (tuna, dolphinfish, etc.) have also developed similarassociative behaviour around drifting objects for other reasons (e.g.,resting places, presence of bait fish, geographical references andschool recomposition). In this context, the meeting point hypothesis isonly applicable to one specific case, the tuna and tuna-like species.
Aggregative and associative behaviour, under and around floatingdevices, may be the result of convergent behaviors that result fromdifferent motivations. However, generally this behaviour can beexplained by the fact that drifting floating objects represent a meansof reaching relatively rich areas, where larvae and juvenile fish havean increased chance of survival.
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References
Adams, J.A. (1960) A contribution to the biology and postlarval development of the Sargassum fish, Histrio histrio (Linnaeus), with a discussion of the Da complex. Bull. mar. Sci. Gulf Caribb. 10, 55–82.
Arenas, P., Hall, M. and García, M. (1992) The association of tunas with floating objects and dolphins in the Eastern Pacific Ocean. VI. Association of fauna with floating objects in the EPO. In: International workshop on fishing for tunas associated with floating objects (11–14 February 1992. La Jolla, California), 38 pp.
Ariz, J., Delgado de Molina, A., Fonteneau, A., Gonzales Costas, F. and Pallarès, P. (1999) Logs and tunas in the eastern tropical Atlantic: A review of present knowledge and uncertainties. In: Scott, M.D., Bayliff, W.H., Lennert-Cody, C.E. and Schaefer, K.M. (eds.), Proceedings of the International Workshop on the Ecology and Fisheries for Tunas Associated with Floating Objects, February 11–13, 1992, Inter-American Tropical Tuna Commission Special Report 11, La Jolla, California, pp. 21–65.
Bakun, A. (1993) The California Current, Benguela Current, and Southwestern Atlantic Shelf ecosystems: A comparative approach to indentifying factors regulating biomass yields. In: Sherman, K., L.M. Alexander and B.D. Gold (eds.), Large Marine Ecosystems. Stress, mitigation, and sustainability. AAAS Press, Washington, pp. 199–221.
Bard, F.X., Stretta, J.M. and Slepoukha, M. (1985) Les épaves artificielles comme auxiliaires de la pêche thonière en océan Atlantique: quel avenir?. Pêche Marit. 1291, 655–659.
Barton, E.D., Aristeguí, J., Tett, P., Cantón, M., García-Braun, J., Hernández-León, S., Nykjaer, L., Almeida, C., Almunia, J., Ballesteros, S., Basterretxea, G., Escanez, J., García-Weill, L., Hernández-Guerra, A., López-Laatzen, F., Molina, R., Montero, M.F., Navarro-Pérez, E., Rodríguez, J.M., Van Lenning, K., Vélez, H. and Wild, K. (1998) The transition zone of the Canary current upwelling system. Prog. Oceanogr. 41(4), 455–504.
Batalyants, K. Ya. (1993) On the hypothesis of comfortability stipulation of tuna association with natural and artificial floating objects (SCRS/92/45). ICCAT Coll. Doc. Sci. 40(2), 447–453.
Baxter, J.L. (1966) Inshore fishes of California. (3rd revision). Calif. Dept. Fish Game, Species Booklet, 80 p.
Beets, J. (1989) Experimental evaluation of fish recruiment to combinations of fish aggregating devices and benthic artificial reefs. Bull. Mar. Sci. 44(2), 973–983.
Besednov, L.N. (1960) Some data on the ichthyofauna of the Pacific Ocean drift object. Trudy Inst. Okeanol. 41, 192–197.
Biais, G. and Taquet, M. (1990) Dispositifs de concentration de poissons a la Reunion. Equinoxe 34, 20–26.
Binet, D. and Marchal, E. (1993) The large marine ecosystem of shelf areas in the Gulf of Guinea: Long-term variability induced by climatic changes. In: Sherman, K., L.M. Alexander and B.D. Gold (eds.), Large Marine Ecosystems. Stress, mitigation, and sustainability. AAAS Press, Washington, pp. 104–118.
Böhlke, J.E. and Chaplin, C.C.G. (1968) Fishes of the Bahamas and adjacent tropical waters. Livingston Publ. Co., Wynnewood, Pennsylvania, 771 pp.
Bortone, S.A., Hastings, P.A. and Collard, S.B. (1977) The pelagic-Sargassumichthyofauna of the Eastern Gulf of Mexico. Northeast Gulf Science 1(2), 60–67.
Brock, R.E. (1985) Preliminary study of the feeding habits of pelagic fish around hawaiian fish aggregation devices or can fad enhance local fisheries productivity?. Bull. Mar. Sci. 37(1), 40–49.
Buckley, R.M., Itano, D.G. and Buckley, T.W. (1989) Fish aggregation device (FAD) enhacement of offshore fisheries in American Samoa. Bull. Mar. Sci. 44(2), 942–949.
Buckley, T.W. and Miller, B.S. (1994) Feeding habits of yellowfin tuna associated with fish aggregation devices in American Samoa. Bull. Mar. Sci. 55(2–3), 445–0459.
Castro, J.J, Santiago, J.A. and Hernández-García, V. (1999) Fish associated with fish aggregation devices off the Canary Islands (Central-East Atlantic). In: Massutí, E. & B. Morales-Nin (eds.), Biology and fishery of dolphinfish and related species. Sci. Mar. 63(3–4), 191–198.
Cayré, P. (1991) Behavior of yellowfin tuna (Thunnus albacares) and skipjack tuna (Katsuwonus pelamis) around fish aggregating devices (FADs) in de Comoros Islands as determined by ultrasonic tagging. Aquat. Living Resour. 4, 1–12.
Cayré, P. and Marsac, F. (1991) Report and preliminary results of the tagging programme of natural drift logs in the tuna purse seine fishery area ot the Western Indian Ocean (SEAC/90/18). Collective volume of working documents presented at the 4th Southeast Asian Tuna Conference held in Bangkok, Thailand, 27–30 November 1990, pp. 125–133.
Cayré, P., Kothias, J.B., Diouf, T. and Stretta, J.M. (1991) Biología de los atunes. ICCAT Coll. Doc. Sci. 37, 169–291.
Dagorn, L. and Fréon, P. (1999) Tropical tuna associated with floating objects: a simulation study of the meeting point hypothesis. Can. J. Fish. Aquat. Sci. 56, 984–993.
Dagorn, L., Stretta, J.M. and Petit, M. (1995) Etude théorique du phénomène d'aggegation des bancs de thons sous les objects flottants à partir d'un modèle de comportement grégaire des thons (SCRS/94/144). ICCAT. Coll. Doc. Sci. 44(3), 295–307.
de San, M. (1982) Fish aggregation devices or Payaos. South Pacific Commission 14th Regional Technical Meting of Fisheries. 14/WP.1.5. Noumea, New Caledonia, 26 pp.
de Sylva, D.P. (1982) Potential for increasing artisanal fisheries production from floating artificial habitats in the Caribean. Proc. Gulf Carib. Fish. Inst. 34, 156–167.
D'Anna, G., Badalamenti, F. and Riggio, S. (1999) Traditional and experimental floating fish aggregating devices in the Gulf of Castellammare (NW Sicily): results from catches and visual observations. In: Massutí, E. and B. Morales-Nin (eds.), Biology and fishery of dolphinfish and related species. Sci. Mar. 63(3–4), 209–218.
Deudero, S.C. (1999) Relaciones tróficas en las comunidades ícticas asociadas a dispositivos agregadores de peces. Mem. Tesis Doc., Univ. Illes Balears (Spain), 216 pp.
Deudero, S.C., Merella, P., Morales-Nin, B., Massutí, E. and Alemany, F. (1999) Fish communities associated with FADs. In: Massutí, E. and B. Morales-Nin (eds.), Biology and fishery of dolphinfish and related species. Sci. Mar. 63(3–4), 199–207.
Dooley, J.K. (1972) Fishes associated with the pelagic sargassum complex, with a discussion of the da community. Contributions in Marine Science (Publication of the Institute of Marine Science). Texas University 16, 1–32.
Druce, B.E. and Kingsford, M.J. (1995) An experimental investigation on the fishes associated with drifting objects in coastal waters of temperate Australia. Bull. Mar. Sci. 57(2), 378–392.
Fedoryako, B.I. (1982) Langmuir circulation as a possible mechanism of formation of fish association around a floating objects. Oceanology 22, 228–232.
Fedoryako, B.I. (1988) Fish accumulations in the open ocean near stationary buoys. J. Ichthyol. 28(4), 667–669.
Fedoryako, B.I. (1989) A comparative characteristic of the oceanic fish asemblages associated with floating debris. J. Ichthyol. 29(3), 128–137.
Feigenbaum, D., Fridlander, A. and Bushing, M. (1989) Determination of the feasibility of fish attracting devices for enhancing fisheries in Puerto Rico. Bull. Mar. Sci. 44(2), 950–959.
Fine, M.L. (1970) Faunal variation on pelagic Sargassum. Mar. Biol. 7, 112–122.
Fitch, J.E. (1960) Offshore fishes of California (1st revision). Calif. Dept. Fish Game, Species Booklet, 80 p.
Follett, W.I., Gotshall, D. and Smith, J.G. (1960) Northerly occurrences of the scorpid fish Medialuna californiensis (Steindachner), with meristic data, life history notes, and discussion of the fisheries. Calif. Fish Game 46(2), 165–175.
Fonteneau, A. (1992) Pêche thoniere et objects flottants: Situation mondiale et perspectives. In: Rapport de Synthèse sur Groupe de Travail IATTC “objects flottants et thons” presenté à la 12ème Semaine des Pêches dos Açores, mars 1992: 31 pp.
Friedlander, A., Beets, J. and Tobias, W. (1994) Effects of fish aggregating device design and location on fishing success in the U.S. Virgin Islands. Bull. Mar. Sci. 55(2–3), 592–601.
Fréon, P. and Misund, O.A. (1999) Dynamics of pelagic fish distribution and behavior: effects on fisheries and stock assessment. Blackwell Science, Oxford, 348 pp.
Fréon, P. and Dagorn, L. (2000) Review of fish associative behaviour: Toward a generalisation of the meeting point hypothesis. Reviews in Fish Biology and Fisheries 10(2), 183–207.
Frusher, S.D. (1986) Utilization of small-scale fish aggregation devices by Papua New Guinea's artisanal fishermen. In: Maclean, J.L., L.B. Dizon and L.V. Hosillos (eds.), Proceedings of the 1st Asian Fisheries Forum, Manila, Philippines, 26–31 May 1986, pp. 371–374.
Galea, J.A. (1961) The “Kannizzati” fishery. Proceedings and Technical Papers of the General Fisheries Council for the Mediterranean 6, 85–91.
Gomes, C., Mahon, R., Singh-Renton, S. and Hunte, W. (1994) The role of drifting objects in pelagic fisheries in the Southeastern Caribbean. CARICOM Fish. Res. Doc. 15, 1–36.
Gooding, R.M. and Magnuson, J.J. (1967) Ecological significance of a drifting object to pelagic fishes. Pac. Sci. 21, 486–497.
Greenblatt, P. R. (1979) Associations of tuna with objects in the Eastern tropical Pacific. Fish. Bull. 77(1), 147–155.
Hall, M. (1992) The association of tuna with floating objects and dolphins in the Eastern Pacific Ocean. VII. Some hypotheses on the mechanisms governing the associations of tunas with floating objects and dolphins. In: International workshop on fishing for tunas associated with floating objects (11–14 February 1992. La Jolla, California), 6 pp.
Hall, M. and García, M. (1992) The association of tunas with floating objects and dolphins in the Eastern Pacific Ocean. IV: Study of repeated sets on the same object. In: International workshop on fishing for tunas associated with floating objects (11–14 February 1992. La Jolla, California), 16 pp.
Hall, M., Lennert-Cody C., Garcia, M. and Arenas, P. (1999) Characteristics of floating objects and their attractiveness for tunas. In: Scott, M.D., Bayliff, W.H., Lennert-Cody, C.E. and Schaefer, K.M. (eds.), Proceedings of the International Workshop on the Ecology and Fisheries for Tunas Associated with Floating Objects, February 11–13, 1992, Inter-American Tropical Tuna Commission Special Report 11, 396–446. La Jolla, California.
Hamilton, W.D. (1971) Geometry for the selfish herd. J. theor. Biol. 31, 295–311.
Hammond, F.L., Myatt, D.O. and Cupka, D.M. (1977) Evaluation of midwater structures as a potential tool in the management of the fisheries resources on South Carolina's artificial fishing reefs. S. Carolina Mar. Res. Center Tech. Rept. Ser. 15, 1–19.
Higashi, G.R. (1994) Ten years of fish aggregating device (FAD) design development in Hawaii. Bull. Mar. Sci. 55(2–3), 651–666.
Hitz, C.R. (1961) Occurrence of two species of juvenile rockfish in Queen Charlotte Sound. Jour. Fish. Res. Bd. Canada 18(2), 279–281.
Holland, K., Brill, R. and Chang, R.K.C. (1990) Horizontal and vertical movements of yellowfin and bigeye tuna associated with fish aggregating devices. Fish. Bull. 88(3), 493–507.
Hong, S.W., Okamoto, M., Imai, T. and Fuwa, S. (1996) Effect of fish aggregating devices (FAD) for gathering juvenile Japanese horse mackerel Trachurus japonicus. Bull. Jap. Soc. Fish. Oceanogr. 60(4), 356–362.
Hong, S.W., Okamoto, M., Imai, T., Fuwa, S. and Kubota, K. (1997) Effect of FAD (fish aggregating devices) for gathering juvenile yellowtail Seriola quinqueradiata. Nippon Suisan Gakkaishi 63(2), 194–200.
Hubbs, C.L. (1920) Protective coloration and habits in the kelp-fish Heterostichus rostratus. Copeia 80, 19–20.
Hunter, J.R. (1968) Fishes beneath flotsam. Sea Frontiers 14, 280–288.
Hunter, J.R. and Mitchell, C.T. (1967) Association of fishes with flotsam in the offshore waters of Central America. Fish. Bull. 66(1), 13–29.
Hunter, J.R. and Mitchell, C.T. (1968) Field experiments on the attraction of fish to floating objects. J. Cons. Perm. Int. Explor. Mer 31, 427–434.
Ibrahim, S., Kawamura, G. and Ambak, M.A. (1990) Effective range of traditional Malaysian FADs as determined by fish-releasing method. Fish. Res. 9, 299–306.
Ibrahim, S., Ambak, M.A., Shamsudin, L. and Samsudin, M.Z. (1996) Importance of fish aggregating devices (FADs) as substrates for food organisms of fish. Fish. Res. 27, 265–273.
Johnson, G.D. (1978) development of fishes of the Mid-Atlantic Bight. IV. Carangidae though Ephippidae. U.S. Fish Wild. Serv., Biol. Servs. Prog., FWS/OBS-71/12, 314 pp.
Josse, E. (1992) Different ways of exploiting tuna associated with fish aggregating devices anchored in french polynesia. Backgound document for the International Workshop on the Ecology and Fisheries for Tunas Associated with Floating Objects, February 11–13 1992, La Jolla, CA. Available from Inter-American Tropical Tuna Commission, 8604 La Jolla Shores Dr, La Jolla, CA 92037. (mimeo), 18 pp.
Josse E., Bertrand A. and Dagorn L. (1999) An acoustic approach to studying tuna aggregated around fish aggregating devices in French Polynesia: methods and validation. Aquat. Living Resour. 12, 303–313.
Kihara, Y. (1981) Fishery based on the payao method in The Philippines. Suisan Sekai 30, 78–84.
Kimura, M., Morii, Y., Kuno, T., Nishida, H., Yoshimura, H. Akishige, Y. and Senta, T. (1998) Flotsam ichthyofauna in the tropical waters of the west Pacific Ocean. Bull. Fac. Fish. Nagasaki Univ. 79, 9–20.
Kingsford, M.J. (1992) Drift algae and small fish in coastal waters of north eastern New Zealand. Mar. Ecol. Prog. Ser. 80(1), 41–55.
Kingsford, M.J. (1993) Biotic and abiotic structure in the pelagic environment: Importance to small fishes. Bull. Mar. Sci. 53(2), 393–415.
Kingsford, M.J. (1995) Drift algae: a contribution to near-shore habitat complexity in the pelagic environment and an attactant for fish. Mar. Ecol. Prog. Ser. 116, 297–301.
Kingsford, M.J. (1999) Fish attaction devices (FADs) and experimental designs. In: Massutí, E. and B. Morales-Nin (eds.), Biology and fishery of dolphinfish and related species. Sci. Mar. 63(3–4), 181–190.
Kingsford, M.J. and Choat, J.H. (1986) Influence of surface slicks on the distribution and onshore movements of small fish. Mar. Biol. 91, 161–171.
Kingsford, M.J. and Choat, J.H. (1989) Horizontal distribution patterns of presettlement fish: are they influenced by the proximity of reefs?. Mar. Biol. 100, 285–297.
Kingsford, M.J. and DeFries, A. (1999) The ecology and fishery for Coryphaena spp. in waters around Australia and New Zeland. Sci. Mar. 63(3–4), 267–275.
Kitamado, T. and Kataoka, C. (1996) A study for the realization of sustainable fisheries. A case of Payang fishery in the southern coast of west Jawa, Indonesia. Bull. Fac. Fish. Nagasaki Univ. 77, 117–126.
Klima, E.F. and Wickham, D.A. (1971) Attraction of coastal pelagic fishes with artificial structures. Trans. Am. Fish. Soc. 100, 86–99.
Klimley, A.P. and Holloway, C.F. (1999) School fidelity and hming synchronicity of yellowfin tuna, Thunnus albacares. Mar. Biol. 133, 307–317.
Kojima, S. (1956) Fishing for dolphins in the Western part of the Japan Sea — II. Why do the fish take shelter under floating materials? Bull. Jap. Soc. Sci. Fish. 21(10), 1049–1052.
Kojima, S. (1960a) Fishing for dolphins in the Western part of the Japan Sea — V. Species of fishes attracted to bamboo rafts. Bull. Jap. Soc. Sci. Fish. 26(4), 379–382.
Kojima, S. (1960b) Fishing for dolphins in the Western part of the Japan Sea — VI. Behaviors of fish gathering around bamboo rafts. Bull. Jap. Soc. Sci. Fish. 26(4), 383–388.
Kojima, S. (1966) Studies on fishing conditions of the dolphin, Coryphaena hippurus, in the Western regions of the Japan Sea — XI. School of dolphins accompanying various kinds of flotages. Bull. Jap. Soc. Sci. Fish. 32(8), 647–651.
Kojima, S. (1967) Studies on fishing conditions of the dolphin, Coryphaena hippurus, in the Western Regions of the Sea of Japan — XIII. “Tsukegi” as a source of food for dolphins. Bull. Jap. Soc. Sci. Fish. 33(4), 320–324.
Konev, A.F. (1993) On the conection between floating objects on the ocean surface and formation of large tuna schools. In: Yakovlev, V.N., E.V. Romanov, N.A. Lebedeva, Yu.K. Trushyn, I.G. Timokhin, B.G. Trotsenko and V.V. Korkosh (eds.), Resources of tunas and related species in the world ocean and problems of their rational utilization. Kerch, Ukraine 1–5 June 1992, pp. 71–72.
Limbaugh, C. (1955) Fish life in the kelpbeds and effects of da harvesting. Univ. Calif. Inst. Mar. Resources. Ref. 55–9, 1–58.
Lindquist, D.G., Ogburg, M.V., Stanley, W.B., Troutman, H.T. and Pereira, S.M. (1995) Fish utilization patterns on temperate rubble-mound jetties in North Carolina. Bull. Mar. Sci. 37, 244–251.
Longman, 1984. Longman Webster English College Dictionary. Longman Group limited, London. 1876 pp.
Lukens, R.R. (1981) Ichthyofaunal colonization of a new artificial reef in the northern Gulf of Mexico. Gulf Res. Rep. 7, 41–49.
Mansueti, R. (1963) Symbiotic behavior between small fishes and jellyfishes, with new data on that between the stromateid, Peprilus alepidotus, and the scyphomedusa, Chrysaora quinquecirrha. Copeia 1963, 40–80.
Marliave, J.B. (1986) Lack of planktonic dispersal of rocky intertidal fish larvae. Trans. Am. Fish. Soc. 115, 149–154.
Marsac, F. and Stequert, B. (1986) La peche des thons autour d'epaves ancrees dans l'Ocean Indie. Pêche Marit. 66(1311), 439–446.
Massutí, E. (1997) Biology of Coryphaena hippurus Linnaeus, 1758 (Pisces: Coryphaenidae) in the Western Mediterranean. Mem. Tesis Doctoral. Universitat de les Illes Balears (Spain). 169 pp.
Massutí, E. and Reñones, O. (1994) Observaciones sobre la comunidad de peces pelágicos asociados a objetos flotantes en aguas oceánicas de Mallorca. Bol. Inst. Esp. Oceanogr. 10(1), 81–93.
Massutí, E. and Vidal, S. (1997) La llampuga: un mite de la tardor. Edicions Documenta Balear. Palma de Mallorca. 195 pp.
Mathews, J. and Butcher, T. (1983) FAD research in New South Wales. Austral. Fish. 42(6), 49–51.
Mathews, C.P., Monintja, D. and Naamin, N. (1996) Studies of Indonesian tuna fisheries, part 2: Changes in yellowfin abundance in the Gulf of Tomini and North Sulawesi. In: Shomura, R.S., J. Majkowski and R.F. Harman (eds.), Status of Interactions of Pacific tuna fisheries in 1995. Proceeding of the 2nd. FAO Expert Consultation on the Interactions of Pacific Tuna Fisheries. Shimizu, Japan, 23–31 January 1995. FAO Fish. Tech. Pap. 365, 298–305.
Matsumoto, W.M., Kazama, T.K. and Aasted, D.C. (1981) Anchored fish aggregating devices in Hawaiian waters. Mar. Fish. Rev. 43(9), 1–13.
Mitchell, C.T. and Hunter, J.R. (1970) Fishes associated with drifting kelp, Macrocystis pyrifera, off the coast of Southern California and Northern Baja California. Calif. Fish and Game 56(4), 288–297.
Moser, M.L., Auster, P.J. and Bichy, J.B. (1998) Effects of mat morphology on large Sargassum-associated fishes: observations from a remotely operated vehicle (ROV) and free-floating video comcorders. Env. Biol. Fish. 51, 391–398.
Mortensen, T. (1917) Observations on protective adaptation and habits, mainly in marine animals. In: Papers from Dr. Th. Mortensen's Pacific Expedition 1914–1916. Vidensk. Medd. Dansk Naturhist. Forem. 69, 57–96.
Murray, J. and Hjort, J. (1912) The depths of the ocean: a general account of the modern science of oceanography based largely on the scientific researches on the Norwegian stearmer Michael Sars in the North Atlantic. MacMillan & Co. Ltd., London, xx + 821 pp.
Nagasawa, T. and Kobayashi, T. (1995) The early life history of the rockfish, Sebastes thompsoni (Scorpaenidae), in the Sea of Japan. Jap. J. Ichthyol. 41(4), 385–396.
Nakata, H., Takeuchi, H. and Hirano, T. (1988) A field experiment with drifting hoop nets collect the small fish gathering around drift algae. Bull. Jap. Soc. Sci. Fish. 54(11), 1899–1906.
Nash, R.D.M., Magnuson, J.J., Clay, C.C. and Stanton, T.K. (1987) A synopsic view of the Gulf Stream Front with 70 kHz sonar: taking advantage of a closer look. Can. J. Fish. Aquat. Sci. 44, 2022–2024.
Oxenford, H., Mahon, R. and Hunte, W. (eds.) (1993) The eastern Caribbean flyingfish project. OECS: Cane Garden (ST. Vincent and the Grenadines). OECS fishery report. Kingstown 9, 171 pp.
Parker, T. and Tunnicliffe, V. (1994) Dispersal strategies of the biota on an oceanic seamount: Implications for ecology and biogeagraphy. Biol. Bull. Mar. Biol. Lab. Woods Hole 187(3), 336–345.
Parin, N.V. and Fedoryako, B.I. (1999) Pelagic fish communities around floating objects in the open ocean. In: Scott, M.D., Bayliff, W.H., Lennert-Cody, C.E. and Schaefer, K.M. (eds.), Proceedings of the International Workshop on the Ecology and Fisheries for Tunas Associated with Floating Objects, February 11–13, 1992, Inter-American Tropical Tuna Commission Special Report 11, La Jolla, California, pp 447–458.
Pereira, J. (1996) Tuna schools in the Azores (SCRS/95/122). ICCAT Coll. Doc. Sci. 45(3), 236–247.
Pinho, M.R. and Pereira, J. (1996) Anchored fish aggregating devices in Azorean waters (SCRS/95/121). ICCAT Coll. Doc. Sci. 45(3), 229–235.
Pitcher, T.J. and Parrish, J.K. (1993) Functions of shoaling behavior in teleosts. In: Pitcher, T.J. (ed.), Behavior of teleost fishes, 2nd ed. Chapman & Hall, Fish and Fisheries Series 7. London, pp. 363–439.
Pollard, D.A. and Matthews, J. (1985) Experience in the construction and siting of artificial reefs and fish aggregation devices in Australian waters, with notes on and a bibliography of Australian studies. Bull. Mar. Sci. 37(1), 299–304.
Potier, M., Petitgas, P. and Petit, D. (1997) Interaction between fish and fishing vessels in the Javanese purse seine fishery. Aquat. Living Resour. 10(3), 149–156.
Potoschi, A. (1996) Studio sulla pesca, la consistenza delle risorse e la biologia di Coryphaena hippurus L. 1758 nei mari siciliani con particolare riferimento al Tirreno Meridionale ed allo Ionio. III Piano Triennale della Pesca Marittima e dell'Acquacoltura in Acque Marine e Salmatre (ricerche della Legge 41/82). Università degli studi di Messina.
Preston, G. (1982) The Fijian experience in the utilization of fish aggregation devices. South Pacific Commission Technical Report/Fisheries 14/WP 25. Noumea, New Caledonia. 61 pp.
Riera, F., Grau, A., Grau, A.M., Pastor, E., Quetglas, A. and Pou, S. (1999) Ichthyofauna associated with drifting floating objects in the Balearic Islands (western Mediterranean). In: Massutí, E. and B. Morales-Nin (eds.), Biology and fishery of dolphinfish and related species. Sci. Mar. 63(3–4), 229–235.
Rodríguez, J.M., Hernández-León, S. and Barton, E.D. (1999) Mesoscale distribution of fish larvae in relation to an upwelling filament off Northwest Africa. Deep Sea Res., Part 1, Oceanographic Research Papers 46(11), 1969–1984.
Rountree, R.A. (1983) The ecology of Stomonolephus meleagus and its fish symbionts. J. Elisha Mitch. Sci. Soc. 99(4), 172 (abstract).
Rountree, R.A. (1989) Association of fishes with fish aggregation devices: effects of structure size on fish abundance. Bull. Mar. Sci. 44(2), 960–972.
Rountree, R.A. (1990) Community structure of fishes attracted to shallow water fish aggregation devices off South Carolina, USA. Env. Biol. Fish. 29, 241–262.
Safran, P. and Omori, M. (1990) Some ecological observations on fishes associated with drifting seaweeds off Tohoku coast, Japan. Mar. Biol. 105(3), 395–402.
Shanks, A.L. (1983). Surface slicks associated with tidally forced internal waves may transport pelagic larvae of benthic invertebrates and fishes shoreward. Mar. Ecol. Prog. Ser. 13, 311–315.
Sibly, R.M. (1983) Optimal group size is unstable. Anim. Behav. 31, 947–948.
Stephan, C.D. and Lindquist, D.G. (1989) A comparative analysis of the fish assemblages associated with old and new shipwrecks and fish aggregating devices in Onslow Bay, North Carolina. Bull. Mar. Sci. 44(2), 698–717.
Stretta, J.-M. and Slepoukha, M. (1986) Analyse des facteurs biotiques et abiotiques associés aux bancs de thons. In: Symons, P.E.K., Miyake, P.M. and Sakagawa, G.T. (eds.), Proceedings of the ICCAT conference on the international skipjack year program, ICCAT, Madrid, pp. 161–169.
Tanaka, Y. and Oozeki, Y. (1996) Where are the eggs of the Pacific saury, Cololabis saira?. Ichthyol. Res. 43(3), 329–333.
Timokhin, I.G. and Korkosh, V.V. (1993) Fish concentrations near floating objects, their species composition and some features of their biology. In: Yakovlev, V.N., E.V. Romanov, N.A. Lebedeva, Yu.K. Trushyn, I.G. Timokhin, B.G. Trotsenko and V.V. Korkosh (eds.), Resources of tunas and related species in the world ocean and problems of their rational utilization. Kerch, Ukraine 1–5 June 1992, pp, 82–86.
Uda, M. (1933) Types of skipjack schools and their fishing qualities: the shoals of ‘katuwo’ and their angling. Bull. Jap. Soc. Sci. Fish. 2, 107–111 (Transl. by W.G. van Campen, 1952, U.S. Fish Wilds. Ser. Spec. Sci. Rep. Fish. 83, 68–78).
van Pel, H. (1938) De beoefening van de majang zeevisscherij langs de noordkust van Java. Meded. Inst. Zeevissch., Batavia 2B, 101–113.
Vinogradov, M.E. (1983) Open ocean ecosystem. In: Kinne, O. (ed.), Marine-ecology. A comprehensive, integrated treatise on life in oceans and coastal waters. Vol. 5. Ocean management. Part. 2. Ecosystems and organic resources, pp. 657–737.
Viñuales-Solé, J. (ed.) (1996) Los Etruscos amantes de la vida de Italia. Vol. 1. Time Life Books Inc. Ediciones Folio, S.A., Barcelona, pp. 35.
Wickham, D.A. and Russell, G.M. (1974) An evaluation of midwater artificial structures for attracting coastal pelagic fishes. Fish. Bull. 72(1), 181–191.
Wickham, D., Watson, J. and Ogren, L. (1973) The efficacy of midwater artificial structures for atraccting sport fish. Trans. Amer. Fish. Soc. 3, 563–673.
Wilkins, R.M. and Goodwin, M.H. (1989) Progress report on the evaluation of fish aggregating devices for the eastern Caribbean. In: Waugh, G.T. and M.H. Goodwin (eds.), Proceedings of the thirty ninth annual Gulf and Caribbean Fisheries Institute, Hamilton, Bermuda, Nov. 1986. 39, 405–407.
Workman, I.K., Landry, A.M.Jr., Watson, J.W.Jr. and Blackwell, J.W. (1985) A midwater fish attraction device study conducted from Hydrolab. Bull. Mar. Sci. 37(1), 377–386.
Yu, L.S. (1992) Characteristics of formation and behavior of associated aggregations of tunas in the Western Indian Ocean. Backgound document for the International Workshop on the Ecology and Fisheries for Tunas Associated with Floating Objects, February 11–13 1992, La Jolla, CA. Available from Inter-American Tropical Tuna Commission, 8604 La Jolla Shores Dr, La Jolla, CA 92037 (mimeo), pp. 3.
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Castro, J.J., Santiago, J.A. & Santana-Ortega, A.T. A general theory on fish aggregation to floating objects: An alternative to the meeting point hypothesis. Reviews in Fish Biology and Fisheries 11, 255–277 (2002). https://doi.org/10.1023/A:1020302414472
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DOI: https://doi.org/10.1023/A:1020302414472