Marine Biology

, Volume 155, Issue 1, pp 113–120 | Cite as

Feeding habits of the albacore tuna Thunnus alalunga (Perciformes, Scombridae) from central Mediterranean Sea

  • P. ConsoliEmail author
  • T. Romeo
  • P. Battaglia
  • L. Castriota
  • V. Esposito
  • F. Andaloro
Original Paper


In order to assess feeding habits and trophic level of this species, we analysed the stomach content of 189 specimens collected monthly in the southern Tyrrhenian Sea (central Mediterranean Sea). The results showed that this species is a pelagic predator focusing on paralepidid fish and, more in detail, on two species such as Paralepis speciosa and Paralepis coregonoides. Among cephalopods, Heteroteuthis dispar was the most abundant prey item in the stomach contents, whereas among crustaceans the hyperidean amphipods Phrosina semilunata and Brachyscelus crusculum were the most representative species. In the present study, the diet of the albacore did not vary significantly throughout the period of study focusing, in the different season of catch, on the same prey species. Not even a size-related diet shift was observed, with a partitioning of the albacore sample into five size groups. Levin’s standardized index showed a low value indicating a limited trophic niche width, with a diet dominated by a limited number of taxa and then a specialist behaviour for this predator. The estimated TROPH value for T. alalunga resulted very similar to that calculated in Mediterranean Sea for other species as well as Xiphias gladius, Thunnus thynnus, Euthynnus alletteratus and Sarda sarda. Then, the albacore tuna can be considered as a top carnivore.


Stomach Content Prey Species Prey Type Niche Width Prey Taxon 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.


  1. Aloncle H, Delaporte F (1973) Rythmes alimentaires et circadiens chez le germon Thunnus alalunga dans le Nord-Est atlantique. Sci Nat Paris VI, Paris, 96 ppGoogle Scholar
  2. Amundsen PA, Gabler HM, Staldvik FJ (1996) A new approach to graphical analysis of feeding strategy from stomach contents data modification of the Costello (1990) method. J Fish Biol 48:607–614Google Scholar
  3. Andaloro F (2006) Gruppo di studio ed elementi di base per la gestione dei grandi pelagici. Sottoprogetto–Ruolo trofico del grande pelagico Thunnus alalunga, Bonnaterre, 1788. Rapporto Finale, Ministero per le Politiche Agricole e Forestali, 71 ppGoogle Scholar
  4. Beardsley GL (1969) Proposed migrations for albacore, Thunnus alalunga, in the Atlantic Ocean. Trans Am Fish Soc 98:589–598. doi: 10.1577/1548-8659(1969)98[589:PMOATA]2.0.CO;2 CrossRefGoogle Scholar
  5. Bello G (1999) Cephalopods in the diet of albacore, Thunnus alalunga, from the Adriatic Sea. J Moll Stud 65:233–240. doi: 10.1093/mollus/65.2.233 CrossRefGoogle Scholar
  6. Bernard H, Hedgepeth J, Reilly S (1985) Stomach contents of albacore, skipjack, and bonito caught off southern California during summer 1983. CaCOFL Rep 26:175–183Google Scholar
  7. Bertrand A, Bard FX, Josse E (2002) Tuna food habits related to the micronekton distribution in French Polynesia. Mar Biol (Berl) 140:1023–1037. doi: 10.1007/s00227-001-0776-3 CrossRefGoogle Scholar
  8. Bigg MA, Fawcett I (1985) Two biases in diet determination of northern fur seals (Cullorhinus ursinus). In: Beddington JR, Beverton RJH, Lavigne DM (eds) Marine mammals and fisheries. George Allen and Unwin Publishing, London, pp 285–291Google Scholar
  9. Campo D, Mostarda E, Castriota L, Scarabello MP, Andaloro F (2006) Feeding habits of the Atlantic bonito, Sarda sarda (Bloch, 1793) in the southern Tyrrhenian sea. Fish Res 81:169–175. doi: 10.1016/j.fishres.2006.07.006 CrossRefGoogle Scholar
  10. Cefali A, Potoschi A, De Metrio G, Petrosino G (1986) Biology and fishing of germon, Thunnus alalunga (Bonn 1788), observed for a 4-year period in the Gulf of Taranto. Oeb N S 12:123–136Google Scholar
  11. Chipps SR, Garvey JE (2007) Quantitative assessment of food habits and feeding patterns. In: Guy C, Brown M (eds) Analysis and interpretation of freshwater fisheries data. American Fisheries Society, Bethesda, pp 473–514Google Scholar
  12. Clarke MR (1986) A handbook for the identification of cephalopod beaks. Clarendon Press, Oxford, UK, 273 ppGoogle Scholar
  13. Clarke KR (1993) Non-parametric multivariate analyses of changes in community structure. Aust J Ecol 18:117–143. doi: 10.1111/j.1442-9993.1993.tb00438.x CrossRefGoogle Scholar
  14. Clarke KR, Gorley RN (2006) PRIMER V6: user manual. PRIMER-E, Plymouth, EnglandGoogle Scholar
  15. Clemens HA, Iselin RA (1962) Food of Pacific albacore in the California fishery (1955 and 1961). In: World scientific meeting on the biology of tuna and related species, experience paper, vol 30. FAO, La Jolla, CA, 13 ppGoogle Scholar
  16. Costello MJ (1990) Predator feeding strategy and prey importance: a new graphical analysis. J Fish Biol 36:261–263. doi: 10.1111/j.1095-8649.1990.tb05601.x CrossRefGoogle Scholar
  17. Falautano M, Castriota L, Finoia MG, Andaloro F (2007) Feeding ecology of little tunny Euthynnus alletteratus in the central Mediterranean Sea. J Mar Biol Assoc UK 87:999–1005. doi: 10.1017/S0025315407055798 CrossRefGoogle Scholar
  18. Ferry LA, Caillet GM (1996) Sample size and data analysis: are we characterizing and comparing diet properly? In: MacKinlay D, Shearer K (eds) Feeding ecology and nutrition in fish, Symposium Proceedings, pp 71–80Google Scholar
  19. Fischer W, Bauchot ML, Schneider M (1987) Fiches FAO d’identification des espèces pour les besoins de la pêche (Révision 1). Méditerranée et mer Noire. Zone de pêche 37. 1. Vegetaux et Invertebres. Publication préparée par la FAO (Project GCP/INT/422/EEC). Rome, FAO, 760 ppGoogle Scholar
  20. Froese R, Pauly D (1999) FishBase 1999: concepts, structure et sources de données. ICLARM, Manilla, Philippines, 324 pGoogle Scholar
  21. González-Garcés A (1997) Contribution to knowledge about north Atlantic albacore (Thunnus alalunga, Bonn. 1788) population dynamics. PhD thesis, University of Madrid, MadridGoogle Scholar
  22. Gower JC (1971) A general coefficient of similarity and some of its properties. Biometrics 27:857–871. doi: 10.2307/2528823 CrossRefGoogle Scholar
  23. Hassani S (1997) Diets of albacore, Thunnus alalunga, and dolphins, Delphinus delphis and Stenella coerulaeoalba, caught in the northeast Atlantic albacore drift-net fishery: a progress report. J Northwest Atl Fish Sci 22:119–123CrossRefGoogle Scholar
  24. Hurlbert SH (1978) The measurement of niche overlap and some relatives. Ecol 59:67–77. doi: 10.2307/1936632 CrossRefGoogle Scholar
  25. Hurlbert SH (1984) Pseudoreplication and the design of ecological field experiments. Ecol Monogr 54:187–211. doi: 10.2307/1942661 CrossRefGoogle Scholar
  26. Jobling M, Breiby A (1986) The use and abuse of fish otoliths in studies of feeding habits of marine piscivores. Sarsia 71:265–274CrossRefGoogle Scholar
  27. Koto T (1969) Studies on the albacore. XIV. Distribution and movement of the albacore in the Indian and the Atlantic Oceans based on the catch statistics of Japanese tuna longline fishery. Bull Far Seas Fish Res Lab 1:115–129Google Scholar
  28. Krebs CJ (1989) Ecologycal methodology. Harper & Row, Publishers, New York, 654 ppGoogle Scholar
  29. Laurs RM, Lynn RJ (1991) North Pacific albacore ecology and oceanography. NOAA Tech Rep NMFS 105:69–87Google Scholar
  30. Marano G, Bello G, De Zio V, Rositani L, Vlora A (1996) Aspetti biologici di Thunnus alalunga nell’Adriatico Meridionale (Osteichthyes: Scombridae). Biol Mar Medit 3:330–336Google Scholar
  31. Megalofonou P (1990) Size distribution, length–weight relationships, age and sex of albacore (Thunnus alalunga) in the Aegean Sea. ICCAT Coll Vol Sci Pap 33:154–162Google Scholar
  32. Megalofonou P (2000) Age and growth of Mediterranean albacore. J Fish Biol 57:700–715. doi: 10.1111/j.1095-8649.2000.tb00269.x CrossRefGoogle Scholar
  33. Mostarda E, Romeo T, Scotti G, Tarusello M, Campo D, Castriota L et al (2004) The pelagic small-scale fishing fleet of the North-Eastern Sicilian Sea. In: Summaries of 39th EMBS-Genoa. Biol Mar Medit 11:190–191Google Scholar
  34. Nihira A, Yasui M, Mori N (1992) Prey–predator relationship of albacore, Thunnus alalunga, in Kuroshio extension area. Bull Ibaragi Prefer Fish Res Inst 30:11–19Google Scholar
  35. Ortiz de Zarate V (1987) Datos sobre la alimentación del atún blanco (Thunnus alalunga B.) juvenil capturado en el Golfo de Bizcaya. ICCAT Coll Vol Sci Pap 26:243–247Google Scholar
  36. Pauly D, Palomares ML (2000) Approaches for dealing with three sources of bias when studying the fishing down marine food web phenomenon. CIESM Workshop Ser 12:61–66Google Scholar
  37. Pauly D, Trites AW, Capuli EV, Christensen V (1998) Diet composition and trophic levels of marine mammals. ICES J Mar Sci 55:467–481. doi: 10.1006/jmsc.1997.0280 CrossRefGoogle Scholar
  38. Pauly D, Froese R, Sa-a PS, Palomares ML, Christensen Rius VJ (2000) TrophLab manual. ICLARM, Manila, PhilippinesGoogle Scholar
  39. Pierce GJ, Boyle PR (1991) A review of methods for diet analysis in piscivorous marine mammals. Oceanogr Mar Biol Annu Rev 29:409–486Google Scholar
  40. Pusineri C, Vasseur YS, Hassani J, Spitz J, Ridoux V (2005) Food and feeding ecology of juvenile albacore, Thunnus alalunga, off the Bay of Biscay: a case study. ICES J Mar Sci 62:116–122. doi: 10.1016/j.icesjms.2004.09.004 CrossRefGoogle Scholar
  41. Roper CFE (1974) Vertical and seasonal distribution of pelagic cephalopods in the Mediterranean Sea. Preliminary report. Bull Am Mal, pp 27–30Google Scholar
  42. Santos MB, Clarke MR, Pierce GJ (2001) Assessing the importance of cephalopods in the diets of marine mammals and other top predators: problems and solutions. Fish Res 52:121–139. doi: 10.1016/S0165-7836(01)00236-3 CrossRefGoogle Scholar
  43. Stergiou KI, Karpouzi VS (2002) Feeding habits and trophic levels of Mediterranean fishes. Rev Fish Biol Fish 11:217–254. doi: 10.1023/A:1020556722822 CrossRefGoogle Scholar
  44. Tortonese E (1975) Fauna d’Italia: Osteichthyes. Pesci Ossei, Calderini, BolognaGoogle Scholar
  45. Watanabe H, Kubodera T, Masuda S, Kawahara S (2004) Feeding habits of albacore Thunnus alalunga in the transition region of the central North Pacific. Fish Sci 70:573–579. doi: 10.1111/j.1444-2906.2004.00843.x CrossRefGoogle Scholar

Copyright information

© Springer-Verlag 2008

Authors and Affiliations

  • P. Consoli
    • 1
    Email author
  • T. Romeo
    • 1
  • P. Battaglia
    • 1
  • L. Castriota
    • 2
  • V. Esposito
    • 1
  • F. Andaloro
    • 2
  1. 1.Milazzo Laboratory, ICRAM (Central Institute for Marine Research)Milazzo (ME)Italy
  2. 2.ICRAMPalermoItaly

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