Hostname: page-component-cd9895bd7-q99xh Total loading time: 0 Render date: 2024-12-22T18:45:25.185Z Has data issue: false hasContentIssue false

Feeding habits of the swimming blue crab Portunus segnis (Forskål, 1775) (Brachyura: Portunidae) in the Mediterranean

Published online by Cambridge University Press:  20 May 2019

Olfa Ben Abdallah-Ben Hadj Hamida*
Affiliation:
Institut National des Sciences et Technologies de la Mer (INSTM, centre de Sfax, B.P. 1035–3018 Sfax, Tunisie
Nader Ben Hadj Hamida
Affiliation:
Institut National des Sciences et Technologies de la Mer (INSTM, centre de Sfax, B.P. 1035–3018 Sfax, Tunisie
Rihab Ammar
Affiliation:
Institut National des Sciences et Technologies de la Mer (INSTM, centre de Sfax, B.P. 1035–3018 Sfax, Tunisie
Houda Chaouch
Affiliation:
Institut National des Sciences et Technologies de la Mer (INSTM, centre de Sfax, B.P. 1035–3018 Sfax, Tunisie
Hechmi Missaoui
Affiliation:
Institut National des Sciences et Technologies de la Mer (INSTM, centre de Sfax, B.P. 1035–3018 Sfax, Tunisie
*
Author for correspondence: Olfa Ben Abdallah-Ben Hadj Hamida, E-mail: [email protected]

Abstract

The alien blue swimming crab, Portunus segnis (Forskål, 1775), an Indo-Pacific species, has been recorded in the southern Mediterranean Sea for decades, and its occurrence along the southern Tunisian coasts has been recorded since 2014. The feeding habits of P. segnis were studied in the Gulf of Gabes from October 2015 to September 2016. The stomach contents of 3061 crabs, ranging from 50 to 168 mm carapace width, were analysed. The stomach contents appeared to consist mainly of large quantities of crustaceans, fish and molluscs, and small quantities of echinoderms, annelids, tunicates, cnidarians, plants, unidentifiable matter and debris. The major food groups observed were crustaceans throughout the year with fish and molluscs secondly. In juvenile, sub-adult and adult crabs, crustaceans constituted the dominant food source and these were present in more than 65% of the stomachs analysed. Ingestion of fish increases as the crab matures. A significant difference (P < 0.05) was observed in the quantity of the food consumed by the two sexes. The diet also increased with increasing ovary maturity degree, while the percentage of empty stomachs in ovigerous and non-ovigerous females did not show any difference. The vacuity index varied significantly in both sex (P < 0.0001), among size (P < 0.0001) and seasons (P < 0.0001). This study shows that, despite the diversity in blue crab diets and feeding habits, it is omnivorous with a preference for animal material.

Type
Research Article
Copyright
Copyright © Marine Biological Association of the United Kingdom 2019 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Abdel-Razek, FA (1987) Crab fishery of the Egyptian waters with notes on the bionomics of Portunus pelagicus (L.). Acta Adriatica 28, 143154.Google Scholar
Abdel Razek, FA, Taha, SM and Ameran, AA (2006) Population biology of the edible crab Portunus pelagicus (Linnaeus) from Bardawil lagoon, northern Sinai, Egypt. Egyptian Journal of Aquatic Resources 32, 401418.Google Scholar
Atar, HH and Sector, S (2003) Width/length-weight relationships of the blue crab (Callinectes sapidus Rathbun, 1896) population living in Beymelek lagoon lake. Turkish Journal of Veterinary and Animal Science 27, 443447.Google Scholar
Batoy, CB, Sarmago, JF and Pilapil, BC (1987) Breeding season, sexual maturity and fecundity of the blue crab, Portunus pelagicus (L.) in selected coastal waters in Leyte and vicinity, Philippines. Annals of Tropical Research 9, 157177.Google Scholar
Bryceson, I and Massinga, A (2002) Coastal resources and management systems influenced by conflict and migration: Mecufi, Mozambique. Ambio 31, 512517.Google Scholar
Cannicci, S, Dahdouh-Guebas, F, Anyona, D and Vannini, M (1996) Natural diet and feeding habits of Thalamita crenata (Decapoda: Portunidae). Journal of Crustacean Biology 16, 678683.Google Scholar
Chande, AI, Nikundiwe, AM and Kyomo, J (1999) The status of the crab fishery at Mzinga creek, Dar es Salaam. In Jiddawi, NS and Stanley RD (eds), Fisheries Stock Assessment in the Traditional Fishery Sector: The Information Needs. Proceedings of the National Workshop on the Artisanal Fisheries Sector, Zanzibar, September 22–24, 1997, Zanzibar, Tanzania. pp. 81–87.Google Scholar
Cortès, E (1997) A critical review of methods of studying fish feeding based on analysis of stomach contents: application to elasmobranch fishes. Canadian Journal of Fisheries and Aquatic Sciences 54, 726738.Google Scholar
Crocetta, F (2006) First record of Portunus pelagicus (Linnaeus, 1758) (Decapoda: Brachyura: Portunidae) in the northern Tyrrhenian Sea. Crustaceana 79, 11451148.Google Scholar
Crocetta, F, Agius, D, Balisteri, P, Bariche, M, Bayhan, YK, Cakir, M, Ciriaco, S, Corsini-Foka, M, Deidun, A, El Zrelli, R, Erguden, D, Evans, J, Ghelia, M, Giavasi, M, Kleitou, P, Kondylatos, G, Lipej, L, Mifsud, C, Ozvarol, Y, Pagano, A, Portelli, P, Poursanidis, D, Rabaoui, L, Schembri, PJ, Taskin, E, Tiralongo, F and Zenetos, A (2015) New Mediterranean biodiversity records (October 2015). Mediterranean Marine Science 16, 682702.Google Scholar
Dahdouh-Guebas, F, Giuggioli, M, Oluoch, A, Vannini, M and Cannicci, S (1999) Feeding habits of non-ocypodid crabs from two mangrove forests in Kenya. Bulletin of Marine Sciences 64, 291297.Google Scholar
Donaldson, HA (1975) Vertical distribution and feeding of sergestid shrimps (Decapoda: Natantia). Marine Biology 31, 3750.Google Scholar
Ekman, S (1967) Zoogeography of the Sea. London: Sidgwick and Jackson, 419 pp.Google Scholar
Fox, HM (1927) Appendix to the report on the Crustacea Decapoda (Brachyura). Zoological results of the Cambridge Expedition on the Suez Canal, 1924. Transactions of the Zoological Society London 22, 217219.Google Scholar
Freier, J, Paz Sampedro, M and Gonzáles-Gurriáran, E (1996) Influence of morphometry and biomechanics on diet selection in three portunid crabs. Marine Ecology Progress Series 137, 111121.Google Scholar
Galil, BS (2011) The alien crustaceans in the Mediterranean Sea: an historical review. In Galil, BS, Clark, PF and Carlton, JT (eds), In the Wrong Place – Alien Marine Crustaceans: Distribution, Biology and Impacts. Berlin: Springer, pp. 377401.Google Scholar
Galil, B, Froglia, C and Noël, PY (2002) CIESM Atlas of Exotic Species in the Mediterranean. Vol. 2. Crustaceans: Decapods and Stomatopods. Monaco: CIESM Publishers, 192 pp.Google Scholar
Galil, BS, Marchini, A, Occhipinti-Ambrogi, A, Minchin, D, Narščius, A, Ojaveer, H and Olenin, S (2014) International arrivals: widespread bioinvasions in European seas. Ethology, Ecology and Evolution 26, 152171.Google Scholar
GIPP (2018) Rapport Export-Import des produits de la pêche en Tunisie. Groupement Interprofessionnel des Produits de la Pêche.Google Scholar
Hacunda, JS (1981) Trophic relationships among demersal fishes in coastal area of the Gulf of Maine. Fishery Bulletin 79, 775788.Google Scholar
Hill, BJ (1976) Natural food, foregut clearance rate and activity of the crab Scylla serrata. Marine Biology 24, 109116.Google Scholar
Hynes, HB (1950) The food of fresh water sticklebacks (Gasterosteus aculeatus and Pygosteus pungitius), with a review of methods used in studies of the food of fishes. Journal of Animal Ecology 19, 3658.Google Scholar
Hyslop, EJ (1980) Stomach contents analysis: a review of methods and their application. Journal of Fish Biology 17, 411529.Google Scholar
Josileen, J (2011) Food and feeding of the blue swimmer crab, Portunus pelagicus (Linnaeus, 1758) (Decapoda, Brachyura) along the coast of Mandapam, Tamil Nadu, India. Crustaceana 84, 11691180.Google Scholar
Katsanevakis, S, Wallentinus, I, Zenetos, A, Leppäkoski, E, Çinar, ME, Oztürk, B, Grabowski, M, Golani, D and Cardoso, AC (2014) Impacts of invasive alien marine species on ecosystem services and biodiversity: a pan-European review. Aquatic Invasions 9, 391423.Google Scholar
Kyomo, J (1999) Distribution and abundance of crustaceans of commercial importance in Tanzania mainland coastal waters. Bulletin of Marine Sciences 65, 321335.Google Scholar
Lai, JCY, Ng, PKL and Davie, PJF (2010) A revision of the Portunus pelagicus (Linnaeus, 1758) species complex (Crustacea: Brachyura: Portunidae), with the recognition of four species. Raffles Bulletin of Zoology 58, 199237.Google Scholar
Oral, M (2010) Alien fish species in the Mediterranean–Black Sea Basin. Journal of Black Sea/Mediterranean Environment 16, 87132.Google Scholar
Ozcan, T (2012) The swimming crab Portunus segnis (Forskal, 1775): host for the barnacle Chelonibia platula (Ranzani, 1818) from the Turkish coast. Journal of Black Sea/Mediterranean Environment 18, 271278.Google Scholar
Özcan, T, Katagan, T and Kocatas, A (2005) Brachyuran crabs from Iskenderun Bay (Southeastern Turkey). Crustaceana 78, 237243.Google Scholar
Patel, NM, Chhaya, ND and Bhaskaran, M (1979) Stomach contents of Portunus pelagicus (L.) from AD net catches. Indian Journal of Marine Sciences 8, 4849.Google Scholar
Pazooki, J, Hosseini, M and Zadeh, AV (2012) The dietary composition of the blue swimming crab, Portunus segnis (Forskal, 1775) from Persian Gulf, South Iran. World Applied Sciences Journal, 20, 416422.Google Scholar
Pinkas, L, Oliphant, MS and Iverson, ILK (1971) Food habits of albacore, bluefin tuna and bonito in California waters. Fishery Bulletin 152, 1105.Google Scholar
Por, FD (2010) Climate optimum rejuvenates the Mediterranean marine world. Integrative Zoology 5, 112121.Google Scholar
Potter, IC and De Lestang, S (2000) Biology of the blue swimmer crab Portunus pelagicus in Leschenault Estuary and Koombana Bay, south-western Australia. Journal of the Royal Society of Western Australia 83, 443458.Google Scholar
Rabaoui, L, Arculeo, M, Mansour, L and Tlig-Zouari, S (2015) Occurrence of the Lessepsian species Portunus segnis (Crustacea: Decapoda) in the Gulf of Gabes (Tunisia): first record and new information on its biology and ecology. Cahiers de Biologie Marine 56, 169175.Google Scholar
Rifi, M, Ounifi Ben Amor, K, Ben Souissi, and Zaouali, J (2014) Première mention du crabe lessepsien Portunus segnis (FORSKAL, 1775) (Décapode, Brachyoure, Potnidae) dans les eaux marines Tunisiennes. 4ème Congrès Franco-Maghrébin de Zoologie & 5èmes Journées Franco-Tunisiennes de Zoologie, Korba (Tunisie), 9 pp.Google Scholar
Romano, N and Zeng, C (2008) Blue swimmer crabs, emerging species in Asia. Global Aquaculture Advocate 11, 3436.Google Scholar
ROPME (1999) Overview on Land-based Sources and Activities Affecting the Marine Environment in the ROPME Sea Area. UNEP/GPA Coordination Office & ROPME. 127 pp.Google Scholar
Safaie, M (2016) Feeding habits of blue swimming crab Portunus segnis (Foskal, 1775) in the northern coastal waters of Iran. Marine Biodiversity Records 9, 19.Google Scholar
Santos, J and Borges, T (2001) Trophic relationships in deep-water fish communities off Algarve, Portugal. Fisheries Research 51, 37341.Google Scholar
Sukumaran, KK (1995) Fishery, biology and population dynamics of the marine crabs, Portunus (Portunus) sanguinolentus (Herbst) and Portunus (Portunus) pelagicus (Linnaeus) along the Karnataka Coast (PhD thesis). School of Ocean Sciences, Karnataka University, Karwar, India, 403 pp.Google Scholar
Tadi, F, Pazooki, J and Safaie, M (2012) Food and feeding habits of the blue swimming crab, Portunus segnis along Persian Gulf Hormozgan coast. International Conference the Biology of Iran, Vol 17.Google Scholar
Williams, AB (1974) The swimming crabs of the genus Callinectes (Decapoda: Portunidae). United States Fishery Bulletin 72, 685798.Google Scholar
Williams, MJ (1981) Methods for analysis of natural diet in portunid crabs (Crustacea: Decapoda: Portunidae). Journal of Experimental Marine Biology and Ecology 52, 103113.Google Scholar
Williams, MJ (1982) Natural food and feeding in the commercial sand crab Portunus pelagicus (L. 1766) (Crustacea: Decapoda: Portunidae) in Moreton Bay, Queensland. Journal of Experimental Marine Biology and Ecology 59, 165176.Google Scholar
Wu, X, Zhou, B, Cheng, Y, Zeng, C, Wang, C and Feng, L (2010) Comparison of gender differences in biochemical composition and nutritional value of various edible parts of the blue swimmer crab. Journal of Food Composition and Analysis 23, 154159.Google Scholar
Yokes, M, Karhan, S, Okus, E, Yüksek, A, Aslan-Yilmaz, A, Noyan-Yilmaz, I, Demirel, N, Demir, V and Galil, BS (2007) Alien crustacean decapods from the Aegean coast of Turkey. Aquatic Invasions 2, 162168.Google Scholar
Zainal, KAY (2013) Natural food and feeding of the commercial blue swimming crab, Portunus pelagicus (Linnaeus, 1758) along the coastal waters of the Kingdom of Bahrain. Journal of the Association of Arab Universities for Basic and Applied Sciences 13, 17.Google Scholar
Zar, JH (1999) Biostatistical Analysis, 4th Edn. Englewood Cliffs, NJ: Prentice Hall, 663 pp.Google Scholar