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Observations on the trophodynamics of sawtooth barracuda, Sphyraena putnamae from the Bay of Bengal, northern Indian Ocean

Published online by Cambridge University Press:  19 January 2022

Shubhadeep Ghosh*
Affiliation:
Visakhapatnam Regional Centre of ICAR-Central Marine Fisheries Research Institute, Visakhapatnam, Andhra Pradesh 530003, India
Munivenkatappa Manas Hoshalli
Affiliation:
Visakhapatnam Regional Centre of ICAR-Central Marine Fisheries Research Institute, Visakhapatnam, Andhra Pradesh 530003, India
Prathibha Rohit
Affiliation:
Mangalore Regional Centre of ICAR-Central Marine Fisheries Research Institute, Mangalore, Karnataka 575001, India
Satishkumar Mamidi
Affiliation:
Visakhapatnam Regional Centre of ICAR-Central Marine Fisheries Research Institute, Visakhapatnam, Andhra Pradesh 530003, India
Median Abdussamad Eruppakkottil
Affiliation:
ICAR-Central Marine Fisheries Research Institute, Kochi, Kerala 682018, India
Gopalakrishnan Achamveetil
Affiliation:
ICAR-Central Marine Fisheries Research Institute, Kochi, Kerala 682018, India
*
Author for correspondence: Shubhadeep Ghosh, E-mail: subhadeep_1977@yahoo.com

Abstract

Marine capture of Sphyraena putnamae along western Bay of Bengal has been increasing. Owing to scarcity of information available on feeding dynamics globally, the present study was conducted using 763 individuals captured during 2017–19, to decipher trophic ecology and relationships. Of the individuals analysed, 54.8% had their stomachs either empty or with trace amounts of food, 27.3% had part-full stomachs and 18.0% had full stomachs. Stomach vacuity and fullness as well as predator–prey weight ratio varied with increase in body size, implying higher feeding intensity in large-sized fishes. Feeding activity was highest during July–November and lowest during March–April. The species is an opportunistic piscivorous pelagic predator that feeds on teleosts (>85%) and cephalopods. Sardines were the major prey, followed by whitebait, squid, bigeye scad, Indian scad, silverbellies and Indian mackerel. Diet contents were similar between sexes (82.17%); however, it varied among seasons (56.86–69.85%). Shifts in prey preferences from sardines, squid and bigeye scad to ribbonfish, shad, grunter, Indian mackerel, horse mackerel and Acetes were observed with increase in fish size, and diet varied between individuals sized <60.0 and >60.0 cm. Trophic level value was 3.51 ± 0.13 and Levin's Standardized Niche Breadth Index was 0.21. Dietary niche breadth varied across seasons and sizes, with higher values during summer and winter (0.36–0.41) and in fish measuring >45.0 cm (0.50–0.68), which implies generalized feeding behaviour. The present study represents the first detailed report on the diet of S. putnamae and will provide a substantial contribution to stock management through understanding of trophic interactions.

Type
Research Article
Copyright
Copyright © The Author(s), 2022. Published by Cambridge University Press on behalf of Marine Biological Association of the United Kingdom

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References

Aggrey-Fynn, J, Korsah, SF and Appiah, N (2013) Length weight relationship and food preference of two coastal marine fishes, Galeoides decadactylus (polynemidae) and Sphyraena sphyraen (Sphyraenidae) off Cape Coast, Ghana. West African Journal of Applied Ecology 21, 8797.Google Scholar
Akadje, C, Diaby, M, LeLoc'h, F, Konan, JK and N'da, K (2013) Diet of the barracuda Sphyraena guachancho in Côte d'Ivoire (Equatorial Eastern Atlantic Ocean). Cybium 37, 285293.Google Scholar
Amundsen, PA, Gabler, HM and Staldvik, FJ (1996) A new approach to graphical analysis of feeding strategy from stomach contents data – modification of the Costello (1990) method. Journal of Fish Biology 48, 607614.Google Scholar
Anusha, JR and Fleming, AT (2014) Cephalopod: squid biology, ecology and fisheries in Indian waters. International Journal of Fisheries and Aquatic Studies 1, 4150.Google Scholar
Arrington, DA, Winemiller, KO, Loftus, WF and Akin, S (2002) How often do fishes “run on empty”? Ecology 83, 21452151.Google Scholar
Bachok, Z, Mansor, MI and Noordin, RM (2004) Diet composition and food habits of demersal and pelagic marine fishes from Teranganu waters, east coast of peninsular Malaysia. NAGA World fish Center Quarterly 27, 4147.Google Scholar
Baker, R, Buckland, A and Sheaves, M (2014) Fish gut content analysis: robust measures of diet composition. Fish and Fisheries 15, 170177.CrossRefGoogle Scholar
Barreiros, JP, Santos, RS and De Borba, AE (2002) Food habits, schooling and predatory behavior of the yellow mouth barracuda, Sphyraena viridensis (Perciformes: Sphyraenidae) in the Azores. Cybium 26, 8388.Google Scholar
Baum, JK and Worm, B (2009) Cascading top-down effects of changing oceanic predator abundances. Journal of Animal Ecology 78, 699714.CrossRefGoogle ScholarPubMed
Bearhop, S, Adams, CE, Waldron, S, Fuller, RA and Macleod, H (2004) Determining trophic niche width: a novel approach using stable isotope analysis. Journal of Animal Ecology 73, 10071012.CrossRefGoogle Scholar
Bedia-Sánchez C, Franco-López J and Barrera-Escorcia H (2011) Análisis de la relación peso-longitud, alimentación y maduración gonádica de Sphyraena guachancho Cuvier, 1829 (Sphyraenidae) en Playa Barrancas, Municipio de Alvarado, Veracruz. Revue Zoologique 22, 23–32.Google Scholar
Bertoni, MD (1994) Fishery, Reproductive Biology, Feeding and Growth of the Snook (Sphyraenidae: Sphyraena novaehollandiae) in South Australia. Final Report to the Fishing Research and Development Corporation, Project No. T94/127, 101 pp.Google Scholar
Bolnick, DI, Svanback, R, Fordyce, JA, Yang, LH, Davies, JM, Hulsy, CD and Forister, ML (2003) The ecology of individuals: incidence and implications of individual specialization. American Naturalist 161, 128.CrossRefGoogle ScholarPubMed
Brown, SC, Bizzarro, JJ, Cailliet, GM and Ebert, DA (2012) Breaking with tradition: redefining measures for diet description with a case study of the Aleutian skate Bathyraja aleutica (Gilbert 1896). Environmental Biology of Fishes 95, 320.CrossRefGoogle Scholar
Carpenter KE and Niem VH (1998) FAO Species Identification Guide for Fishery Purposes. The Living Marine Resources of the Western Central Pacific. Vol. 2 (Cephalopods, Crustaceans, Holothurians and Sharks). Rome: FAO, pp. 687–1396.Google Scholar
Christensen, V and Pauly, D (1992) Ecopath II – a software for balancing steady-state ecosystem models and calculating network characteristics. Ecological Modelling 61, 169185.CrossRefGoogle Scholar
Clarke, KR and Gorley, RN (2006) Primer, 6th Edn. Plymouth: Primer-E.Google Scholar
Cohen, JE, Pimm, SL, Yodzis, P and Saldana, J (1993) Body sizes of animal predators and animal prey in food webs. Journal of Animal Ecology 62, 6778.CrossRefGoogle Scholar
Costello, MJ (1990). Predator feeding strategy and prey importance: a new graphical analysis. Journal of Fish Biology 36, 261263.CrossRefGoogle Scholar
Dananjanie, KAT, De Croos, MDST and Dissanayake, DCT (2009) Gillnet selectivity and food and feeding habits of Sphyraena obtusata and Sphyraena jello in the coastal waters off Negombo, Sri Lanka. Journal of National Aquatic Resources Research and Development Agency 39, 1–16.Google Scholar
Das, I, Hazra, S, Das, S, Giri, S, Chanda, A, Maity, S and Ghosh, S (2018) Trophic-level modelling of the coastal waters of the northern Bay of Bengal, West Bengal, India. Fisheries Science 84, 9951008.CrossRefGoogle Scholar
Daskalov, G (2002) Overfishing drives a trophic cascade in the Black Sea. Marine Ecology Progress Series 225, 5363.CrossRefGoogle Scholar
De Sylva, DP (1963) Systematics and life history of the great barracuda, Sphyraena barracuda (Walbaum). Studies in Tropical Oceanography 1, 179.Google Scholar
Dwivedi, SN and Choubey, AK (1998) Indian ocean large marine ecosystems: need for national and regional framework for conservation and sustainable development. In Sherman, K, Okemwa, E and Ntiba, M (eds), Large Marine Ecosystems of the Indian Ocean: Assessment, Sustainability and Management. Oxford: Blackwell Science, pp. 361368.Google Scholar
Ferry, LA and Cailliet, GM (1996) Sample size and data analysis: are we characterizing and comparing diet properly. Gutshop ‘96 Feeding Ecology and Nutrition in Fish Symposium Proceedings, American Fisheries Society, San Francisco.Google Scholar
Fischer, W and Bianchi, G (1984) Species Identification Sheets for Fishery Purposes, Western Indian Ocean: IV. Rome: FAO.Google Scholar
Fischer, W and Whitehead, PJP (1974) FAO Species Identification Sheets for Fishery Purposes. Eastern Indian Ocean (fishing area 57) and Western Central Pacific (fishing area 71), 1–4. Rome: FAO.Google Scholar
Gerking, SD (1994) Feeding Ecology of Fish. New York, NY: Academic Press.Google Scholar
Habegger, ML, Motta, PJ, Huber, DR and Deban, SM (2010) Feeding biomechanics in the Great Barracuda during ontogeny. Journal of Zoology 283, 6372.CrossRefGoogle Scholar
Hahm, W and Langton, R (1984) Prey selection based on predator-prey weight ratios for some northwest Atlantic fish. Marine Ecology Progress Series 19, 15.CrossRefGoogle Scholar
Hammerschlag, N, Barley, S, Irschick, DJ, Meeuwig, JJ, Nelson, ER and Meekan, MG (2018) Predator declines and morphological changes in prey: evidence from coral reefs depleted of sharks. Marine Ecology Progress Series 586, 127139.CrossRefGoogle Scholar
Heithaus, M, Frid, A, Wirsing, AJ and Worm, B (2008) Predicting ecological consequences of marine top predator declines. Trends in Ecology and Evolution 23, 204210.CrossRefGoogle ScholarPubMed
Hooker, HB, Castro-Gonzalez, E, Howard, AA, Quintero, JA and Sanabria, MP (2007) Food habits of the great barracuda, Sphyraena barracuda (Walbaum, 1792) (Pisces: Perciformes: Sphyraenidae) on the islands of San Andres, Cayos Bolivar, and Albuquerque Sea Flower BioReserve, Colombia. Proceedings of the Gulf and Caribbean Fisheries Institute 58, 208215.Google Scholar
Hosseini, SA, Jamili, S, Valinssab, T, Vosoghi, G and Fatemi, SMR (2009) Feeding and spawning of Sphyraena jello in the north west of Persian Gulf. Iranian Journal of Fisheries and Aquatic Sciences 4, 762.Google Scholar
Jaeger, A, Connan, M, Richard, P and Cherel, Y (2010) Use of stable isotopes to quantify seasonal changes of trophic niche and levels of population and individual specialisation in seabirds. Marine Ecology Progress Series 401, 269277.CrossRefGoogle Scholar
Kalogirou, S, Mittermayer, F, Pihl, L and Wennhage, H (2012) Feeding ecology of indigenous and non-indigenous fish species within the family Sphyraenidae. Journal of Fish Biology 80, 25282548.CrossRefGoogle ScholarPubMed
Labropoulou, M and Eleftheriou, A (1997) The foraging ecology of two pairs of congeneric demersal fish species: importance of morphological characteristics in prey selection. Journal of Fish Biology 50, 324340.CrossRefGoogle Scholar
Lopez-Peralta, RH and Arcila, CAT (2002) Diet composition of fish species from the southern continental shelf of Colombia. Naga World Fish Center Quarterly 25, 2229.Google Scholar
Manas, HM, Sathishkumar, M, Ghosh, S, Divipala, I, Roul, SK, Rohit, P, Mini, KG and Abdussamad, EM (2020) Status of large pelagics fishery in Andhra Pradesh. Marine Fisheries Information Service, Technical and Extension Series 245, 1317.Google Scholar
Mohammadizadeh, F, Valinassab, T, Jamili, S, Matinfar, A, Bahri-Shabanipour, AH and Mohammadizadeh, M (2010) A study on diet composition and feeding habits of sawtooth barracuda (Sphyraena putnamae) in Bandar-Abbas (North of Persian Gulf). Journal of Fisheries and Aquatic Sciences 5, 179190.Google Scholar
Moreno-Sanchez, XG, Palacios-Salgado, DS, Granados-Amores, J, Abitia-Cardenas, LA and Escobar-Sanchez, O (2019) Feeding habits of the Mexican barracuda, Sphyraena ensis Jordan and Gilbert, 1882, in the southeastern end of the Gulf of California. Ciencias Marinas 45, 137150.CrossRefGoogle Scholar
Myers, RA and Worm, B (2003) Rapid worldwide depletion of predatory fish communities. Nature 423, 280283.CrossRefGoogle ScholarPubMed
Nelson, JS, Grande, TC and Wilson, MV (2016) Fishes of the World, 5th Edn. New York, NY: John Wiley and Sons.CrossRefGoogle Scholar
Osman, HM, El Ganainy, AA and Amin, AM (2019) A study on diet composition and feeding habits of barracuda fish (Sphyraena chrysotaenia and S. flavicauda) in the Gulf of Suez. Egyptian Journal of Aquatic Biology and Fisheries 23, 223232.CrossRefGoogle Scholar
Oxenford, HA and Hunte, W (1999) Feeding habits of the dolphinfish (Coryphaena hippurus) in the eastern Caribbean. Scientia Marina 63, 303315.CrossRefGoogle Scholar
Pacioglu, O, Zubrod, JP, Sculz, R, Jones, JI and Parvulescu, L (2019) Two is better than one: combining gut content and stable isotope analyses to infer trophic interactions between native and invasive species. Hydrobiologia 839, 111.CrossRefGoogle Scholar
Pauly, D, Christensen, V, Guenette, S, Pitcher, TJ, Sumaila, RU, Walters, CJ, Watson, R and Zeller, D (2002) Towards sustainability in world fisheries. Nature 418, 689695.CrossRefGoogle ScholarPubMed
Pillay, TVR (1952) A critique of the methods of study of food of fishes. Journal of the Zoological Society of India 4, 185200.Google Scholar
Pinkas, L, Oliphant, MS and Iverson, ILK (1971) Food Habits of Albacore, Bluefin Tuna and Bonito in California Waters. Sacramento, CA: California Department of Fish and Game. Fishery Bulletin 152, 1139.Google Scholar
Premalatha, P and Manojkumar, PP (1990) Some biological aspects of two species of barracudas from the Southwest coast of India. Indian Journal of Fisheries 37, 289295.Google Scholar
Psomadakis, PN, Osmany, HB and Moazzam, M (2015) Field Identification Guide to the Living Marine Resources of Pakistan. FAO Species Identification Guide for Fishery Purposes. Rome: FAO.Google Scholar
Ragheb, E (2003) Comparative studies on fishery biology of Sphyraenia species (Barracuda) in the Egyptian Mediterranean water off Alex. PhD thesis, Faculty of Science, Zagazig University.Google Scholar
Rajesh, KM, Rohit, P, Abdussamad, EM and Viswambharam, D (2020) Reproductive biology of the sawtooth barracuda, Sphyraena putnamae (Jordan and Seale, 1905) along the coastal waters of Karnataka, southeastern Arabian Sea. Regional Studies in Marine Science 36, 17.CrossRefGoogle Scholar
Randall, JE (1967) Food habits of reef fishes of the West Indies. Studies in Tropical Oceanography 5, 665847.Google Scholar
Roul, SK, Pradhan, RK, Manas, HM, Ghosh, S, Ganga, U, Abdussamad, EM, Mini, KG and Rohit, P (2020) Large pelagics fisheries along Odisha coast – an overview. Marine Fisheries Information Service, Technical and Extension Series 245, 1824.Google Scholar
Sathianandan, TV, Jayasankar, J, Mini, KG, Kuriakose, S, Bharti, V, Manu, VK, Paul, S and Augustine, SK (2017) Training Manual Species Identification. Central Marine Fisheries Research Institute, pp. 1218.Google Scholar
Schmidt, TW (1989) Food habits, length weight relationship and condition factors of young great barracuda, Sphyraena barracuda (Walbaum), from Florida Bay, Everglades National Park, Florida. Bulletin of Marine Science 44, 163170.Google Scholar
Sinha, RK (1987) Morphology and anatomy of olfactory organ of marine fish, Sphyraena jello. Folia Morphologica 35, 202205.Google Scholar
Sivadas, M, Zacharia, PU, Sarada, PT, Narayanakumar, R, Kizhakudan, SJ, Margaret, MR, Surya, S, Remya, L, Rajkumar, M, Chhandaprajnadarsini, EM, Manojkumar, PP, Jagadis, I, Kavitha, M, Saleela, KN, George, G, Laxmilatha, P and Gopalakrishnan, A (2019) Marine Fisheries Policy Series No. 11; Management Plans for the Marine Fisheries of Tamil Nadu. Marine Fisheries Policy Series 11, 1104.Google Scholar
Sivadas, M, Margaret, MR, Vinothkumar, R, Mini, KG and Abdussamad, EM (2020) Status and prospects of large pelagics fishery in Tamil Nadu and Puducherry. Marine Fisheries Information Service, Technical and Extension Series 245, 712.Google Scholar
Smith, MM and Heemstra, PC (1986) Smiths’ Sea Fishes. Berlin: Springer Verlag, 1047 pp.CrossRefGoogle Scholar
Varghese, SP, Somvanshi, VS and Dalvi, RS (2014) Diet composition, feeding niche partitioning and trophic organisation of large pelagic predatory fishes in the eastern Arabian Sea. Hydrobiologia 736, 99114.CrossRefGoogle Scholar
Whitehead, PJP, Bauchot, ML, Hureau, JC, Nielson, J and Tortonese, E (1986) Fishes of the North-Eastern Atlantic and Mediterranean. Paris: UNESCO, 1473 pp.Google Scholar
Williams, RJ and Martinez, ND (2004) Limits to trophic levels and omnivory in complex food webs: theory and data. American Naturalist 163, 458468.CrossRefGoogle ScholarPubMed