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Biological Aspects of Swordfish, Xiphias gladius Linnaeus, 1758, Caught During Tuna Longline Survey in the Indian Seas

Yıl 2013, Cilt: 13 Sayı: 3, - , 01.06.2013

Öz

Distribution, abundance and biology of swordfish, Xiphias gladius, of the Indian seas were investigated by analyzing the data gathered during tuna longline surveys conducted by the Fishery Survey of India (FSI). Study undertaken during the period from 2004 to 2010 revealed swordfish Catch Per Unit Effort of 0.02 numbers in 100 hooks from the Arabian Sea; 0.01 from Bay of Bengal and 0.02 form the Andaman and Nicobar waters. About 16% of the specimens caught were juveniles and the sex ratio of smaller fishes was in favour of males, whereas, larger specimens were mostly females. Length-weight relationship established indicated slightly positive allometric growth of the species and length based models revealed difference in growth between sexes. The growth parameters estimated for females were: asymptotic length (L∞) = 311.11 cm, growth coefficient (K) = 0.17/yr and age at zero length (t0) = -0.53 yr, whereas, the growth parameters estimated for males were: L∞ = 243.79 cm, K = 0.22/yr and t0 = -0.37 yr. Diet was dominated by finfishes and cephalopods, while crustaceans were recorded rarely. Sthenoteuthis oualaniensis was the dominant prey species, followed by Paralepis sp. Spawning area was identified in the Lakshadweep waters from where mature females with hydrated oocytes were caught during December to April. Size at 50% maturity for females was estimated at 164.03 cm, which is reached at about four years of age. Mean batch fecundity was 4.5 million, while the relative fecundity was 37.5 hydrated oocytes per gram of body weight and the diameters of mature oocytes were in the range of 0.9-1.6 mm. Our results provide preliminary information on the abundance, growth and biology of this species in the Indian seas which should be useful to fishery managers.

Kaynakça

  • 310 0.124 -169 Pooled Japan Yabe et al., 1959 282 0.293 0.1085 F Chile Montiel., 1996 250 0.322 -0.7545 M Chile Montiel., 1996 321 0.14 -3 Pooled Central Pacific Uchiyama et al., 1998 300.66 0.04 -0.75 F Taiwan Sun et al., 2002 205 0.086 -0.626 M Taiwan Sun et al., 2002 296 0.08 -7 F Australia Young & Drake, 2004 22 0.13 -3 M Australia Young & Drake, 2004 47 0.053 -46 F New Zealand Griggs et al., 2005 34 0.044 86 M New Zealand Griggs et al., 2005 221 0.07 −0.15 M Hawaii DeMartini, 2007 22 0.524 −41 F Hawaii DeMartini, 2007 2002 0.169 -181 M Indian Ocean Wang et al., 2010 2855 0.138 -998 F Indian Ocean Wang et al., 2010 311 0.17 -0.53 F Indian seas Present study 279 0.22 -0.37 M Indian seas Present study waters would forage at the surface by night but be inactive at depth by day. Diet breadth index
  • (Shannon-Weiner index, H’) indicated moderately wide spectrum of prey species of X. gladius in the Arabian Sea. High value (4.34) for trophic level calculated in our study established the status of X. gladius as an apex predator. In the Reunion waters, swordfish with the greatest gonadal index are caught durung October to March (Poisson and Taquet, 2000). Yabe et al. (1959) reported the catch of females with ripe ovaries from equatorial Indian Ocean in April. Our results show that, mature females having ripe ovaries with hydrated oocytes are appearing in the catch in
  • Lakshadweep waters during December to April. Jones (1958) and Jones and Kumaran (1964) reported collection of swordfish larvae from Laccadive
  • (Lakshadweep) waters during the months February and April. This indicates that the swordfishes spawn in the Lakshadweep waters during December – April. Spawning in the North Atlantic occurs throughout the year with a peak from April to September in the Caribbean, the Gulf of Mexico and off Florida (Taylor and Murphy, 1992). In the central north Pacific spawning occurs in spring and summer (March through to July), during June to September in the Mediterranean (De Metrio and Megalofonou, 1987;
  • Orsi Relini et al., 1999; Tserpes et al., 2008 Alıçlı et al., 2012), in spring (September to December) in the western south Pacific and all year round in equatorial
  • Pacific waters (Nakamura, 1985). Earlier reports suggest that swordfish spawn in warm, relatively close to coastal waters in the western parts of ocean basins (Taylor and Murphy, 1992; Arocha and Lee, 1995). Based on histological examination of ovaries, gonadal index and maximum oocyte size, Poisson and Fauvel (2009 a ) identified swordfish spawning site off
  • Reunion Island, which is reported to be the only spawning site for swordfish in the Indian Ocean (Poisson and Fauvel, 2009 a ). Spawning site identified in Lakshadweep waters in our study will be an addition to this already reported swordfish spawning site of Indian Ocean. Size at first maturity of female swordfish estimated in this study was 164.03 cm (LJFL). Our study reveals that the females of swordfish in the Indian seas become sexually mature at about 4 th year of their life. De la Serna et al. (1996) estimated that 50% of female swordfish in the Mediterranean Sea mature at 142 cm. The size at first maturity of female swordfish in southwestern Indian Ocean was 170.4 cm (Poisson and Fauvel 2009 a ). Wang et al. (2003) estimated the size at first maturity of female swordfish from Taiwanese waters as 168.2 cm. Taylor and Murphy (1992) estimated size at first maturity of 182 cm for female swordfish of the Straits of Florida.
  • Our estimation was comparable to the length at first maturity (144 cm, Eye Fork Length ~162.23 cm, LJFL) calculated by DeMartini et al. (2000) for female swordfish caught by the Hawaii-based pelagic longline fishery.
  • Average batch fecundity and relative fecundity of females hooked from the Lakshadweep waters was comparable with those reported from Reunion (Poisson and Fauvel, 2009 b
  • ). Estimates of the number of eggs produced in earlier studies ranged from more than 1 million eggs for a 68 kg swordfish (Palko et al., 1981) to 29 million for a 272 kg swordfish (Wilson, 1984). In our study, a strong correlation between fecundity and LJFL of females were established. Poisson and Fauvel (2009 b ) also made similar observation. Diameters of mature oocytes observed in our study were in the range of 0.9-1.6 mm. Poisson and Fauvel (2009 a
  • ) reported that the hydrated oocyte diameters of swordfish sampled from Reunion Island was in the range of 1200 and 1550 μm.
  • Recent survey by the FSI vessels reveal availability of swordfish in Indian high seas and adjoining areas, especially western Bay of Bengal and adjoining Indian Ocean areas in the east coast and Lakshadweep waters in the west coast of India indicating scope for developing swordfish fishery in these areas. However, the development and expansion of swordfish fishery must be done with caution, since several swordfish fisheries in other parts of the world has shown initial, rapid expansion, and then declined and even collapse in many areas, prompting concern over the species’ ability to support intensive harvesting (Ward and Elscot, 2000). The Scientific Committee of the Indian Ocean Tuna Commission (IOTC), during its annual Meeting in 2011 reviewed the stock status of X. gladius in the Indian Ocean and concluded that the present level of swordfish exploitation from the Indian Ocean is below Maximum Sustainable Yield (MSY) of 30,000 t. However, the assessments made by IOTC Working Party on Billfish indicated that the catch rate data from the Indian Ocean suggest overfishing of swordfish in localised areas, especially in the southwest Indian Ocean (IOTC–SC14, 2011). Genetic studies revealed that X. gladius stock of Bay of Bengal is genetically different from the stock of south-west Indian Ocean (Lu et al., 2006). Bycacth in the targeted swordfish fishery especially that of sea turtles is another area of concern, which is to be addressed at the earliest. Further, the swordfish caught in longline in the Indian waters are prone to heavy depredation, mainly by the pelagic sharks (Varghese et al., 2008).
  • In conclusion, our study revealed abundance of swordfish in Indian high seas. Further, this study provides some information on the growth and biology of X. gladius in the Indian seas essential for the management of these valuable resources. Our results may help fishermen in deriving fishing strategies for selection of fishing ground and appropriate baits. Intensive survey, targeting swordfish are to be conducted for gathering further information regarding the distribution, abundance and biology of this species. Acknowledgements We thank the Scientist Participants, Officers and crew of the longline research vessels of FSI for assisting in data collection. Useful discussions with Dr. V. S. Somvanshi and Dr. N. G. K. Pillai are gratefully acknowledged. We thank Deepak K. Gulati and Salomy Antony for statistical advice. We are also thankful to the anonymous referees for their valuable comments and suggestions to help us improve this manuscript. References Alıçlı, T. Z., Oray, I. K., Karakulak, F. S. and Kahraman, A. E. 2012. Age, sex ratio, length-weight relationships and reproductive biology of Mediterranean swordfish, Xiphias gladius L., 1758, in the eastern Mediterranean. African Journal of Biotechnology, 11(15): 3673-3680. doi: 10.5897/AJB11.2189.
  • Arocha, F. and Lee, D. W. 1995. The spawning of the swordfish from the Northwest Atlantic. Collective volume of scientific papers. International Commission for the Conservation of Atlantic Tunas, 44: 179–186.
  • Barbieri, M. A., Canales, C., Correa, V., Donoso, M., González, A., Leiva, B., Montiel, A. and Yáñez, E. 19 Development and present state of the swordfish, Xiphias gladius, fishery in Chile. NOAA Technical Report NMFS, 142: 1-10. Bellido, J. M., Pierce, G. J., Romero, J. L. and Millan, M. 2000. Use of frequency analysis methods to estimate growth of anchovy (Engraulis encrasicolus L. 1758) in the Gulf of Cadiz (SW Spain). Fisheries Research, 48: 107-115. doi: 10.1016/S0165-7836(00)00183-1
  • Carey, F. G. and Robinson, B. H. 1981. Daily patterns in the activities of swordfish, Xiphias gladius, observed by acoustic telemetry. Fishery Bulletin, 79 (2): 277-292.
  • Clarke, M. R., Clarke, D. C., Martins, H. R. and Silva, H. M. 1995. The diet of swordfish (Xiphias gladius) in Azorean waters. Arquipélago – Life and Marine Science, 13: 53-56.
  • De la Serna, J. M., Ortiz de Urbina, J. M. and Macias, D. 19 Observations on sex-ratio, maturity and fecundity by length-class for swordfish (Xiphias gladius) captured with surface longline in the Western Mediterranean. International Commission for the Conservation of Atlantic Tunas, Collective Volume of Scientific Papers, 45 (1): 115-139. DeMartini, E. E., Uchiyama, J. H. and Williams, H. A. 2000. Sexual maturity, sex ratio, and size composition of swordfish, Xiphias gladius, caught by the Hawaiibased pelagic longline fishery. Fishery Bulletin, 98: 489-50
  • DeMartini, E. E., Uchiyama, J. H., Humphreys, Jr, R. L., Sampaga, J. D. and Williams, H. A. 2007. Age and growth of swordfish (Xiphias gladius) caught by the Hawaii-based pelagic longline fishery. Fishery Bulletin, 105: 356–367.
  • DeMetrio, G. and Megalofonou, P. 1987. Catch, size distribution, growth and sex ratio of swordfish, Xiphias gladius (L., 1758) in the Gulf of Taranto. FAO fisheries report, 394: 91–102.
  • Ehrhardt, N. M. 1992. Age and growth of swordfish, Xiphias gladius, in the northwestern Atlantic. Bulletin of Marine Science, 50: 292-301.
  • Folsom, W. B., Weidner, D. M. and Wildman, M. R. 1997. World swordfish fisheries: an analysis of swordfish fisheries, market trends and trade patterns, pastpresent-future. Volume I. Executive Summary, United States Department of Commerce, USA, 68 pp.
  • Froese, R. and Pauly, D. 2011. FishBase. World Wide Web electronic publication. www.fishbase.org.
  • Griggs, L., Francis, M. and O Maolagain, C. 2005. Growth rate, age at maturity, longevity, and natural mortality rate of swordfish (Xiphias gladius). New Zealand Fisheries Assessment Report 2002/56, Ministry of Fisheries, Wellington. 1-29.
  • Hinton, M. G., Taylor, R. G. and Murphy, M. D. 1997. Use of gonad indices to estimate the status of reproductive activity of female swordfish, Xiphias gladius: A validated classification method. Fishery Bulletin, 95: 80IOTC–SC14. 2011. Report of the Fourteenth Session of the IOTC Scientific Committee. Mahé, Seychelles, 12–17 December 2011. IOTC–2011–SC14–R[E]: 148-157.
  • IOTC–WPB10. 2012. Report of the Tenth Session of the IOTC Working Party on Billfish. Cape Town, South Africa, 11–15 September 2012. IOTC–2012–WPB10– R[E]: 1-53.
  • Jones, S. 1958. Notes on eggs, larvae and juveniles of fishes from Indian waters 1. Xiphias gladius Linnaeus. Indian Journal of Fisheries, 5 (2): 357-361.
  • Jones, S. and Kumaran, M. 1964. Eggs, larvae and juveniles of Indian Scombroid fishes. In: Proceedings of the Symposium on Scombroid Fishes Part I, Marine Biological Association of India, Mandapam: 343-378. King, M. 1995. Fisheries biology, assessment and management. Fishing News, Books/Blackwell Scientific Books, Oxford: 352 pp.
  • Krebs, C. J. 1999. Ecological methodology, AddisonEducationall Publishers, California: 581 pp.
  • Kume, S. and Joseph, J. 1969. Size composition and sexual maturity of billfishes caught by the Japanese longline fishery in the eastern Pacific Ocean east of 130°W. Bulletin of the National Research Institute of Far Seas Fisheries, 2: 115-162.
  • Le Cren, E. D. 1951. The length-weight relationship and seasonal cycle in gonad weight and condition in Perch (Perca fluviatilis). Journal of Animal Ecology, 20: 201-2
  • Lowerre-Barbieri S. K. and Barbieri, L. R. 1993. A new method of oocyte separation and preservation for fish reproduction studies. Fishery Bulletin, 91: 165-170.
  • Lu, C., Chen, C. A., Hui, C., Tzeng, T. and Yeh, S. 2006. Population genetic structure of the swordfish, Xiphias gladius (Linnaeus, 1758), in the Indian Ocean and West Pacific inferred from the complete DNA sequence of the Mitochondrial control region. Zoological Studies, 45 (2): 269-279.
  • Marsac, F. and Potier, M. 2001. On-going research activities on trophic ecology of swordfish (Xiphias gladius) in the western Indian Ocean. IOTC Proceedings no. 4. Indian Ocean Tuna Commission, Seychelles. 155-163.
  • Megalofonou, P., Dean, J. M., De Mitrio, G., Wilson, C. and Berkelev, S. 1995. Age and growth of juvenile swordfish, Xiphias gladius Linneaus, from the Mediterranean Sea. Journal of Experimental Marine
  • Biology and Ecology, 188: 79-88. Montiel, A. 1996. Determinación de la edad y del crecimiento de pez espada (Xiphias gladius) explotado en la zona central de Chile. Tesis de Ingeniería Pesquera, Escuela de Ciencias del Mar, UCV, Valparaíso, 73 pp.
  • Nakamura, I. 1985. FAO species catalogue Volume 5 Billfishes of the world: An annotated and illustrated catalogue of marlins, sailfishes, spearfishes and swordfishes known to date. Food and Agriculture Organization of the United Nations, Rome, 65 pp.
  • Orsi Relini, L., Palandiri, G., Garibaldi, F., Cima, C., Relini, M. and Torchia, G. 1999. Biological parameters of the Mediterranean swordfish derived from observations in the Ligurian Sea. Collective Volume of Scientific Papers. International Commission for the Conservation of Atlantic Tunas, 49(1): 397-406.
  • Ovchinnikov, V. V. 1971. Swordfish and billfishes in the Atlantic Ocean: Ecology and functional morphology. Israel Program of Scientific Translations. NOAA NMFS 73-71-50011: 77 pp.
  • Palko, B. J., Beardsley, G. L. and Richards, W. J. 1981. Synopsis of the biology of the swordfish, Xiphias gladius Linnaeus. FAO Fisheries Synopsis, 127: 1-21.
  • Pauly, D. 1979. Theory and management of tropical multispecies stocks: a review with emphasis on the Southeast Asian demersal fisheries. ICLARM Studies and Reviews 1, 1979. 35 p.
  • Pauly, D. and Munro, J. L. 1984. Once more on the comparison of growth in fish and invertebrates. ICLARM Fishbyte 2(1): 21.
  • Pauly, D. and Palomares, M. L. 2005. Fishing down marine food webs: it is far more pervasive than we thought. Bulletin of Marine Science 76(2): 197-211.
  • Pinkas, L., Olipham, M. S. and Iverson, I. L. K. 1971. Food habits of albacore, bluefin tuna and bonito in Californian waters. California Department of Fish and Game Fishery Bulletin, 152: 1-105.
  • Poisson, F. and Fauvel, C., 2009 a . Reproductive dynamics of swordfish (Xiphias gladius) in the southwestern Indian Ocean (Reunion Island). Part 1: oocyte development, sexual maturity and spawning. Aquatic Living Resources, 22: 45– doi: 1051/alr/2009007.
  • Poisson, F. and Fauvel, C. 2009 b . Reproductive dynamics of swordfish (Xiphias gladius) in the southwestern Indian Ocean (Reunion Island). Part 2: fecundity and spawning pattern. Aquatic Living Resources, 22: 59 doi: 10.1051/alr/2009012.
  • Poisson, F. and Taquet, M. 2000: Country report Reunion Swordfish Fishery (France). In: Report of the second session of the IOTC working party on billfish. Indian Ocean Tuna Commission, Seychelles: 144-154.
  • Qasim, S. Z. 1973. An appraisal of the studies on maturation and spawning in marine teleosts from the Indian waters. Indian Journal of Fisheries, 20(1): 1661
  • Sagakawa, G. T. and Bell, R. R. 1980. Swordfish, Xiphias gladius. In: R. S. Shomura (Ed.), Summary Report of the Billfish stock assessment: Pacific Resources, National Marine Fisheries Service, Honolulu: 40-50.
  • Stillwell, C. E. and Kohler, N. E. 1985. Food and feeding ecology of the swordfish Xiphias gladius in the western North Atlantic Ocean with estimates of daily ration. Marine Ecology Progress Series, 22: 239-247. Sun C. L., Wang, S. P. and Yeh, S. Z. 2002. Age and growth of the swordfish (Xiphias gladius L.) in the waters around Taiwan determined from anal-fin rays. Fishery Bulletin, 100: 822-835.
  • Taylor, R. G. and Murphy, M. D. 1992. Reproductive biology of the swordfish Xiphias gladius in the Straits of Florida and adjacent waters, Fishery Bulletin, 90: 809-8
  • Tibbo, S.N., Day, L.R. and Doucet, W.F. 1961. The swordfish (Xiphias gladius L.), its life history and economic importance in the northwest Atlantic. Journal of the Fisheries Research Board of Canada, 130: 1-47.
  • Toll, R. B. and Hess, S. C. 1981. Cephalopods in the diet of the swordfish, Xiphias gladius from the Florida Straits. Fishery Bulletin, 79 (4): 765-774.
  • Tserpes, G., Peristeraki, P. and Valavanis, V. D. 2008. Distribution of swordfish in the eastern Mediterranean, in relation to environmental factors and the species biology. Hydrobiologia, 612: 241– 2 doi: 10.1007/s10750-008-9499-5.
  • Tsimenides, N. and Tserpes, G. 1989. Age determination and growth of swordfish, Xiphias gladius L., 1758 in the Aegean Sea. Fisheries Research, 8:159-168. doi: 1016/0165-7836(89)90029-5.
  • Uchiyama, J. H., Skillman, R. A., Sampaga, J. D. and DeMartini, E. E. 1998. A preliminary assessment of the use of hard parts to age central Pacific swordfish, Xiphias gladius. In: I. Barrett, O. Sosa-Nishizaki, and N. Bartoo, (Eds.), Biology and fisheries of swordfish, Xiphias gladius. NOAA Technical Report NMFS, 142: 261–273.
  • Varghese, S., Somvanshi, V. S. and Varghese, S. P. 2008. Depredation in the longline fishery of the Indian waters. Bulletin of Fishery Survey of India, 29: 27p.
  • Vijayakumaran, K. and Varghese, S. P. 2011. India’s National Report to the Scientific Committee of the Indian Ocean Tuna Commission, 2011. IOTC-2011SC14-NR-09.
  • Wang, S. P., Lin, C. H., Chiang, W. C. 2010. Age and growth analysis of swordfish (Xiphias gladius) in the Indian Ocean based on the specimens collected by Taiwanese observer program. IOTC-2010-WPB-08.
  • Wang, S., Sun, C. and Yeh, S. 2003. Sex Ratios and Sexual Maturity of Swordfish (Xiphias gladius L.) in the Waters of Taiwan. Zoological Studies, 42(4): 5295
  • Ward, P. and Elscot, S. 2000. Broadbill swordfish: Status of world fisheries. Bureau of Rural Sciences, Australia, 1-20
  • Weber, E. C. and Goldberg, S. R. 1986. The sex ratio and gonad indices of swordfish, Xiphias gladius, caught off the coast of southern California in 1978. Fishery Bulletin, 84: 185-186.
  • Wilson, C. A. 1984. Age and growth aspects of the life history of billfishes. Ph.D. dissertation, University of South Carolina.
  • Yabe, H., Ueyanagi, S., Kikawa, S. and Watanabe, S. 1959. Study on the life-history of the swordfish, Xiphias gladius Linnaeus. Report of Nankai Regional Fisheries Research Laboratory, 10: 107-150.
  • Young, J. and Drake, A. 2004. Age and growth of broadbill swordfish (Xiphius gladius) from Australian waters. Final report for project 2001/014, Fisheries Research Development Corporation, Canberra, Australia. 24p.

Biological Aspects of Swordfish, Xiphias gladius Linnaeus, 1758, Caught During Tuna Longline Survey in the Indian Seas

Yıl 2013, Cilt: 13 Sayı: 3, - , 01.06.2013

Öz

Distribution, abundance and biology of swordfish, Xiphias gladius, of the Indian seas were investigated by analyzing the data gathered during tuna longline surveys conducted by the Fishery Survey of India (FSI). Study undertaken during the period from 2004 to 2010 revealed swordfish Catch Per Unit Effort of 0.02 numbers in 100 hooks from the Arabian Sea; 0.01 from Bay of Bengal and 0.02 form the Andaman and Nicobar waters. About 16% of the specimens caught were juveniles and the sex ratio of smaller fishes was in favour of males, whereas, larger specimens were mostly females. Length-weight relationship established indicated slightly positive allometric growth of the species and length based models revealed difference in growth between sexes. The growth parameters estimated for females were: asymptotic length (L∞) = 311.11 cm, growth coefficient (K) = 0.17/yr and age at zero length (t0) = -0.53 yr, whereas, the growth parameters estimated for males were: L∞ = 243.79 cm, K = 0.22/yr and t0 = -0.37 yr. Diet was dominated by finfishes and cephalopods, while crustaceans were recorded rarely. Sthenoteuthis oualaniensis was the dominant prey species, followed by Paralepis sp. Spawning area was identified in the Lakshadweep waters from where mature females with hydrated oocytes were caught during December to April. Size at 50% maturity for females was estimated at 164.03 cm, which is reached at about four years of age. Mean batch fecundity was 4.5 million, while the relative fecundity was 37.5 hydrated oocytes per gram of body weight and the diameters of mature oocytes were in the range of 0.9-1.6 mm. Our results provide preliminary information on the abundance, growth and biology of this species in the Indian seas which should be useful to fishery managers.

Kaynakça

  • 310 0.124 -169 Pooled Japan Yabe et al., 1959 282 0.293 0.1085 F Chile Montiel., 1996 250 0.322 -0.7545 M Chile Montiel., 1996 321 0.14 -3 Pooled Central Pacific Uchiyama et al., 1998 300.66 0.04 -0.75 F Taiwan Sun et al., 2002 205 0.086 -0.626 M Taiwan Sun et al., 2002 296 0.08 -7 F Australia Young & Drake, 2004 22 0.13 -3 M Australia Young & Drake, 2004 47 0.053 -46 F New Zealand Griggs et al., 2005 34 0.044 86 M New Zealand Griggs et al., 2005 221 0.07 −0.15 M Hawaii DeMartini, 2007 22 0.524 −41 F Hawaii DeMartini, 2007 2002 0.169 -181 M Indian Ocean Wang et al., 2010 2855 0.138 -998 F Indian Ocean Wang et al., 2010 311 0.17 -0.53 F Indian seas Present study 279 0.22 -0.37 M Indian seas Present study waters would forage at the surface by night but be inactive at depth by day. Diet breadth index
  • (Shannon-Weiner index, H’) indicated moderately wide spectrum of prey species of X. gladius in the Arabian Sea. High value (4.34) for trophic level calculated in our study established the status of X. gladius as an apex predator. In the Reunion waters, swordfish with the greatest gonadal index are caught durung October to March (Poisson and Taquet, 2000). Yabe et al. (1959) reported the catch of females with ripe ovaries from equatorial Indian Ocean in April. Our results show that, mature females having ripe ovaries with hydrated oocytes are appearing in the catch in
  • Lakshadweep waters during December to April. Jones (1958) and Jones and Kumaran (1964) reported collection of swordfish larvae from Laccadive
  • (Lakshadweep) waters during the months February and April. This indicates that the swordfishes spawn in the Lakshadweep waters during December – April. Spawning in the North Atlantic occurs throughout the year with a peak from April to September in the Caribbean, the Gulf of Mexico and off Florida (Taylor and Murphy, 1992). In the central north Pacific spawning occurs in spring and summer (March through to July), during June to September in the Mediterranean (De Metrio and Megalofonou, 1987;
  • Orsi Relini et al., 1999; Tserpes et al., 2008 Alıçlı et al., 2012), in spring (September to December) in the western south Pacific and all year round in equatorial
  • Pacific waters (Nakamura, 1985). Earlier reports suggest that swordfish spawn in warm, relatively close to coastal waters in the western parts of ocean basins (Taylor and Murphy, 1992; Arocha and Lee, 1995). Based on histological examination of ovaries, gonadal index and maximum oocyte size, Poisson and Fauvel (2009 a ) identified swordfish spawning site off
  • Reunion Island, which is reported to be the only spawning site for swordfish in the Indian Ocean (Poisson and Fauvel, 2009 a ). Spawning site identified in Lakshadweep waters in our study will be an addition to this already reported swordfish spawning site of Indian Ocean. Size at first maturity of female swordfish estimated in this study was 164.03 cm (LJFL). Our study reveals that the females of swordfish in the Indian seas become sexually mature at about 4 th year of their life. De la Serna et al. (1996) estimated that 50% of female swordfish in the Mediterranean Sea mature at 142 cm. The size at first maturity of female swordfish in southwestern Indian Ocean was 170.4 cm (Poisson and Fauvel 2009 a ). Wang et al. (2003) estimated the size at first maturity of female swordfish from Taiwanese waters as 168.2 cm. Taylor and Murphy (1992) estimated size at first maturity of 182 cm for female swordfish of the Straits of Florida.
  • Our estimation was comparable to the length at first maturity (144 cm, Eye Fork Length ~162.23 cm, LJFL) calculated by DeMartini et al. (2000) for female swordfish caught by the Hawaii-based pelagic longline fishery.
  • Average batch fecundity and relative fecundity of females hooked from the Lakshadweep waters was comparable with those reported from Reunion (Poisson and Fauvel, 2009 b
  • ). Estimates of the number of eggs produced in earlier studies ranged from more than 1 million eggs for a 68 kg swordfish (Palko et al., 1981) to 29 million for a 272 kg swordfish (Wilson, 1984). In our study, a strong correlation between fecundity and LJFL of females were established. Poisson and Fauvel (2009 b ) also made similar observation. Diameters of mature oocytes observed in our study were in the range of 0.9-1.6 mm. Poisson and Fauvel (2009 a
  • ) reported that the hydrated oocyte diameters of swordfish sampled from Reunion Island was in the range of 1200 and 1550 μm.
  • Recent survey by the FSI vessels reveal availability of swordfish in Indian high seas and adjoining areas, especially western Bay of Bengal and adjoining Indian Ocean areas in the east coast and Lakshadweep waters in the west coast of India indicating scope for developing swordfish fishery in these areas. However, the development and expansion of swordfish fishery must be done with caution, since several swordfish fisheries in other parts of the world has shown initial, rapid expansion, and then declined and even collapse in many areas, prompting concern over the species’ ability to support intensive harvesting (Ward and Elscot, 2000). The Scientific Committee of the Indian Ocean Tuna Commission (IOTC), during its annual Meeting in 2011 reviewed the stock status of X. gladius in the Indian Ocean and concluded that the present level of swordfish exploitation from the Indian Ocean is below Maximum Sustainable Yield (MSY) of 30,000 t. However, the assessments made by IOTC Working Party on Billfish indicated that the catch rate data from the Indian Ocean suggest overfishing of swordfish in localised areas, especially in the southwest Indian Ocean (IOTC–SC14, 2011). Genetic studies revealed that X. gladius stock of Bay of Bengal is genetically different from the stock of south-west Indian Ocean (Lu et al., 2006). Bycacth in the targeted swordfish fishery especially that of sea turtles is another area of concern, which is to be addressed at the earliest. Further, the swordfish caught in longline in the Indian waters are prone to heavy depredation, mainly by the pelagic sharks (Varghese et al., 2008).
  • In conclusion, our study revealed abundance of swordfish in Indian high seas. Further, this study provides some information on the growth and biology of X. gladius in the Indian seas essential for the management of these valuable resources. Our results may help fishermen in deriving fishing strategies for selection of fishing ground and appropriate baits. Intensive survey, targeting swordfish are to be conducted for gathering further information regarding the distribution, abundance and biology of this species. Acknowledgements We thank the Scientist Participants, Officers and crew of the longline research vessels of FSI for assisting in data collection. Useful discussions with Dr. V. S. Somvanshi and Dr. N. G. K. Pillai are gratefully acknowledged. We thank Deepak K. Gulati and Salomy Antony for statistical advice. We are also thankful to the anonymous referees for their valuable comments and suggestions to help us improve this manuscript. References Alıçlı, T. Z., Oray, I. K., Karakulak, F. S. and Kahraman, A. E. 2012. Age, sex ratio, length-weight relationships and reproductive biology of Mediterranean swordfish, Xiphias gladius L., 1758, in the eastern Mediterranean. African Journal of Biotechnology, 11(15): 3673-3680. doi: 10.5897/AJB11.2189.
  • Arocha, F. and Lee, D. W. 1995. The spawning of the swordfish from the Northwest Atlantic. Collective volume of scientific papers. International Commission for the Conservation of Atlantic Tunas, 44: 179–186.
  • Barbieri, M. A., Canales, C., Correa, V., Donoso, M., González, A., Leiva, B., Montiel, A. and Yáñez, E. 19 Development and present state of the swordfish, Xiphias gladius, fishery in Chile. NOAA Technical Report NMFS, 142: 1-10. Bellido, J. M., Pierce, G. J., Romero, J. L. and Millan, M. 2000. Use of frequency analysis methods to estimate growth of anchovy (Engraulis encrasicolus L. 1758) in the Gulf of Cadiz (SW Spain). Fisheries Research, 48: 107-115. doi: 10.1016/S0165-7836(00)00183-1
  • Carey, F. G. and Robinson, B. H. 1981. Daily patterns in the activities of swordfish, Xiphias gladius, observed by acoustic telemetry. Fishery Bulletin, 79 (2): 277-292.
  • Clarke, M. R., Clarke, D. C., Martins, H. R. and Silva, H. M. 1995. The diet of swordfish (Xiphias gladius) in Azorean waters. Arquipélago – Life and Marine Science, 13: 53-56.
  • De la Serna, J. M., Ortiz de Urbina, J. M. and Macias, D. 19 Observations on sex-ratio, maturity and fecundity by length-class for swordfish (Xiphias gladius) captured with surface longline in the Western Mediterranean. International Commission for the Conservation of Atlantic Tunas, Collective Volume of Scientific Papers, 45 (1): 115-139. DeMartini, E. E., Uchiyama, J. H. and Williams, H. A. 2000. Sexual maturity, sex ratio, and size composition of swordfish, Xiphias gladius, caught by the Hawaiibased pelagic longline fishery. Fishery Bulletin, 98: 489-50
  • DeMartini, E. E., Uchiyama, J. H., Humphreys, Jr, R. L., Sampaga, J. D. and Williams, H. A. 2007. Age and growth of swordfish (Xiphias gladius) caught by the Hawaii-based pelagic longline fishery. Fishery Bulletin, 105: 356–367.
  • DeMetrio, G. and Megalofonou, P. 1987. Catch, size distribution, growth and sex ratio of swordfish, Xiphias gladius (L., 1758) in the Gulf of Taranto. FAO fisheries report, 394: 91–102.
  • Ehrhardt, N. M. 1992. Age and growth of swordfish, Xiphias gladius, in the northwestern Atlantic. Bulletin of Marine Science, 50: 292-301.
  • Folsom, W. B., Weidner, D. M. and Wildman, M. R. 1997. World swordfish fisheries: an analysis of swordfish fisheries, market trends and trade patterns, pastpresent-future. Volume I. Executive Summary, United States Department of Commerce, USA, 68 pp.
  • Froese, R. and Pauly, D. 2011. FishBase. World Wide Web electronic publication. www.fishbase.org.
  • Griggs, L., Francis, M. and O Maolagain, C. 2005. Growth rate, age at maturity, longevity, and natural mortality rate of swordfish (Xiphias gladius). New Zealand Fisheries Assessment Report 2002/56, Ministry of Fisheries, Wellington. 1-29.
  • Hinton, M. G., Taylor, R. G. and Murphy, M. D. 1997. Use of gonad indices to estimate the status of reproductive activity of female swordfish, Xiphias gladius: A validated classification method. Fishery Bulletin, 95: 80IOTC–SC14. 2011. Report of the Fourteenth Session of the IOTC Scientific Committee. Mahé, Seychelles, 12–17 December 2011. IOTC–2011–SC14–R[E]: 148-157.
  • IOTC–WPB10. 2012. Report of the Tenth Session of the IOTC Working Party on Billfish. Cape Town, South Africa, 11–15 September 2012. IOTC–2012–WPB10– R[E]: 1-53.
  • Jones, S. 1958. Notes on eggs, larvae and juveniles of fishes from Indian waters 1. Xiphias gladius Linnaeus. Indian Journal of Fisheries, 5 (2): 357-361.
  • Jones, S. and Kumaran, M. 1964. Eggs, larvae and juveniles of Indian Scombroid fishes. In: Proceedings of the Symposium on Scombroid Fishes Part I, Marine Biological Association of India, Mandapam: 343-378. King, M. 1995. Fisheries biology, assessment and management. Fishing News, Books/Blackwell Scientific Books, Oxford: 352 pp.
  • Krebs, C. J. 1999. Ecological methodology, AddisonEducationall Publishers, California: 581 pp.
  • Kume, S. and Joseph, J. 1969. Size composition and sexual maturity of billfishes caught by the Japanese longline fishery in the eastern Pacific Ocean east of 130°W. Bulletin of the National Research Institute of Far Seas Fisheries, 2: 115-162.
  • Le Cren, E. D. 1951. The length-weight relationship and seasonal cycle in gonad weight and condition in Perch (Perca fluviatilis). Journal of Animal Ecology, 20: 201-2
  • Lowerre-Barbieri S. K. and Barbieri, L. R. 1993. A new method of oocyte separation and preservation for fish reproduction studies. Fishery Bulletin, 91: 165-170.
  • Lu, C., Chen, C. A., Hui, C., Tzeng, T. and Yeh, S. 2006. Population genetic structure of the swordfish, Xiphias gladius (Linnaeus, 1758), in the Indian Ocean and West Pacific inferred from the complete DNA sequence of the Mitochondrial control region. Zoological Studies, 45 (2): 269-279.
  • Marsac, F. and Potier, M. 2001. On-going research activities on trophic ecology of swordfish (Xiphias gladius) in the western Indian Ocean. IOTC Proceedings no. 4. Indian Ocean Tuna Commission, Seychelles. 155-163.
  • Megalofonou, P., Dean, J. M., De Mitrio, G., Wilson, C. and Berkelev, S. 1995. Age and growth of juvenile swordfish, Xiphias gladius Linneaus, from the Mediterranean Sea. Journal of Experimental Marine
  • Biology and Ecology, 188: 79-88. Montiel, A. 1996. Determinación de la edad y del crecimiento de pez espada (Xiphias gladius) explotado en la zona central de Chile. Tesis de Ingeniería Pesquera, Escuela de Ciencias del Mar, UCV, Valparaíso, 73 pp.
  • Nakamura, I. 1985. FAO species catalogue Volume 5 Billfishes of the world: An annotated and illustrated catalogue of marlins, sailfishes, spearfishes and swordfishes known to date. Food and Agriculture Organization of the United Nations, Rome, 65 pp.
  • Orsi Relini, L., Palandiri, G., Garibaldi, F., Cima, C., Relini, M. and Torchia, G. 1999. Biological parameters of the Mediterranean swordfish derived from observations in the Ligurian Sea. Collective Volume of Scientific Papers. International Commission for the Conservation of Atlantic Tunas, 49(1): 397-406.
  • Ovchinnikov, V. V. 1971. Swordfish and billfishes in the Atlantic Ocean: Ecology and functional morphology. Israel Program of Scientific Translations. NOAA NMFS 73-71-50011: 77 pp.
  • Palko, B. J., Beardsley, G. L. and Richards, W. J. 1981. Synopsis of the biology of the swordfish, Xiphias gladius Linnaeus. FAO Fisheries Synopsis, 127: 1-21.
  • Pauly, D. 1979. Theory and management of tropical multispecies stocks: a review with emphasis on the Southeast Asian demersal fisheries. ICLARM Studies and Reviews 1, 1979. 35 p.
  • Pauly, D. and Munro, J. L. 1984. Once more on the comparison of growth in fish and invertebrates. ICLARM Fishbyte 2(1): 21.
  • Pauly, D. and Palomares, M. L. 2005. Fishing down marine food webs: it is far more pervasive than we thought. Bulletin of Marine Science 76(2): 197-211.
  • Pinkas, L., Olipham, M. S. and Iverson, I. L. K. 1971. Food habits of albacore, bluefin tuna and bonito in Californian waters. California Department of Fish and Game Fishery Bulletin, 152: 1-105.
  • Poisson, F. and Fauvel, C., 2009 a . Reproductive dynamics of swordfish (Xiphias gladius) in the southwestern Indian Ocean (Reunion Island). Part 1: oocyte development, sexual maturity and spawning. Aquatic Living Resources, 22: 45– doi: 1051/alr/2009007.
  • Poisson, F. and Fauvel, C. 2009 b . Reproductive dynamics of swordfish (Xiphias gladius) in the southwestern Indian Ocean (Reunion Island). Part 2: fecundity and spawning pattern. Aquatic Living Resources, 22: 59 doi: 10.1051/alr/2009012.
  • Poisson, F. and Taquet, M. 2000: Country report Reunion Swordfish Fishery (France). In: Report of the second session of the IOTC working party on billfish. Indian Ocean Tuna Commission, Seychelles: 144-154.
  • Qasim, S. Z. 1973. An appraisal of the studies on maturation and spawning in marine teleosts from the Indian waters. Indian Journal of Fisheries, 20(1): 1661
  • Sagakawa, G. T. and Bell, R. R. 1980. Swordfish, Xiphias gladius. In: R. S. Shomura (Ed.), Summary Report of the Billfish stock assessment: Pacific Resources, National Marine Fisheries Service, Honolulu: 40-50.
  • Stillwell, C. E. and Kohler, N. E. 1985. Food and feeding ecology of the swordfish Xiphias gladius in the western North Atlantic Ocean with estimates of daily ration. Marine Ecology Progress Series, 22: 239-247. Sun C. L., Wang, S. P. and Yeh, S. Z. 2002. Age and growth of the swordfish (Xiphias gladius L.) in the waters around Taiwan determined from anal-fin rays. Fishery Bulletin, 100: 822-835.
  • Taylor, R. G. and Murphy, M. D. 1992. Reproductive biology of the swordfish Xiphias gladius in the Straits of Florida and adjacent waters, Fishery Bulletin, 90: 809-8
  • Tibbo, S.N., Day, L.R. and Doucet, W.F. 1961. The swordfish (Xiphias gladius L.), its life history and economic importance in the northwest Atlantic. Journal of the Fisheries Research Board of Canada, 130: 1-47.
  • Toll, R. B. and Hess, S. C. 1981. Cephalopods in the diet of the swordfish, Xiphias gladius from the Florida Straits. Fishery Bulletin, 79 (4): 765-774.
  • Tserpes, G., Peristeraki, P. and Valavanis, V. D. 2008. Distribution of swordfish in the eastern Mediterranean, in relation to environmental factors and the species biology. Hydrobiologia, 612: 241– 2 doi: 10.1007/s10750-008-9499-5.
  • Tsimenides, N. and Tserpes, G. 1989. Age determination and growth of swordfish, Xiphias gladius L., 1758 in the Aegean Sea. Fisheries Research, 8:159-168. doi: 1016/0165-7836(89)90029-5.
  • Uchiyama, J. H., Skillman, R. A., Sampaga, J. D. and DeMartini, E. E. 1998. A preliminary assessment of the use of hard parts to age central Pacific swordfish, Xiphias gladius. In: I. Barrett, O. Sosa-Nishizaki, and N. Bartoo, (Eds.), Biology and fisheries of swordfish, Xiphias gladius. NOAA Technical Report NMFS, 142: 261–273.
  • Varghese, S., Somvanshi, V. S. and Varghese, S. P. 2008. Depredation in the longline fishery of the Indian waters. Bulletin of Fishery Survey of India, 29: 27p.
  • Vijayakumaran, K. and Varghese, S. P. 2011. India’s National Report to the Scientific Committee of the Indian Ocean Tuna Commission, 2011. IOTC-2011SC14-NR-09.
  • Wang, S. P., Lin, C. H., Chiang, W. C. 2010. Age and growth analysis of swordfish (Xiphias gladius) in the Indian Ocean based on the specimens collected by Taiwanese observer program. IOTC-2010-WPB-08.
  • Wang, S., Sun, C. and Yeh, S. 2003. Sex Ratios and Sexual Maturity of Swordfish (Xiphias gladius L.) in the Waters of Taiwan. Zoological Studies, 42(4): 5295
  • Ward, P. and Elscot, S. 2000. Broadbill swordfish: Status of world fisheries. Bureau of Rural Sciences, Australia, 1-20
  • Weber, E. C. and Goldberg, S. R. 1986. The sex ratio and gonad indices of swordfish, Xiphias gladius, caught off the coast of southern California in 1978. Fishery Bulletin, 84: 185-186.
  • Wilson, C. A. 1984. Age and growth aspects of the life history of billfishes. Ph.D. dissertation, University of South Carolina.
  • Yabe, H., Ueyanagi, S., Kikawa, S. and Watanabe, S. 1959. Study on the life-history of the swordfish, Xiphias gladius Linnaeus. Report of Nankai Regional Fisheries Research Laboratory, 10: 107-150.
  • Young, J. and Drake, A. 2004. Age and growth of broadbill swordfish (Xiphius gladius) from Australian waters. Final report for project 2001/014, Fisheries Research Development Corporation, Canberra, Australia. 24p.
Toplam 65 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Bölüm Makaleler
Yazarlar

Sijo P. Varghese Bu kişi benim

K. Vijayakumaran Bu kişi benim

A. Anrose Bu kişi benim

Vaibhav D. Mhatre Bu kişi benim

Yayımlanma Tarihi 1 Haziran 2013
Yayımlandığı Sayı Yıl 2013 Cilt: 13 Sayı: 3

Kaynak Göster

APA Varghese, S. P., Vijayakumaran, K., Anrose, A., Mhatre, V. D. (2013). Biological Aspects of Swordfish, Xiphias gladius Linnaeus, 1758, Caught During Tuna Longline Survey in the Indian Seas. Turkish Journal of Fisheries and Aquatic Sciences, 13(3).
AMA Varghese SP, Vijayakumaran K, Anrose A, Mhatre VD. Biological Aspects of Swordfish, Xiphias gladius Linnaeus, 1758, Caught During Tuna Longline Survey in the Indian Seas. Turkish Journal of Fisheries and Aquatic Sciences. Haziran 2013;13(3).
Chicago Varghese, Sijo P., K. Vijayakumaran, A. Anrose, ve Vaibhav D. Mhatre. “Biological Aspects of Swordfish, Xiphias Gladius Linnaeus, 1758, Caught During Tuna Longline Survey in the Indian Seas”. Turkish Journal of Fisheries and Aquatic Sciences 13, sy. 3 (Haziran 2013).
EndNote Varghese SP, Vijayakumaran K, Anrose A, Mhatre VD (01 Haziran 2013) Biological Aspects of Swordfish, Xiphias gladius Linnaeus, 1758, Caught During Tuna Longline Survey in the Indian Seas. Turkish Journal of Fisheries and Aquatic Sciences 13 3
IEEE S. P. Varghese, K. Vijayakumaran, A. Anrose, ve V. D. Mhatre, “Biological Aspects of Swordfish, Xiphias gladius Linnaeus, 1758, Caught During Tuna Longline Survey in the Indian Seas”, Turkish Journal of Fisheries and Aquatic Sciences, c. 13, sy. 3, 2013.
ISNAD Varghese, Sijo P. vd. “Biological Aspects of Swordfish, Xiphias Gladius Linnaeus, 1758, Caught During Tuna Longline Survey in the Indian Seas”. Turkish Journal of Fisheries and Aquatic Sciences 13/3 (Haziran 2013).
JAMA Varghese SP, Vijayakumaran K, Anrose A, Mhatre VD. Biological Aspects of Swordfish, Xiphias gladius Linnaeus, 1758, Caught During Tuna Longline Survey in the Indian Seas. Turkish Journal of Fisheries and Aquatic Sciences. 2013;13.
MLA Varghese, Sijo P. vd. “Biological Aspects of Swordfish, Xiphias Gladius Linnaeus, 1758, Caught During Tuna Longline Survey in the Indian Seas”. Turkish Journal of Fisheries and Aquatic Sciences, c. 13, sy. 3, 2013.
Vancouver Varghese SP, Vijayakumaran K, Anrose A, Mhatre VD. Biological Aspects of Swordfish, Xiphias gladius Linnaeus, 1758, Caught During Tuna Longline Survey in the Indian Seas. Turkish Journal of Fisheries and Aquatic Sciences. 2013;13(3).