Open Access
Issue
Aquat. Living Resour.
Volume 35, 2022
Article Number 11
Number of page(s) 13
DOI https://doi.org/10.1051/alr/2022010
Published online 17 August 2022
  • Abdussamad EM, Pillai PP, Mohamad Kasim H, Balasubramanian TS. 2005. Fishery and population characteristics of coastal tunas at Tuticorin. J Mar Biol Assoc India 47: 50–57. [Google Scholar]
  • Abekan E, Constance DNG, Justin AM, Florentine AND, Paul AKJ. 2017. Variations Saisonnières Des Paramètres De Reproduction Et Relation Taille-Poids De Auxis thazard (Lacepède, 1800) Capturé Dans Le Golfe De Guinée Par La Flottille Artisanale Ivoirienne. Eur Sci J 13: 444–462. [Google Scholar]
  • Amandè MJ, Ariz J, Chassot E, de Molina AD, Gaertner D, Murua H, Pianet R, Ruiz J, Chavance P. 2010. Bycatch of the European purse seine tuna fishery in the Atlantic Ocean for the2003-2007 period. Aquat Living Resour 23: 353–362. [CrossRef] [EDP Sciences] [Google Scholar]
  • Arrizabalaga H, De Bruyn P, Diaz GA, Murua H, Chavance P, De Molina AD, Gaertner D, Ariz J, Ruiz J, Kell LT. 2011. Productivity and susceptibility analysis for species caught in Atlantic tuna fisheries. Aquat Living Resour 24: 1–12. [CrossRef] [EDP Sciences] [Google Scholar]
  • Aubone A, Wöhler OC. 2000. Aplicación del método de máxima verosimilitud a la estimación de parámetros y comparación de curvas de crecimiento de von Bertalanffy. Inidep Inf Tec 37: 1–2. [Google Scholar]
  • Beckman DW, Wilson CA. 1995. Seasonal timing of opaque zone formation in fish otoliths. In: Recent Developments in Fish Otolith Research, edited by D.H. Secor, J.M. Dean and S.E. Campana. Columbia: University South Carolina Press, pp. 27–43. [Google Scholar]
  • Brown-Peterson NJ, Wyanski DM, Saborido-Rey F, Macewicz BJ, Lowerre-Barbieri SK. 2011. A standardized terminology for describing reproductive development in fishes. Mar Coast Fish 3: 52–70. [CrossRef] [Google Scholar]
  • Calicdan-Villarao MA, Encarnacion AB, Ame EC, Morales MC. 2017. Biology and population dynamics of bullet tuna (Auxis rochei) and frigate tuna (Auxis thazard) in Babuyan Channel, Philippines. Kuroshio Sci. 11: 63–72. [Google Scholar]
  • Chang WY. 1982. A statistical method for evaluating the reproducibility of age determination. Can J Fish Aquat Sci 39: 1208–1210. [Google Scholar]
  • Collette BB, Nauen C. 1983. FAO Species Catalogue. Vol. 2. Scombrids of the world: an annotated and illustrated catalogue of tunas, mackerels, bonitos and related species known to date. FAO Fisheries Synopsis. No 125. Rome, FAO. pp. 137. [Google Scholar]
  • da Silveira Menezes AA, dos Santos RA, Lin CF, Neves LFF, Vianna M. 2010. Caracterização das capturas comerciais do bonito-listrado, Katsuwonus pelamis, desembarcado em 2007 no Rio de Janeiro, Brasil. Rev. CEPSUL-Biodiv. e Conserv Mar 1: 29–42. [Google Scholar]
  • Darvishi M, Behzadi S, Salarpouri A, Momeni M. 2020. Growth, mortality and exploitation ratio of Auxis thazard (Lacepède, 1800) in the Northern Persian Gulf and Oman Sea waters (Hormozgan Province Zone). J Anim Environ 12: 131–138. [Google Scholar]
  • Fogliarini CO, Ferreira CE, Bornholdt J, Barbosa MC, Giglio VJ, Bender MG. 2021. Telling the same story: Fishers and landing data reveal changes in fisheries on the Southeastern Brazilian Coast. PloS one 16: p.e0252391. [CrossRef] [PubMed] [Google Scholar]
  • Froese R. 2006. Cube law, condition factor and weight-length relationships: history, meta‐analysis and recommendations. J Appl Ichthyol 22: 241–253. [CrossRef] [Google Scholar]
  • Ghosh S, Pillai NGK, Dhokia HK. 2010. Fishery, population characteristics and yield estimates of coastal tunas at Veraval. Indian J Fish 57: 7–13. [Google Scholar]
  • Ghosh S, Sivadas M, Abdussamad EM, Rohit P, Koya KP, Joshi KK, Chellappan A, Margaret Muthu Rathinam A, Prakasan D, Sebastine M. 2012. Fishery, population dynamics and stock structure of frigate tuna Auxis thazard (Lacepede, 1800) exploited from Indian waters. Indian J Fish 59: 95–100. [Google Scholar]
  • Gonzalez-Rodriguez E, Valentin JL, André DL, Jacob SA. 1992. Upwelling and downwelling at Cabo Frio (Brazil): comparison of biomass and primary production responses. J Plankton Res 14: 289–306. [CrossRef] [Google Scholar]
  • Grudtsev ME, Korolevich LI. 1986. Studies of frigate tuna Auxis thazard (Lacepede) age and growth in the eastern part of the Equatorial Atlantic. Col Vol Sci Pap ICCAT 25: 269–274. [Google Scholar]
  • Haddon M. 2011. Modelling and Quantitative Methods in Fisheries. CRCPress. [CrossRef] [Google Scholar]
  • Herath DR, Perera HACC, Hettiarachchi GHCM. 2019. Some biological aspects and molecular variations in frigate tuna, Auxis thazard of the coastal waters around Sri Lanka. J Natl Sci Found of Sri Lanka 47: 333. [Google Scholar]
  • Høie H, Folkvord A, Mosegaard H, Li L, Clausen LW, Norberg B, Geffen AJ. 2008. Restricted fish feeding reduces cod otolith opacity. J Appl Ichthyol 24: 138–143. [CrossRef] [Google Scholar]
  • ICCAT. International Commission for the Conservation of Atlantic Tunas. 2018. Report of the 2021 Standing Committee on Research and Statistics (SCRS), Madrid, Spain 27 September − 6 October, 2021. Pp. 1–287. [Google Scholar]
  • ICCAT. International Commission for the Conservation of Atlantic Tunas. 2021. Nominal catch information. Available at: www.iccat.int/en/accesingdb.html. Accessed: September, 2021. [Google Scholar]
  • Juan-Jordá MJ, Mosqueira I, Freire J, Dulvy NK. 2013. The conservation and management of tunas and their relatives: setting life history research priorities. PLoS One 8: e70405. [CrossRef] [PubMed] [Google Scholar]
  • Jude D, Neethiselvan N, Gopalakrishnan P, Sugumar G. 2002. Gill net selectivity studies for fishing frigate tuna, Auxis thazard Lacepede (Perciformes: Scombridae) in Thoothukkudi waters, southeast coast of India. Indian J Mar Sci 31: 329–333. [Google Scholar]
  • Kampel M, Lorenzzetti JA, Silva Jr CL. 1997. Observação por satélite de ressurgências na costa S-SE brasileira. VII COLACMAR, 22: 38–40. [Google Scholar]
  • Kasim HM. 2002. Fishery, growth, mortality rates and stock assessment of Auxis thazard (Lacepede) along Tuticorin coast, Gulf of Mannar. In The Fifth Indian Fisheries Forum Proceedings, Bhubaneswar, Orissa, pp. 351–355. [Google Scholar]
  • Kimura DK. 1980. Likelihood methods for the von Bertalanffy growth curve. Fish Bull 77: 765–776. [Google Scholar]
  • King M. 2008. Fisheries biology, assessment and management. 2nd edn. John Wiley & Sons. [Google Scholar]
  • Lelono TD, Bintoro G. 2019. Population dynamics and feeding habits of Euthynnus affinis, Auxis thazard, and Auxis rochei in South Coast of East Java waters. IOP Conference Series: Earth and Environmental Science 370. [Google Scholar]
  • Lu Z, Quanshui D, Youming Y. 1991. Growth and mortality of Auxis thazard in the Taiwan Strait and its adjacent sea. J Fish China 15: 228–235. [Google Scholar]
  • Lucena-Frédou F, Mourato B, Frédou T, Lino PG, Muñoz-Lechuga R, Palma C, Soares A, Pons M. 2021. Review of the life history, fisheries, and stock assessment for small tunas in the Atlantic Ocean. Rev Fish Biol Fish pp. 1–28. [Google Scholar]
  • Lucena-Frédou FL, Frédou T, Ménard F, Beare D, Abid N, Kell L. 2017. Preliminary ecological risk assessment of small tunas of the Atlantic Ocean. Collect Vol Sci Pap ICCAT 73: 2663–2267. [Google Scholar]
  • Martins RRM, Gonçalves e Silva F, Soares JB, Monteiro-Neto C, Da Costa MR, Tubino RA, Madureira LASP, Castello JP. 2020. Dinâmica da frota de vara e isca-viva no Atlântico Sudoeste. In: Kawakami, E. (Ed.). Sustenta-bilidade da pesca do bonito-listrado no Brasil. Walprint Gráfica e Editora, Rio do Janeiro pp. 137 –152. [Google Scholar]
  • Matsuura Y, Sato G. 1981. Distribution and abundance of scombrid larvae in southern Brazilian waters. Bull Mar Sci 31: 824–832. [Google Scholar]
  • Morales-Nin B, Panfili J. 2005. Seasonality in the deep sea and tropics revisited: what can otoliths tell us?. Mar Freshw Res 56: 585–598. [CrossRef] [Google Scholar]
  • Mudumala VK, Farejiya MK, Mali KS, Karri RR, Uikey DE, Sawant PA, Siva A. 2018. Studies on population characteristics of frigate tuna, Auxis thazard (Lacepede, 1800) occurring in the North West Coast of India. Int J Life Sci Scienti Res 4: 1639–1643. [CrossRef] [Google Scholar]
  • Munro JL, Pauly D. 1983. A simple method for comparing the growth of fishes and invertebrates. Fishbyte 1: 5–6. [Google Scholar]
  • Noegroho T, Hidayat T, Amri K, 2013. Some Biological Aspect of Frigate tuna (Auxis thazard), Bullet tuna (Auxis rochei) and kawakawa (Euthynnus affinis) in West Coast Sumatera FMA 572, Eastern Indian Ocean. Res Int Mar Fish Jakarta 1: 2–5. [Google Scholar]
  • Ogle DH. 2017. FSA: Fisheries Stock Analysis. R package version 0.8.12. R Core Team. 2016. [Google Scholar]
  • Petukhova NG. 2019. Life history parameters for frigate tuna Auxis thazard in the Northeast Atlantic. International Commission for the Conservation of Atlantic Tunas (ICCAT) Collective Volume of Scientific Papers, 76: 169–173. [Google Scholar]
  • Pons M, Branch TA, Melnychuk MC, Jensen OP, Brodziak J, Fromentin JM, Harley SJ, Haynie AC, Kell LT, Maunder MN, Parma AM. 2017. Effects of biological, economic and management factors on tuna and billfish stock status. Fish Fisheries 18: 1–21. [CrossRef] [Google Scholar]
  • Pons M, Kell L, Rudd MB, Cope JM, Lucena Frédou F. 2019. Performance of length-based data-limited methods in a multifleet context: application to small tunas, mackerels, and bonitos in the Atlantic Ocean. ICES J Mar Sci 76: 960–973. [CrossRef] [Google Scholar]
  • Pruzinsky NM, Milligan RJ, Sutton TT. 2020. Pelagic habitat partitioning of late-larval and Juvenile tunas in the Oceanic Gulf of Mexico. Front Mar Sci 7: 257. [Google Scholar]
  • Reglero P, Tittensor DP, Álvarez-Berastegui D, Aparicio-González A, Worm B. 2014. Worldwide distributions of tuna larvae: revisiting hypotheses on environmental requirements for spawning habitats. Mar Ecol Prog Ser 501: 207–224. [Google Scholar]
  • Rudomiotkina GP. 1984. New data on reproduction of Auxis spp. In the Gulf of Guinea. Collect. Vol. Sci. Pap. ICCAT 20: 465–468. [Google Scholar]
  • Schaefer KM. 2001. Reproductive biology of tunas. Fish physiol. 19: 225–270. [CrossRef] [Google Scholar]
  • Soares JB, Monteiro-Neto C, da Costa MR, Martins RRM, dos Santos Vieira FC, de Andrade-Tubino MF, Bastos AL, de Almeida Tubino R. 2019. Size structure, reproduction, and growth of skipjack tuna (Katsuwonus pelamis) caught by the pole-and-line fleet in the southwest. Atl Fisheries Res 212: 136–145. [CrossRef] [Google Scholar]
  • Tampubolon PARP, Novianto D, Hartaty H, Kurniawan R, Setyadji B, Nugraha B. 2016. Size distribution and reproductive aspects of Auxis spp. from west coast Sumatera, eastern Indian Ocean. IOTC-2016-WPN T06–19. [Google Scholar]
  • Tao Y, Mingru C, Jianguo D, Zhenbin L, Shengyun Y. 2012. Age and growth changes and population dynamics of the black pomfret (Parastromateus niger) and the frigate tuna (Auxis thazard thazard), in the Taiwan Strait. Lat Am J Aquat Res 40: 649–656. [CrossRef] [Google Scholar]
  • Torrejon-Magallanes J. 2020. sizeMat: an r package to estimate size at sexual maturity. R Foundation for Statistical Computing: Vienna, Austria. [Google Scholar]
  • Valentin JL. 2001. The Cabo Frio upwelling system, Brazil. In Coastal marine ecosystems of Latin America. Berlin, Heidelberg: Springer. pp. 97-105. [Google Scholar]
  • Vieira JMS, Costa PAS, Braga AC, São-Clemente RRB, Ferreira CEL, Silva JP. 2021. Age, growth, and maturity of little tunny, Euthynnus alletteratus (Rafinesque, 1810) in southeastern Brazil. Lat Am J Aquat Res 49. [Google Scholar]
  • Von Bertalanffy L. 1938. A quantitative theory of organic growth (inquiries on growth laws. II). Human Biol 10: 181–213. [Google Scholar]
  • Zapadaeva N. 2021. Updated life history parameters and estimates of spawning potential ratio for frigate tuna Auxis thazard stock in the Northeast Atlantic. Collect Vol Sci Pap ICCAT 78: 93–102. [Google Scholar]
  • Zar JH. 2010. Biostatistical analysis. New Jersey: Prentice-Hall. [Google Scholar]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.