DOCSLIB.ORG

Reviews in Fisheries Science & Aquaculture World Squid Fisheries

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Reviews in Fisheries Science & Aquaculture World Squid Fisheries This article was downloaded by: [British Antarctic Survey] On: 13 July 2015, At: 06:37 Publisher: Taylor & Francis Informa Ltd Registered in England and Wales Registered Number: 1072954 Registered office: 5 Howick Place, London, SW1P 1WG Reviews in Fisheries Science & Aquaculture Publication details, including instructions for authors and subscription information: http://www.tandfonline.com/loi/brfs21 World Squid Fisheries Alexander I. Arkhipkina, Paul G. K. Rodhouseb, Graham J. Piercecd, Warwick Sauere, Mitsuo Sakaif, Louise Allcockg, Juan Arguellesh, John R. Boweri, Gladis Castilloh, Luca Ceriolaj, Chih-Shin Chenk, Xinjun Chenl, Mariana Diaz-Santanam, Nicola Downeye, Angel F. Gonzálezn, Jasmin Granados Amoreso, Corey P. Greenp, Angel Guerran, Lisa C. Hendricksonq, Christian Ibáñezr, Kingo Itos, Patrizia Jerebt, Yoshiki Katof, Oleg N. Katuginu, Mitsuhisa Kawanov, Hideaki Kidokorow, Vladimir V. Kuliku, Vladimir V. Laptikhovskyx, Marek R. Lipinskid, Bilin Liul, Luis Mariáteguih, Wilbert Marinh, Ana Medinah, Katsuhiro Mikiy, Kazutaka Miyaharaz, Natalie Moltschaniwskyjaa, Hassan Moustahfidab, Jaruwat Nabhitabhataac, Nobuaki Nanjoad, Chingis M. Nigmatullinae, Tetsuya Ohtaniaf, Gretta Peclag, J. Angel A. Perezah, Uwe Click for updates Piatkowskiai, Pirochana Saikliangaj, Cesar A. Salinas-Zavalao, Michael Steerak, Yongjun Tianw, Yukio Uetaal, Dharmamony Vijaiam, Toshie Wakabayashian, Tadanori Yamaguchiao, Carmen Yamashiroh, Norio Yamashitaap & Louis D. Zeidbergaq a Fisheries Department, Stanley, Falkland Islands b British Antarctic Survey, Natural Environmental Research Council, Cambridge, UK c Oceanlab, University of Aberdeen, Newburgh, UK d CESAM & Departamento de Biologia, Universidade de Aveiro, Aveiro, Portugal e Department of Ichthyology and Fisheries Science, Rhodes University, Grahamstown, South Africa f Tohoku National Fisheries Research Institute, Fisheries Research Agency, Hachinohe-shi, Aomori, Japan g School of Biological Sciences, Queen's University, Belfast, Belfast, UK h Instituto del Mar del Perú (IMARPE), Callao, Perú i Faculty of Fisheries Sciences, Hokkaido University, Hakodate, Hokkaido, Japan j FAO MedSudMed, Rome, Italy k Institute of Marine Affairs and Resource Management, National Taiwan Ocean University, Keelung, Taiwan l College of Marine Sciences, Shanghai Ocean University, Shanghai, China m Centro Interdisciplinario de Ciencias Marinas-IPN, La Paz, BCS, México n Instituto de Investigaciones Marinas (CSIC), Vigo, Spain o Centro de Investigaciones Biológicas del Noroeste SC, La Paz, BCS, México p Department of Environment and Primary Industries, Fisheries Victoria, Queenscliff, Victoria, Australia q Northeast Fisheries Science Center, U.S. National Marine Fisheries Service, Woods Hole, Massachusetts, USA r Departamento de Ciencias Ecológicas, Facultad de Ciencias, Universidad de Chile, Santiago, Chile s Fisheries Research Institute, Aomori Prefectural Industrial Technology Research Center, Aomori, Japan t ISPRA, Rome, Italy u Pacific Research Fisheries Centre (TINRO-Centre), Vladivostok, Russia v Yamaguchi Prefectural Fisheries Research Center, Nagato, Yamaguchi, Japan w Japan Sea National Fisheries Research Institute, Fisheries Research Agency, Niigata, Japan x Fisheries Division, CEFAS, Lowestoft, Suffolk, UK y National Research Institute of Fisheries Science, Kanazawa, Yokohama, Kanagawa, Japan z Hyogo Fisheries Technology Institute, Futami, Akashi, Hyogo, Japan aa School of Environmental and Life Sciences, University of Newcastle, Ourimbah, New South Wales, Australia ab National Oceanic and Atmospheric Administration (NOAA), United States Integrated Ocean Observing System (US IOOS), Operations Division, Silver Spring, Maryland, USA ac Excellence Centre for Biodiversity of Peninsular Thailand (CBIPT), Faculty of Science, Prince of Songkla University, Hatyai, Songkhla, Thailand ad Fisheries Research Institute, Toyama Prefectural Agricultural, Forestry and Fisheries Research Center, Namerikawa, Toyama, Japan ae Atlantic Research Institute of Marine Fisheries and Oceanography (AtlantNIRO), Kaliningrad, Russia af Tajima Fisheries Technology Institute, Hyogo Prefectural Technology Center for Agriculture, Forestry and Fisheries, Kasumi, Kami, Mikata, Hyogo, Japan ag Institute for Marine and Antarctic Studies, University of Tasmania, Hobart, Tasmania, Australia ah Centro de Ciências Tecnológicas da Terra e do Mar (CTTMar), Universidade do Vale do Itajaí (UNIVALI), Itajaí, SC, Brazil ai Leibniz-Institute of Marine Sciences IFM-GEOMAR, Kiel, Germany aj Bureau of Fisheries Expert, Department of Fisheries, Kaset Klang, Chatuchak, Bangkok, Thailand ak South Australian Research and Development Institute (Aquatic Sciences), Henley Beach, South Australia, Australia al Tokushima Agriculture, Forestry and Fishery Technology and Support Center, Fisheries Research Institute, Tokushima, Japan am Graduate School of Fisheries Sciences, Hokkaido University, Hakodate, Hokkaido, Japan an National Fisheries University, Shimonoseki, Japan ao Saga Prefectural Genkai Fisheries Research and Development Center, Karatsu, Saga, Japan ap Hokkaido National Fisheries Research Institute, Fisheries Research Agency, Katsurakoi, Kushiro, Hokkaido, Japan aq California Department of Fish and Wildlife, Marine Region, Monterey, California, USA Published online: 09 Jun 2015. To cite this article: Alexander I. Arkhipkin, Paul G. K. Rodhouse, Graham J. Pierce, Warwick Sauer, Mitsuo Sakai, Louise Downloaded by [British Antarctic Survey] at 06:37 13 July 2015 Allcock, Juan Arguelles, John R. Bower, Gladis Castillo, Luca Ceriola, Chih-Shin Chen, Xinjun Chen, Mariana Diaz-Santana, Nicola Downey, Angel F. González, Jasmin Granados Amores, Corey P. Green, Angel Guerra, Lisa C. Hendrickson, Christian Ibáñez, Kingo Ito, Patrizia Jereb, Yoshiki Kato, Oleg N. Katugin, Mitsuhisa Kawano, Hideaki Kidokoro, Vladimir V. Kulik, Vladimir V. Laptikhovsky, Marek R. Lipinski, Bilin Liu, Luis Mariátegui, Wilbert Marin, Ana Medina, Katsuhiro Miki, Kazutaka Miyahara, Natalie Moltschaniwskyj, Hassan Moustahfid, Jaruwat Nabhitabhata, Nobuaki Nanjo, Chingis M. Nigmatullin, Tetsuya Ohtani, Gretta Pecl, J. Angel A. Perez, Uwe Piatkowski, Pirochana Saikliang, Cesar A. Salinas-Zavala, Michael Steer, Yongjun Tian, Yukio Ueta, Dharmamony Vijai, Toshie Wakabayashi, Tadanori Yamaguchi, Carmen Yamashiro, Norio Yamashita & Louis D. Zeidberg (2015) World Squid Fisheries, Reviews in Fisheries Science & Aquaculture, 23:2, 92-252, DOI: 10.1080/23308249.2015.1026226 To link to this article: http://dx.doi.org/10.1080/23308249.2015.1026226 PLEASE SCROLL DOWN FOR ARTICLE Taylor & Francis makes every effort to ensure the accuracy of all the information (the “Content”) contained in the publications on our platform. Taylor & Francis, our agents, and our licensors make no representations or warranties whatsoever as to the accuracy, completeness, or suitability for any purpose of the Content. Versions of published Taylor & Francis and Routledge Open articles and Taylor & Francis and Routledge Open Select articles posted to institutional or subject repositories or any other third-party website are without warranty from Taylor & Francis of any kind, either expressed or implied, including, but not limited to, warranties of merchantability, fitness for a particular purpose, or non-infringement. Any opinions and views expressed in this article are the opinions and views of the authors, and are not the views of or endorsed by Taylor & Francis. The accuracy of the Content should not be relied upon and should be independently verified with primary sources of information. Taylor & Francis shall not be liable for any losses, actions, claims, proceedings, demands, costs, expenses, damages, and other liabilities whatsoever or howsoever caused arising directly or indirectly in connection with, in relation to or arising out of the use of the Content. This article may be used for research, teaching, and private study purposes. Terms & Conditions of access and use can be found at http://www.tandfonline.com/page/terms-and-conditions It is essential that you check the license status of any given Open and Open Select article to confirm conditions of access and use. Downloaded by [British Antarctic Survey] at 06:37 13 July 2015 Reviews in Fisheries Science & Aquaculture, 23:92–252, 2015 Published with license by Taylor & Francis Group, LLC ISSN: 2330-8249 print / 2330-8257 online DOI: 10.1080/23308249.2015.1026226 World Squid Fisheries ALEXANDER I. ARKHIPKIN*,1 PAUL G. K. RODHOUSE,2 GRAHAM J. PIERCE,3,4 WARWICK SAUER,5 MITSUO SAKAI,6 LOUISE ALLCOCK,7 JUAN ARGUELLES,8 JOHN R. BOWER,9 GLADIS CASTILLO,8 LUCA CERIOLA,10 CHIH-SHIN CHEN,11 XINJUN CHEN,12 MARIANA DIAZ-SANTANA,13 NICOLA DOWNEY,5 ANGEL F. GONZALEZ, 14 JASMIN GRANADOS AMORES,15 COREY P. GREEN,16 ANGEL GUERRA,14 LISA C. HENDRICKSON,17 CHRISTIAN IBANEZ,e 18 KINGO ITO,19 PATRIZIA JEREB,20 YOSHIKI KATO,6 OLEG N. KATUGIN,21 MITSUHISA KAWANO,22 HIDEAKI KIDOKORO,23 VLADIMIR V. KULIK,21 VLADIMIR V. LAPTIKHOVSKY,24 MAREK R. LIPINSKI,4 BILIN LIU,12 LUIS MARIATEGUI, 8 WILBERT MARIN,8 ANA MEDINA,8 KATSUHIRO MIKI,25 KAZUTAKA MIYAHARA,26 NATALIE MOLTSCHANIWSKYJ,27 HASSAN MOUSTAHFID,28 JARUWAT NABHITABHATA,29 NOBUAKI NANJO,30 CHINGIS M. NIGMATULLIN,31 TETSUYA OHTANI,32 GRETTA PECL,33 J. ANGEL A. PEREZ,34 UWE PIATKOWSKI,35 PIROCHANA SAIKLIANG,36 CESAR A. SALINAS-ZAVALA,15 MICHAEL STEER,37 YONGJUN TIAN,23 YUKIO UETA,38 DHARMAMONY VIJAI,39 TOSHIE WAKABAYASHI,40 TADANORI YAMAGUCHI,41 CARMEN YAMASHIRO,8 NORIO YAMASHITA,42 and LOUIS D. ZEIDBERG43 1Fisheries Department, Stanley,
Load more

Recommended publications
  • Title NOTES on the OCCURRENCE and BIOLOGY of THE
    View metadata, citation and similar papers at core.ac.uk brought to you by CORE provided by Kyoto University Research Information Repository NOTES ON THE OCCURRENCE AND BIOLOGY OF THE Title OCEANIC SQUID, THYSANOTEUTHIS RHOMBUS TROSCHEL, IN JAPAN Author(s) Nishimura, Saburo PUBLICATIONS OF THE SETO MARINE BIOLOGICAL Citation LABORATORY (1966), 14(4): 327-349 Issue Date 1966-09-20 URL http://hdl.handle.net/2433/175443 Right Type Departmental Bulletin Paper Textversion publisher Kyoto University NOTES ON THE OCCURRENCE AND BIOLOGY OF THE OCEANIC SQUID, THYSANOTEUTHIS 1 RHOMBUS TROSCHEL, IN JAPAN ) SABURO NISHIMURA Seto Marine Biological Laboratory, Sirahama With 6 Text-figures Though it is not so huge as Architeuthis or Moroteuthis nor so bizarre as Chiroteuthis or Opisthoteuthis, Thysanoteuthis rhombus TRoscHEL (Cephalopoda: Teuthoidea) is still one of the most remarkable members of the Japanese cephalopod fauna which com­ prises about one hundred and forty species. Its fully grown body will attain more than 80 em in mantle length or more than 19 kg in weight and its robust body with the enormously developed fins makes it quite distinct from all other teuthoidean cephalopods; these features seem to deserve well of its being called a noticeable creature in the ocean. This cephalopod is found rather frequently and in a moderate quantity in certain districts of Japan and well known to local fishermen by various Japanese names such as "taru-ika" (barrel squid), "hako-ika" (box squid), "sode-ika" (sleeved squid), "kasa­ ika" (umbrella squid), "aka-ika" (red squid), etc. However, it is apparently very scarce in other parts of the world, being recorded outside the Japanese waters so far only from the Mediterranean (TROSCHEL 1857; JATTA 1896; NAEF 1921-28; etc.), the waters around Madeira (REES & MAUL 1956) and the Cape of Good Hope (BARNARD 1934), and almost nothing is known of its life history including migration, behavior, life span, etc.
    [Show full text]
  • Fronts in the World Ocean's Large Marine Ecosystems. ICES CM 2007
    - 1 - This paper can be freely cited without prior reference to the authors International Council ICES CM 2007/D:21 for the Exploration Theme Session D: Comparative Marine Ecosystem of the Sea (ICES) Structure and Function: Descriptors and Characteristics Fronts in the World Ocean’s Large Marine Ecosystems Igor M. Belkin and Peter C. Cornillon Abstract. Oceanic fronts shape marine ecosystems; therefore front mapping and characterization is one of the most important aspects of physical oceanography. Here we report on the first effort to map and describe all major fronts in the World Ocean’s Large Marine Ecosystems (LMEs). Apart from a geographical review, these fronts are classified according to their origin and physical mechanisms that maintain them. This first-ever zero-order pattern of the LME fronts is based on a unique global frontal data base assembled at the University of Rhode Island. Thermal fronts were automatically derived from 12 years (1985-1996) of twice-daily satellite 9-km resolution global AVHRR SST fields with the Cayula-Cornillon front detection algorithm. These frontal maps serve as guidance in using hydrographic data to explore subsurface thermohaline fronts, whose surface thermal signatures have been mapped from space. Our most recent study of chlorophyll fronts in the Northwest Atlantic from high-resolution 1-km data (Belkin and O’Reilly, 2007) revealed a close spatial association between chlorophyll fronts and SST fronts, suggesting causative links between these two types of fronts. Keywords: Fronts; Large Marine Ecosystems; World Ocean; sea surface temperature. Igor M. Belkin: Graduate School of Oceanography, University of Rhode Island, 215 South Ferry Road, Narragansett, Rhode Island 02882, USA [tel.: +1 401 874 6533, fax: +1 874 6728, email: [email protected]].
    [Show full text]
  • Multiple Observations of Bigfin Squid (Magnapinna Sp.) in the Great
    PLOS ONE RESEARCH ARTICLE Multiple observations of Bigfin Squid (Magnapinna sp.) in the Great Australian Bight reveal distribution patterns, morphological characteristics, and rarely seen behaviour 1 2 1 3 Deborah OsterhageID *, Hugh MacIntosh , Franziska Althaus , Andrew Ross 1 CSIRO Oceans and Atmosphere, Commonwealth Scientific and Industrial Research Organisation, Hobart, a1111111111 Tasmania, Australia, 2 Museums Victoria, Melbourne, Victoria, Australia, 3 CSIRO Energy, Commonwealth a1111111111 Scientific and Industrial Research Organisation, Australian Resources Research Centre, Kensington, a1111111111 Western Australia, Australia a1111111111 a1111111111 * [email protected] Abstract OPEN ACCESS One of the most remarkable groups of deep-sea squids is the Magnapinnidae, known for Citation: Osterhage D, MacIntosh H, Althaus F, their large fins and strikingly long arm and tentacle filaments. Little is known of their biology Ross A (2020) Multiple observations of Bigfin and ecology as most specimens are damaged and juvenile, and in-situ sightings are sparse, Squid (Magnapinna sp.) in the Great Australian numbering around a dozen globally. As part of a recent large-scale research programme in Bight reveal distribution patterns, morphological the Great Australian Bight, Remotely Operated Vehicles and a towed camera system were characteristics, and rarely seen behaviour. PLoS ONE 15(11): e0241066. https://doi.org/10.1371/ deployed in depths of 946±3258 m resulting in five Magnapinna sp. sightings. These repre- journal.pone.0241066 sent the first records of Bigfin Squid in Australian waters, and more than double the known Editor: Johann Mourier, Institut de recherche pour records from the southern hemisphere, bolstering a hypothesis of cosmopolitan distribution. le developpement, FRANCE As most previous observations have been of single Magnapinna squid these multiple sight- Received: May 9, 2020 ings have been quite revealing, being found in close spatial and temporal proximity of each other.
    [Show full text]
  • Wqg: Coastal Marine Waters
    S O U T H A F R I C A N WATER QUALITY GUIDELINES FOR COASTAL MARINE WATERS VOLUME 4 MARICULTURE Department of Water Affairs and Forestry First Edition 1995 SOUTH AFRICAN WATER QUALITY GUIDELINES FOR COASTAL MARINE WATERS Volume 4: Mariculture First Edition, 1996 I would like to receive future versions of this document (Please supply the information required below in block letters and mail to the given address) Name:................................................................................................................................. Organisation:...................................................................................................................... Address:............................................................................................................................. ................................................................................................................................. ................................................................................................................................. ................................................................................................................................. PostalCode:........................................................................................................................ Telephone No.:................................................................................................................... E-Mail:................................................................................................................................
    [Show full text]
  • SA Wioresearchcompendium.Pdf
    Compiling authors Dr Angus Paterson Prof. Juliet Hermes Dr Tommy Bornman Tracy Klarenbeek Dr Gilbert Siko Rose Palmer Report design: Rose Palmer Contributing authors Prof. Janine Adams Ms Maryke Musson Prof. Isabelle Ansorge Mr Mduduzi Mzimela Dr Björn Backeberg Mr Ashley Naidoo Prof. Paulette Bloomer Dr Larry Oellermann Dr Thomas Bornman Ryan Palmer Dr Hayley Cawthra Dr Angus Paterson Geremy Cliff Dr Brilliant Petja Prof. Rosemary Dorrington Nicole du Plessis Dr Thembinkosi Steven Dlaza Dr Anthony Ribbink Prof. Ken Findlay Prof. Chris Reason Prof. William Froneman Prof. Michael Roberts Dr Enrico Gennari Prof. Mathieu Rouault Dr Issufo Halo Prof. Ursula Scharler Dr. Jean Harris Dr Gilbert Siko Prof. Juliet Hermes Dr Kerry Sink Dr Jenny Huggett Dr Gavin Snow Tracy Klarenbeek Johan Stander Prof. Mandy Lombard Dr Neville Sweijd Neil Malan Prof. Peter Teske Benita Maritz Dr Niall Vine Meaghen McCord Prof. Sophie von der Heydem Tammy Morris SA RESEARCH IN THE WIO ContEnts INDEX of rEsEarCh topiCs ‑ 2 introDuCtion ‑ 3 thE WEstErn inDian oCEan ‑ 4 rEsEarCh ActivitiEs ‑ 6 govErnmEnt DEpartmEnts ‑ 7 Department of Science & Technology (DST) Department of Environmental Affairs (DEA) Department of Agriculture, Forestry & Fisheries (DAFF) sCiEnCE CounCils & rEsEarCh institutions ‑ 13 National Research Foundation (NRF) Council for Geoscience (CGS) Council for Scientific & Industrial Research (CSIR) Institute for Maritime Technology (IMT) KwaZulu-Natal Sharks Board (KZNSB) South African Environmental Observation Network (SAEON) Egagasini node South African
    [Show full text]
  • Toyama Bay, Japan
    A Case Study Report on Assessment of Eutrophication Status in Toyama Bay, Japan Northwest Pacific Region Environmental Cooperation Center July 2011 Contents 1. Scope of the assessment........................................................................................................................................................... 1 1.1 Objective of the assessment .................................................................................................................................... 1 1.2 Selection of assessment area................................................................................................................................... 1 1.3 Collection of relevant information.......................................................................................................................... 3 1.4 Selection of assessment parameters........................................................................................................................ 4 1.4.1 Assessment categories of Toyama Bay case study ....................................................................................4 1.4.2 Assessment parameters of Toyama Bay case study...................................................................................4 1.5 Setting of sub-areas .................................................................................................................................................. 4 2. Data processing........................................................................................................................................................................
    [Show full text]
  • PROGRAMME 4 - 7 July 2017 • Boardwalk Convention Centre • Port Elizabeth • South Africa
    SAMssPORT ELIZABETH 2017 THE 16TH SOUTHERN AFRICAN MARINE SCIENCE SYMPOSIUM PROGRAMME 4 - 7 July 2017 • www.samss2017.co.za Boardwalk Convention Centre • Port Elizabeth • South Africa Theme: Embracing the blue l Unlocking the Ocean’s economic potential whilst maintaining social and ecological resilience SAMSS is hosted by NMMU, CMR and supported by SANCOR WELCOME PLENARY SPEAKERS It is our pleasure to welcome all SAMSS 2017 participants on behalf of the ROBERT COSTANZA - The Australian National University - Australia Institute for Coastal and Marine Research at Nelson Mandela Metropolitan University and the city of Port Elizabeth. NMMU has a long tradition of marine COSTANZA has an H-index above 100 and >60 000 research and its institutional marine and maritime strategy is coming to citations. His area of specialisation is ecosystem goods fruition, which makes this an ideal time for us to host this triennial meeting. and services and ecological economics. Costanza’s Under the auspices of SANCOR, this is the second time we host SAMSS in PE and the transdisciplinary research integrates the study of theme ‘Embracing the blue – unlocking the ocean’s potential whilst maintaining social humans and nature to address research, policy, and and ecological resilience’ is highly topical and appropriate, aligning with Operation management issues. His work has focused on the Phakisa, which is the national approach to developing a blue economy. South Africa is interface between ecological and economic systems, at a cross roads and facing economic challenges. Economic growth and lifting people particularly at larger temporal and spatial scales, from out of poverty is a priority and those of us in the ‘marine’ community need to be part small watersheds to the global system.
    [Show full text]
  • Status of the South African and Namibian Horse Mackerel
    Oceana Sustainability Report 2019 Status and Management of Horse mackerel in South Africa and Namibia, 2019 Capricorn Marine Environmental (Pty) Ltd David Japp, Daniel Droste and Zonke Gumede South Africa Biology and Stock Dynamics Horse mackerel (Trachurus capensis), better known as ‘maasbanker’ in the Western Cape, are similar to other Trachurus species caught globally in many other parts of the world. They are also classified as carangids which typically are game fish and fast swimmers (such as the kingfish commonly caught in the warmer waters of the South African east coast). Maasbanker, however, differ somewhat in that they are primarily filter feeders, although they do have a fairly broad diet that includes plankton and small swimming crustaceans (such as krill) and small fish and squid. What makes them a good commercial species is their shoaling behaviour, with large aggregations occurring in areas where plankton is abundant. Such is the case with the South African fishery, particularly on the east coast around the Agulhas Bank where adult maasbanker shoal and are targeted by the mid-water trawl fishery. Maasbanker are difficult to catch, as they are strong swimmers and migrate up and down in the water column and occur from the shallowest waters out to the deep waters of the continental shelf. In South Africa, the fisheries for massbanker can be broadly separated between three fishery sectors – a fishery using midwater trawls, a second using bottom trawls (typically for hake) and a third fishery targeting juvenile maasbanker using purse seine gear such as that used for sardine and anchovy. These variations, combined with the behaviour of maasbanker, require specific management interventions to ensure that the fishery remains sustainable into the future.
    [Show full text]
  • A Retrospective Analysis of Shark Catches Made by Pelagic Longliners
    OCEANOGRAPHIC RESEARCH INSTITUTE, DURBAN, SOUTH AFRICA, AFFILIATED WITH THE UNIVERSITY OF KWAZULU-NATAL A retrospective analysis of shark catches made by pelagic longliners off the east coast of South Africa and biology and life history of shortfin mako shark, Isurus oxyrinchus Submitted in fulfillment of the academic requirements for the degree of Master of Science in the Oceanographic Research Institute, affiliated with the School of Biological and Conservation Sciences, University of KwaZulu-Natal, Durban. By Alan Foulis February 2013 i i. Abstract Oceanic pelagic shark species are under threat worldwide as fishing effort increases and they are taken as both targeted and bycatch. It is widely recognized that the life history characteristics of sharks make them inherently susceptible to over- exploitation and as a result many shark-directed fisheries have collapsed. It is therefore essential that good-quality data are collected and analyzed in order to provide fisheries managers with the right information to manage these species sustainably. South Africa has a pelagic longline fishery which includes tuna-, swordfish-, and shark-directed vessels. This study analyzed logbook (1998 – 2010) and observer data (2002 – 2010) provided by the Department of Agriculture, Forestry and Fisheries in order to assess the catch composition and standardized catch-per-unit-effort (CPUE) of sharks captured as both targeted catch and bycatch. The study area consisted of four zones moving east of the 20°E meridian: the Agulhas Bank (20°E – 24°E), South Coast (25°E – 29°E), East Coast 1 (30°E – 32.8°E), and East Coast 2 (32.9°E – 36.5°E).
    [Show full text]
  • Environmental Effects on Cephalopod Population Dynamics: Implications for Management of Fisheries
    Advances in Cephalopod Science:Biology, Ecology, Cultivation and Fisheries,Vol 67 (2014) Provided for non-commercial research and educational use only. Not for reproduction, distribution or commercial use. This chapter was originally published in the book Advances in Marine Biology, Vol. 67 published by Elsevier, and the attached copy is provided by Elsevier for the author's benefit and for the benefit of the author's institution, for non-commercial research and educational use including without limitation use in instruction at your institution, sending it to specific colleagues who know you, and providing a copy to your institution’s administrator. All other uses, reproduction and distribution, including without limitation commercial reprints, selling or licensing copies or access, or posting on open internet sites, your personal or institution’s website or repository, are prohibited. For exceptions, permission may be sought for such use through Elsevier's permissions site at: http://www.elsevier.com/locate/permissionusematerial From: Paul G.K. Rodhouse, Graham J. Pierce, Owen C. Nichols, Warwick H.H. Sauer, Alexander I. Arkhipkin, Vladimir V. Laptikhovsky, Marek R. Lipiński, Jorge E. Ramos, Michaël Gras, Hideaki Kidokoro, Kazuhiro Sadayasu, João Pereira, Evgenia Lefkaditou, Cristina Pita, Maria Gasalla, Manuel Haimovici, Mitsuo Sakai and Nicola Downey. Environmental Effects on Cephalopod Population Dynamics: Implications for Management of Fisheries. In Erica A.G. Vidal, editor: Advances in Marine Biology, Vol. 67, Oxford: United Kingdom, 2014, pp. 99-233. ISBN: 978-0-12-800287-2 © Copyright 2014 Elsevier Ltd. Academic Press Advances in CephalopodAuthor's Science:Biology, personal Ecology, copy Cultivation and Fisheries,Vol 67 (2014) CHAPTER TWO Environmental Effects on Cephalopod Population Dynamics: Implications for Management of Fisheries Paul G.K.
    [Show full text]
  • Start-Up Report
    Contract Report to the Western Pacific Regional Fishery Management Council September 2011 Final Report Assessing the State of Japanese Coastal Fisheries and Sea Turtle Bycatch -Contract No.: 10-turtle-009 Name of Contractor: Sea Turtle Association of Japan Naoki Kamezaki Ph.D., Director Mail Address: Sea Turtle Association of Japan Naoki Kamezaki Nagao-motomachi 5-17-18, Hirakata, Osaka 573-0163 Japan Tel:+81-72-864-0335; fax:+81-72-864-0535 http:://www.umigame.org e-mail: [email protected] 1. Purpose The Sea Turtle Association of Japan (STAJ) receives over 500 reports annually regarding dead stranded sea turtles. Fishery bycatch is assumed to be the greatest source of mortality of stranded turtles in coastal Japan. In addition, STAJ conducts research and monitoring on sea turtles that are bycaught in pound nets in Kochi, Mie, and Kagoshima prefectures, where approximately 100 turtle bycatch are recorded at each pound net site (Ishihara et al., 2006; Iwamoto, 2006; Yamashita, 2007; Takeuchi, 2008). Of the monitored sites, the site in Mie prefecture has a very high mortality rate, suggesting that fishery bycatch cannot be ignored as a source of sea turtle mortality. Moreover, many of the fishers operate with various fishing gear and method depending on the season, leading to extensively varied operation size and type of fisheries across the country. As a result, determining the types of coastal fisheries that pose the greatest threat to turtle populations as well as the extent of bycatch is critical in recovering the population of loggerhead turtles, green turtles, hawksbill turtles, and leatherback turtles that utilize coastal Japan as their habitat.
    [Show full text]
  • Approved List of Japanese Fishery Fbos for Export to Vietnam Updated: 11/6/2021
    Approved list of Japanese fishery FBOs for export to Vietnam Updated: 11/6/2021 Business Approval No Address Type of products Name number FROZEN CHUM SALMON DRESSED (Oncorhynchus keta) FROZEN DOLPHINFISH DRESSED (Coryphaena hippurus) FROZEN JAPANESE SARDINE ROUND (Sardinops melanostictus) FROZEN ALASKA POLLACK DRESSED (Theragra chalcogramma) 420, Misaki-cho, FROZEN ALASKA POLLACK ROUND Kaneshin Rausu-cho, (Theragra chalcogramma) 1. Tsuyama CO., VN01870001 Menashi-gun, FROZEN PACIFIC COD DRESSED LTD Hokkaido, Japan (Gadus macrocephalus) FROZEN PACIFIC COD ROUND (Gadus macrocephalus) FROZEN DOLPHIN FISH ROUND (Coryphaena hippurus) FROZEN ARABESQUE GREENLING ROUND (Pleurogrammus azonus) FROZEN PINK SALMON DRESSED (Oncorhynchus gorbuscha) - Fresh fish (excluding fish by-product) Maekawa Hokkaido Nemuro - Fresh bivalve mollusk. 2. Shouten Co., VN01860002 City Nishihamacho - Frozen fish (excluding fish by-product) Ltd 10-177 - Frozen processed bivalve mollusk Frozen Chum Salmon (round, dressed, semi- dressed,fillet,head,bone,skin) Frozen Alaska Pollack(round,dressed,semi- TAIYO 1-35-1 dressed,fillet) SANGYO CO., SHOWACHUO, Frozen Pacific Cod(round,dressed,semi- 3. LTD. VN01840003 KUSHIRO-CITY, dressed,fillet) KUSHIRO HOKKAIDO, Frozen Pacific Saury(round,dressed,semi- FACTORY JAPAN dressed) Frozen Chub Mackerel(round,fillet) Frozen Blue Mackerel(round,fillet) Frozen Salted Pollack Roe TAIYO 3-9 KOMABA- SANGYO CO., CHO, NEMURO- - Frozen fish 4. LTD. VN01860004 CITY, - Frozen processed fish NEMURO HOKKAIDO, (excluding by-product) FACTORY JAPAN
    [Show full text]