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Photos of Common Fishes in the Lower Mekong Photos of Common Fishes in the Lower Mekong Basin ​■ 徶羶ខ䮘ែរ ■ ພາສາລາວ ■ ภาษาไทย ■ Tiếng Việt River Commission Fisheries Programme Cambodia • Lao PDR • Thailand • Viet Nam For sustainable development Mekong River Commission Photos of Common Fishes in the Lower Mekong Basin June 2016 Cambodia . Lao PDR . Thailand . Viet Nam For sustainable development Printed in Phnom Penh, Cambodia in June 2016 by the Mekong River Commission Cite this document as: Ngor, P.B., Chhut, C., Theng, L., Ly, V., Phommakone, S., Samphawamana, T., Nguyen, H.S., Degen, P. and So, N. (2016). Photos of Common Fishes in the Lower Mekong Basin. MRC Fisheries Programme, 96pp., Phnom Penh. Photographs: ffish.asia Graphic design and layout: Chhut, C. Office of the Secretariat in Phnom Penh (OSP) Office of the Secretariat in Vientiane (OSV) 576 National Road, #2, Chak Angre Krom, Office of the Chief Executive Officer P.O. Box 623, 184 Fa Ngoum Road, P.O. Box 6101, Phnom Penh, Cambodia Vientiane, Lao PDR Tel. (855-23) 425 353 Tel. (856-21) 263 263 Fax. (855-23) 425 363 Fax. (856-21) 263 264 © Mekong River Commission E-mail: [email protected] Website: www.mrcmekong.org Introduction This fish photo book is a key tool for Fish Abundance and Diversity Monitoring of Mekong fisheries. It has been prepared in close collaboration between the MRC Fisheries Programme and the fisheries national line agencies of MRC Member Countries, namely: • Cambodia: Inland Fisheries Research and Development (IFReDI) • Lao PDR: Living Aquatic Resources Research Center (LARReC) • Thailand: Department of Fisheries (DoF) • Viet Nam: Research Institute for Aquaculture No. 2 (RiA2) The photo book has been updated from a fish photo catalogue prepared in the early 2000s which formed the basis of the MRC Mekong Fish Database 2003. This updated version uses photos with higher resolution and updated scientific and common names of the Mekong fishes from the most up-to- date available sources which include: • Froese, R. and D. Pauly (eds.) (2015) FishBase. World Wide Web electronic publication. www. fishbase.org, version (02/2015). • Kano, Y.; Adnan, M.S.B.; Grudpan, C.; Grudpan, J.; Magtoon, W.; Musikasinthorn, P.; Natori, Y.; Ottomanski. S.; Praxaysonbath, B.; Phongsa, K.; Rangsiruji, A.; Shibukawa, K.; Shimatani, Y.; So, N.; Suvarnaraksha, A.; Thach, P.; Thanh, P.N.; Tran, D.D.; Utsugi, K. and Yamashita, T. (2013) An online database on freshwater fish diversity and distribution in Mainland Southeast Asia. Ichthyological Research 60: 293-295 (URL: ffish.asia). • Kottelat, M. (2013) The Fishes of the inland waters of Southeast Asia: A catalogue and core bibliography of the fishes known to occur in freshwaters, mangroves and estuaries.THE RAFFLES BULLETIN OF ZOOLOGY 2013 Supplement No. 27: 1–663. URL: http://zoobank. org/urn:lsid:zoobank.org:pub:0B66AE04-C644-43CD-9B76-043848FAA9FE. • MFD (2003) Mekong Fish Database: A taxonomic fish database for the Mekong Basin. Mekong River Commission. ISN 974 – 9509 – 29 – 3. • Rainboth, W.J. (1996) Fishes of the Cambodian Mekong. Food and Agriculture Organization of the United Nations. Rome, 265 pp. It includes 272 common fish species, of which some 20 species are exotic. The photo book also includes basic key information about each fish species namely species code, local names in national languages of the MRC Member Countries, scientific names, common English names, maximum length and the family to which each fish species belongs. The aim is to assist riparian fish researchers in addressing a basic problem related to misidentification of fish species. It is meant for national counterparts supervising fisheries monitoring activities in the field and who train fishers in recording fish catch composition. This will ensure that fishers will generate, on a daily basis, standardized quality fish catch monitoring records across the four MRC Member Countries, thus contributing to harmonized national and regional datasets. Page 1 Photos of Common Fishes in the Lower Mekong This photo book is considered a living document which needs updating from time to time. The users of the book, i.e. fisheries researchers and fishers alike, are very much encouraged to provide feed-back from their observations in the field so as to correct and continuously update this document. Any feedback will be gratefully acknowledged. Page 2 Photos of Common Fishes in the Lower Mekong Page 3 Guide to freshwater fishes Photos of Common Fishes in the Lower Mekong Page 4 Page 4 Photos of Common Fishes in the Lower Mekong 20 Aaptosyax grypus Cyprinidae បែវែងអតិបរ掶:​130.0​ស.ម​SL ຄວາມຍາວສູງສຸດ: 130.0 ຊມ SL ความยาวสูงสุด: 130.0 ซม. SL Chiều dài toàn thân: 130.0 cm SL តែីប៉ែ羶㮶ក ປາຊະນາກໃ꺍່ สะนากยักษ์ สะนากใหญ่ Common name: Giant salmon carp Cá hồi Mê Công Maximum length: 130.0 cm SL 1315 Acanthopsoides hapalias Cobitidae បែវែងអតិបរ掶:​6.0​ស.ម​TL ຄວາມຍາວສູງສຸດ: 6.0 ຊມ TL ความยาวสูงสุด: 6.0 ซม. TL Chiều dài toàn thân: 6.0 cm TL តែីបណ䮏ូលចែក ປາຮາກກ້ວຍດ່ອນ รากกล้วยแคระ ฮากกล้วยน้อย Common name: Maximum length: 6.0 cm TL 171 Acanthopsoides delphax Cobitidae បែវែងអតិបរ掶:​6.0​ស.ម​SL ຄວາມຍາວສູງສຸດ: 6.0 ຊມ SL ความยาวสูงสุด: 6.0 ซม. SL Chiều dài toàn thân: 6.0 cm SL តែីបណ䮏ូលចែកស ປາຮາກກ້ວຍ รากกล้วยแคระ ฮากกล้วยน้อย Common name: Horse-faced loach Maximum length: 6.0 cm SL Page 5 Photos of Common Fishes in the Lower Mekong 4000 Acantopsis sp. "cheek spot" Cobitidae បែវែងអតិបរ掶:​25.0​ស.ម​SL ຄວາມຍາວສູງສຸດ: 25.0 ຊມ SL ความยาวสูงสุด: 25.0 ซม. SL Chiều dài toàn thân: 25.0 cm SL តែីឬសចែក รากกล้วย ซ่อนทราย ฮากกล้วย Common name: Horse-face loach Cá khoai sông Maximum length: 25 .0 cm SL 4001 Acantopsis sp. "large spot" Cobitidae បែវែងអតិបរ掶:​25.0​ស.ម​SL ຄວາມຍາວສູງສຸດ: 25.0 ຊມ SL ความยาวสูงสุด: 25.0 ซม. SL Chiều dài toàn thân: 25.0 cm SL តែីឬសចែកធំ ປາຮາກກ້ວຍ รากกล้วย ซ่อนทราย ฮากกล้วย Common name: Horse-face loach Cá khoai sông Maximum length: 25.0 cm SL 3012 Acantopsis sp. "small spot" Cobitidae បែវែងអតិបរ掶:​ ຄວາມຍາວສູງສຸດ: ความยาวสูงสุด: Chiều dài toàn thân: តែី​ឬសចែកតូច ປາຮາກກ້ວຍ รากกล้วย ซ่อนทราย Common name: Horse-face loach Cá khoai sông Maximum length: Page 6 Photos of Common Fishes in the Lower Mekong 4002 Acantopsis dialuzona Cobitidae បែវែងអតិបរ掶:​25.0​ស.ម​SL ຄວາມຍາວສູງສຸດ: 25.0 ຊມ SL ความยาวสูงสุด: 25.0 ซม. SL Chiều dài toàn thân: 25.0 cm SL តែីឬសចែក รากกล้วย ซ่อนทราย Common name: Horse-face loach Cá chìa vôi Maximum length: 25.0 cm SL 1577 Acentrogobius caninus Gobiidae បែវែងអតិបរ掶:​13.0​ស.ម​TL ຄວາມຍາວສູງສຸດ: 13.0 ຊມ TL ความยาวสูงสุด: 13.0 ซม. TL Chiều dài toàn thân: 13.0 cm TL តែី​ដំឡូង Common name: Tropical sand goby Cá bống chấm Maximum length: 13.0 cm TL 172 Acanthopsoides gracilentus Cobitidae បែវែងអតិបរ掶:​6.0​ស.ម​SL ຄວາມຍາວສູງສຸດ: 6.0 ຊມ SL ความยาวสูงสุด: 6.0 ซม. SL Chiều dài toàn thân: 6.0 cm SL តែីបណ䮏ូលចែកខ䮘ែ ປາຮາກກ້ວຍດ່າງ, ປາຮາກກ້ວຍມອນໄຂ່, ປາຮາກກ້ວຍດ່ອນ รากกล้วยแคระ ฮากกล้วยน้อย Common name: Maximum length: 6.0 cm SL Page 7 Photos of Common Fishes in the Lower Mekong 4003 Acanthopsoides molobrion Cobitidae បែវែងអតិបរ掶:​4.5​ស.ម​TL ຄວາມຍາວສູງສຸດ: 4.5 ຊມ TL ความยาวสูงสุด: 4.5 ซม. TL Chiều dài toàn thân: 4.5 cm TL តែីបណ䮏ូលចែក รากกล้วยแคระ Common name: Maximum length: 4.5 cm TL 4004 Acheilognathus cyanostigma Cyprinidae បែវែងអតិបរ掶:​6.0​ស.ម​TL ຄວາມຍາວສູງສຸດ: 6.0 ຊມ TL ความยาวสูงสุด: 6.0 ซม. TL Chiều dài toàn thân: 6.0 cm TL ​ Common name: Striped bitterling Maximum length: 6.0 cm TL 1067 Acheilognathus deignani Cyprinidae បែវែងអតិបរ掶:​5.2​ស.ម​TL ຄວາມຍາວສູງສຸດ: 5.2 ຊມ TL ความยาวสูงสุด: 5.2 ซม. TL Chiều dài toàn thân: 5.2 cm TL ​ Common name: Maximum length: 5.2 cm TL Page 8 Photos of Common Fishes in the Lower Mekong 1373 Akysis ephippifer Akysidae បែវែងអតិបរ掶:​3.4​ស.ម​TL ຄວາມຍາວສູງສຸດ: 3.4 ຊມ TL ความยาวสูงสุด: 3.4 ซม. TL Chiều dài toàn thân: 3.4 cm TL តែី​កញ䮅ុះភ䮓ំលឿង Common name: Maximum length: 3.4 cm TL 4005 Akysis hendricksoni Akysidae បែវែងអតិបរ掶:​4.9​ស.ម​TL ຄວາມຍາວສູງສຸດ: 4.9 ຊມ TL ความยาวสูงสุด: 4.9 ซม. TL Chiều dài toàn thân: 4.9 cm TL តែី​កញ䮅ុះអង䮀ែមខ䮘ែ Common name: Maximum length: 4.9 cm TL 1381 Akysis varius Akysidae បែវែងអតិបរ掶:​4.0​ស.ម​TL ຄວາມຍາວສູງສຸດ: 4.0 ຊມ TL ความยาวสูงสุด: 4.0 ซม. TL Chiều dài toàn thân: 4.0 cm TL តែី​កញ䮅ុះភ䮓ំ Common name: Maximum length: 4.0 cm TL Page 9 Photos of Common Fishes in the Lower Mekong 1419 Allenbatrachus grunniens Batrachoididae បែវែងអតិបរ掶:​30.0​ស.ម​TL ຄວາມຍາວສູງສຸດ: 30.0 ຊມ TL ความยาวสูงสุด: 30.0 ซม. TL Chiều dài toàn thân: 30.0 cm TL តែី​គង䮂ក់ខ䮘ែ คางคก ย่าปลาดุก อุบ Common name: Grunting toadfish Cá hàm ếch Maximum length: 30.0 cm TL 25 Albulichthys albuloides Cyprinidae បែវែងអតិបរ掶:​30.0​ស.ម​SL ຄວາມຍາວສູງສຸດ: 30.0 ຊມ SL ความยาวสูงสุด: 30.0 ซม. SL Chiều dài toàn thân: 30.0 cm SL តែីឆ䮀ែកទីទុយ ປາພັນໄສ, ປາຕາໂມກ ตะโกกหน้าสั้น Common name: Cá trao tráo Maximum length: 30.0 cm SL 81 Ambastaia sidthimunki Cobitidae បែវែងអតិបរ掶:​5.5​ស.ម​SL ຄວາມຍາວສູງສຸດ: 5.5 ຊມ SL ความยาวสูงสุด: 5.5 ซม. SL Chiều dài toàn thân: 5.5 cm SL ​តែីកញែ䮇ូកតឿ ปลาหมูอารีย์ Common name: Dwarf botia Cá heo khoang Maximum length: 5.5 cm SL Page 10 Photos of Common Fishes in the Lower Mekong 1352 Amblyceps foratum Amblycipitidae បែវែងអតិបរ掶:​8.5​ស.ម​TL ຄວາມຍາວສູງສຸດ: 8.5 ຊມ TL ความยาวสูงสุด: 8.5 ซม.
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    Transactions of the American Fisheries Society ISSN: 0002-8487 (Print) 1548-8659 (Online) Journal homepage: http://www.tandfonline.com/loi/utaf20 Forecasting the Impacts of Silver and Bighead Carp on the Lake Erie Food Web Hongyan Zhang, Edward S. Rutherford, Doran M. Mason, Jason T. Breck, Marion E. Wittmann, Roger M. Cooke, David M. Lodge, John D. Rothlisberger, Xinhua Zhu & Timothy B. Johnson To cite this article: Hongyan Zhang, Edward S. Rutherford, Doran M. Mason, Jason T. Breck, Marion E. Wittmann, Roger M. Cooke, David M. Lodge, John D. Rothlisberger, Xinhua Zhu & Timothy B. Johnson (2016) Forecasting the Impacts of Silver and Bighead Carp on the Lake Erie Food Web, Transactions of the American Fisheries Society, 145:1, 136-162, DOI: 10.1080/00028487.2015.1069211 To link to this article: http://dx.doi.org/10.1080/00028487.2015.1069211 © 2016 The Author(s). Published with View supplementary material license by American Fisheries Society© Hongyan Zhang, Edward S. Rutherford, Doran M. Mason, Jason T. Breck, Marion E. Wittmann, Roger M. Cooke, David M. Lodge, Published online: 30 Dec 2015. Submit your article to this journal John D. Rothlisberger, Xinhua Zhu, Timothy B. Johnson Article views: 1095 View related articles View Crossmark data Full Terms & Conditions of access and use can be found at http://www.tandfonline.com/action/journalInformation?journalCode=utaf20 Download by: [University of Strathclyde] Date: 02 March 2016, At: 02:30 Transactions of the American Fisheries Society 145:136–162, 2016 Published with license by American Fisheries Society 2016 ISSN: 0002-8487 print / 1548-8659 online DOI: 10.1080/00028487.2015.1069211 ARTICLE Forecasting the Impacts of Silver and Bighead Carp on the Lake Erie Food Web Hongyan Zhang* Cooperative Institute for Limnology and Ecosystems Research, School of Natural Resources and Environment, University of Michigan, 4840 South State Road, Ann Arbor, Michigan 48108, USA Edward S.
  • Low-Temperature Tolerances of Tropical Fish with Potential Transgenic Applications In

    Low-Temperature Tolerances of Tropical Fish with Potential Transgenic Applications In

    Canadian Journal of Zoology Low -temperature tolerances of tropical fish with potential transgenic applications in relation to winter water temperatures in Canada Journal: Canadian Journal of Zoology Manuscript ID cjz-2017-0043.R1 Manuscript Type: Article Date Submitted by the Author: 13-Jul-2017 Complete List of Authors: Leggatt, Rosalind; Department of Fisheries and Oceans, CAER Dhillion, Rashpal;Draft University of British Columbia, Zoology; University of Wisconsin Madison, Wisconsin Institute for Discovery - Epigenetics Mimeault, Caroline; Department of Fisheries and Oceans, Aquaculture, Biotechnology and Aquatic Animal Health Branch Johnson, Neville; Department of Fisheries and Oceans, Aquaculture, Biotechnology and Aquatic Animal Health Branch Richards, Jeffrey; University of British Columbia, Department of Zoology Devlin, Robert; Fisheries and Oceans Canada, ANIMAL IMPACT < Discipline, COLD HARDINESS < Discipline, GENETIC Keyword: ENGINEERING < Discipline, TEMPERATURE < Discipline, FRESHWATER < Habitat, TEMPERATE < Habitat, FISH < Taxon https://mc06.manuscriptcentral.com/cjz-pubs Page 1 of 35 Canadian Journal of Zoology 1 1 Low-temperature tolerances of tropical fish with potential transgenic applications in 2 relation to winter water temperatures in Canada 3 R.A. Leggatt, R.S. Dhillon, C. Mimeault, N. Johnson, J.G. Richards, R.H. Devlin 4 5 Corresponding author: R.A. Leggatt: Centre for Aquaculture and the Environment, Centre for 6 Biotechnology and Regulatory Research, Fisheries and Oceans Canada, 4160 Marine 7 Drive, West Vancouver, BC, V7V 1N6, Canada, Email: [email protected], 8 Tel: +1-604-666-7909, Fax: +1-604-666-3474 9 R.S. Dhillon 1: Department of Zoology, University of British Columbia, 4200-6270 University 10 Blvd. Vancouver, BC, V6T 1Z4, Canada, [email protected] 11 C.
  • Table S1.Xlsx

    Table S1.Xlsx

    Bone type Bone type Taxonomy Order/series Family Valid binomial Outdated binomial Notes Reference(s) (skeletal bone) (scales) Actinopterygii Incertae sedis Incertae sedis Incertae sedis †Birgeria stensioei cellular this study †Birgeria groenlandica cellular Ørvig, 1978 †Eurynotus crenatus cellular Goodrich, 1907; Schultze, 2016 †Mimipiscis toombsi †Mimia toombsi cellular Richter & Smith, 1995 †Moythomasia sp. cellular cellular Sire et al., 2009; Schultze, 2016 †Cheirolepidiformes †Cheirolepididae †Cheirolepis canadensis cellular cellular Goodrich, 1907; Sire et al., 2009; Zylberberg et al., 2016; Meunier et al. 2018a; this study Cladistia Polypteriformes Polypteridae †Bawitius sp. cellular Meunier et al., 2016 †Dajetella sudamericana cellular cellular Gayet & Meunier, 1992 Erpetoichthys calabaricus Calamoichthys sp. cellular Moss, 1961a; this study †Pollia suarezi cellular cellular Meunier & Gayet, 1996 Polypterus bichir cellular cellular Kölliker, 1859; Stéphan, 1900; Goodrich, 1907; Ørvig, 1978 Polypterus delhezi cellular this study Polypterus ornatipinnis cellular Totland et al., 2011 Polypterus senegalus cellular Sire et al., 2009 Polypterus sp. cellular Moss, 1961a †Scanilepis sp. cellular Sire et al., 2009 †Scanilepis dubia cellular cellular Ørvig, 1978 †Saurichthyiformes †Saurichthyidae †Saurichthys sp. cellular Scheyer et al., 2014 Chondrostei †Chondrosteiformes †Chondrosteidae †Chondrosteus acipenseroides cellular this study Acipenseriformes Acipenseridae Acipenser baerii cellular Leprévost et al., 2017 Acipenser gueldenstaedtii
  • Fischen Entwickeln Und Bereits Relativ Weit Entwickelt Den Mutterleib Verlassen

    Fischen Entwickeln Und Bereits Relativ Weit Entwickelt Den Mutterleib Verlassen

    Aulonocara Mix Malawi Kaiserbuntbarsch Systematik: Aquarium: Aquarium: ab 200 l PH: 7.5 - 8.5 GH: 5-20 °dGH Temperatur: 23 - 28 °C Über Aulonocara Mix: Endgröße: bis zu 12 cm Futter: Lebend-, Flocken- & Frostfutter Haltung: Harem Heimat: Malawisee Information: Aulonocaras stammen endemisch aus dem Malawisee. Die farbenprächtigen Buntbarsche ernähren sich in der Natur von Lebendfutter, nehmen im Aquarium aber schnell handelsübliches Futter, das aus Lebend- und Frostfutter, aber auch aus Flockenfutter und Sticks bestehen kann, an. Das Aquarium sollte Steinaufbauten, die Höhlen als Rückzugsgebiete anbieten und einen Sandboden aufweisen. Die Zucht im Aquarium ist einfach. Die Eier werden in einer Mulde im Sand abgelegt und dort befruchtet. Bei Aulonocaras handelt es sich um Maulbrüter, bei denen sich das Weibchen um die Aufzucht kümmert. Service-Info: Dieses Caresheet ist ein kostenloser Service von: Aquarienfreunde Bad Königshofen e.V. Am Kurzentrum 1 97631 Bad Königshofen Telefon: 0176 57 50 73 86 www.aquarienfreundebadkoenigshofen.de Diese Informationen dienen lediglich als Anhaltspunkte. Sie erheben keinen Anspruch auf Vollständigkeit oder Fehlerfreiheit und können keine Fachliteratur ersetzen. Informieren Sie sich zusätzlich z.B. durch ein Fachbuch. Bei Krankheitssymptomen nehmen Sie unbedingt Kontakt zu einem Tierarzt auf. Sollten Sie noch Fragen haben, helfen wir, das Team von Aquarienfreunde Bad Königshofen e.V., Ihnen gerne weiter. Aulonocara Mix (101082) - Caresheet erstellt durch www.hippocampus-bildarchiv.de Poecilia sphenops BLACK Spitzkopf-Molly Systematik: Aquarium: Aquarium: ab 80 l PH: 7.2 - 8.2 GH: 10 - 30 °dGH Temperatur: 22 - 28 °C Über Poecilia sphenops BLACK: Lebenserwartung: ca. 5 Jahre Endgröße: bis zu 10 cm Futter: Grün-, Lebend- & Flockenfutter, Algen Haltung: Gruppe Heimat: Südamerika, Mittelamerika Information: Poecilia sphenops gibt es in vielen Zuchtformen und kommt ursprünglich in Texas, Mexico bis Kolumbien vor.
  • Fisheries and Aquaculture

    Fisheries and Aquaculture

    Ministry of Agriculture, Livestock and Irrigation 7. GOVERNMENT OF THE REPUBLIC OF THE UNION OF MYANMAR Formulation and Operationalization of National Action Plan for Poverty Alleviation and Rural Development through Agriculture (NAPA) Working Paper - 4 FISHERIES AND AQUACULTURE Yangon, June 2016 5. MYANMAR: National Action Plan for Agriculture (NAPA) Working Paper 4: Fisheries and Aquaculture TABLE OF CONTENTS ACRONYMS 3 1. INTRODUCTION 4 2. BACKGROUND 5 2.1. Strategic value of the Myanmar fisheries industry 5 3. SPECIFIC AREAS/ASPECTS OF THEMATIC AREA UNDER REVIEW 7 3.1. Marine capture fisheries 7 3.2. Inland capture fisheries 17 3.3. Leasable fisheries 22 3.4 Aquaculture 30 4. DETAILED DISCUSSIONS ON EACH CULTURE SYSTEM 30 4.1. Freshwater aquaculture 30 4.2. Brackishwater aquaculture 36 4.3. Postharvest processing 38 5. INSTITUTIONAL ENVIRONMENT 42 5.1. Management institutions 42 5.2. Human resource development 42 5.3. Policy 42 6. KEY OPPORTUNITIES AND CONSTRAINTS TO SECTOR DEVELOPMENT 44 6.1. Marine fisheries 44 6.2. Inland fisheries 44 6.3. Leasable fisheries 45 6.4. Aquaculture 45 6.5. Departmental emphasis on management 47 6.6. Institutional fragmentation 48 6.7. Human resource development infrastructure is poor 49 6.8. Extension training 50 6.9. Fisheries academies 50 6.10. Academia 50 7. KEY OPPORTUNITIES FOR SECTOR DEVELOPMENT 52 i MYANMAR: National Action Plan for Agriculture (NAPA) Working Paper 4: Fisheries and Aquaculture 7.1. Empowerment of fishing communities in marine protected areas (mpas) 52 7.2. Reduction of postharvest spoilage 52 7.3. Expansion of pond culture 52 7.4.
  • Biological Control of Invasive Fish and Aquatic Invertebrates: a Brief Review with Case Studies

    Biological Control of Invasive Fish and Aquatic Invertebrates: a Brief Review with Case Studies

    Management of Biological Invasions (2019) Volume 10, Issue 2: 227–254 CORRECTED PROOF Review Biological control of invasive fish and aquatic invertebrates: a brief review with case studies Przemyslaw G. Bajer1,*, Ratna Ghosal1,+, Maciej Maselko2, Michael J. Smanski2, Joseph D. Lechelt1, Gretchen Hansen3 and Matthew S. Kornis4 1University of Minnesota, Minnesota Aquatic Invasive Species Research Center, Dept. of Fisheries, Wildlife, and Conservation Biology, 135 Skok Hall, 2003 Upper Buford Circle, St. Paul, MN 55108, USA 2University of Minnesota, Dept. of Biochemistry, Molecular Biology and Biophysics, 1479 Gortner Ave., Room 344, St. Paul MN 55108, USA 3Minnesota Department of Natural Resources, 500 Lafayette Road, St. Paul, MN 55155, USA 4U.S. Fish and Wildlife Service, Great Lakes Fish Tag and Recovery Laboratory, Green Bay Fish and Wildlife Conservation Office, 2661 Scott Tower Drive, New Franken, WI 54229, USA +Current Address: Biological and Life Sciences, School of Arts and Sciences, Ahmedabad University, Gujarat 380009, India Author e-mails: [email protected] (PGB), [email protected] (RG), [email protected] (MM), [email protected] (MJS), [email protected] (JDL), [email protected] (GH), [email protected] (MSK) *Corresponding author Citation: Bajer PG, Ghosal R, Maselko M, Smanski MJ, Lechelt JD, Hansen G, Abstract Kornis MS (2019) Biological control of invasive fish and aquatic invertebrates: a We review various applications of biocontrol for invasive fish and aquatic brief review with case studies. invertebrates. We adopt a broader definition of biocontrol that includes traditional Management of Biological Invasions 10(2): methods like predation and physical removal (biocontrol by humans), and modern 227–254, https://doi.org/10.3391/mbi.2019.
  • Analysis of Genome Survey Sequences and SSR Marker Development for Siamese Mud Carp, Henicorhynchus Siamensis, Using 454 Pyrosequencing

    Analysis of Genome Survey Sequences and SSR Marker Development for Siamese Mud Carp, Henicorhynchus Siamensis, Using 454 Pyrosequencing

    Int. J. Mol. Sci. 2012, 13, 10807-10827; doi:10.3390/ijms130910807 OPEN ACCESS International Journal of Molecular Sciences ISSN 1422-0067 www.mdpi.com/journal/ijms Article Analysis of Genome Survey Sequences and SSR Marker Development for Siamese Mud Carp, Henicorhynchus siamensis, Using 454 Pyrosequencing Feni Iranawati *,†, Hyungtaek Jung *,†, Vincent Chand, David A. Hurwood and Peter B. Mather Earth, Environmental and Biological Sciences, Science and Engineering Faculty, Queensland University of Technology, Brisbane, Queensland 4000, Australia; E-Mails: [email protected] (V.C.); [email protected] (D.A.H.); [email protected] (P.B.M.) † These authors contributed equally to this work. * Authors to whom correspondence should be addressed; E-Mails: [email protected] (F.I.); [email protected] (H.J.); Tel.: +61-7-3138-4152 (F.I. & H.J.); Fax: +61-7-3138-2330 (F.I. & H.J.). Received: 5 July 2012; in revised form: 30 July 2012 / Accepted: 24 August 2012 / Published: 29 August 2012 Abstract: Siamese mud carp (Henichorynchus siamensis) is a freshwater teleost of high economic importance in the Mekong River Basin. However, genetic data relevant for delineating wild stocks for management purposes currently are limited for this species. Here, we used 454 pyrosequencing to generate a partial genome survey sequence (GSS) dataset to develop simple sequence repeat (SSR) markers from H. siamensis genomic DNA. Data generated included a total of 65,954 sequence reads with average length of 264 nucleotides, of which 2.79% contain SSR motifs. Based on GSS-BLASTx results, 10.5% of contigs and 8.1% singletons possessed significant similarity (E value < 10–5) with the majority matching well to reported fish sequences.