DOCSLIB.ORG

Agilent RFLP Decoder

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Agilent RFLP Decoder Agilent Reference Database AB 1 Species Common name 2 Clupea harengus Atlantic herring 3 Dicentrarchus labrax European sea bass 4 Gadus macrocephalus Pacific cod 5 Gadus morhua Atlantic cod 6 Glyptocephalus cynoglossus Witch 7 Hippoglossus stenolepis Pacific halibut 8 Kathetostoma giganteum Giant stargazer 9 Katsuwonus pelamis Skipjack tuna 10 Lophiodes caulinaris Spottedtail angler 11 Lophius americanus Monkfish/American angler 12 Lophius budegassa Monkfish/Black-bellied angler 13 Lophius piscatorius Monkfish/Anglerfish 14 Lophius vaillanti Shortspine African angler 15 Lophius vomerinus Cape monkfish/Cape anglerfish 16 Macruronus novaezelandiae New Zealand hoki 17 Melanogrammus aeglefinus Haddock 18 Merlangius merlangus Whiting 19 Merluccius hubbsi Argentine hake 20 Merluccius merluccius European hake 21 Merluccius paradoxus Deep water cape hake 22 Microstomus kitt Lemon sole 23 Molva molva Ling 24 Mullus surmuletus Striped red mullet 25 Oncorhynchus clarkii clarkii Cut-throat trout 26 Oncorhynchus gorbuscha Pink/Humpback salmon 27 Oncorhynchus keta Keta/Chum salmon 28 Oncorhynchus kisutch Coho/Silver salmon 29 Oncorhynchus masou masou Cherry salmon 30 Oncorhynchus nerka Red/Sockeye salmon 31 Oncorhynchus tshawytscha Chinook/King/Pacific salmon 32 Pangasianodon hypophthalmus Pangasius/Basa/River cobbler 33 Platichthys flesus Flounder 34 Pleuronectes platessa European plaice 35 Pollachius pollachius Pollock 36 Pollachius virens Coley/Saithe 37 Psetta maxima Turbot 38 Reinharditius hippoglossoides Greenland halibut 39 Salmo salar Atlantic salmon 40 Sarda sarda Atlantic bonito 41 Sardina pilchardus European pilchard 42 Solea solea Common/Dover sole 43 Sparus aurata Gilthead bream 44 Spondyliosoma cantharus Black sea bream 45 Theragra chalcogramma Alaska/Walleye pollock 46 Thunnus alalunga Albacore tuna 47 Thunnus albacares Yellowfin tuna 48 Thunnus obesus Bigeye tuna 49 Xiphias gladius Swordfish 50 Zeus faber John Dory Agilent Theoretical Database A B 1 Species Common name 2 Abudefduf luridus Canary damsel 3 Agonus cataphractus Hooknose 4 Alosa alosa Allis shad 5 Alosa fallax Twaite shad 6 Aluterus scriptus Scrawled filefish 7 Anarhichas lupus Wolf-fish 8 Anarhichas minor Spotted wolffish 9 Anguilla anguilla European eel 10 Aphanopus carbo Black scabbardfish 11 Argentina sphyraena Argentine 12 Argyrosomus regius Meagre 13 Aspitrigla cuculus East Atlantic red gurnard 14 Atherina boyeri Big-scale sand smelt 15 Atherina presbyter Sand smelt 16 Auxis rochei rochei Bullet tuna 17 Balistes capriscus Grey triggerfish 18 Belone belone Garpike 19 Beryx splendens Splendid Alfonsino 20 Boops boops Bogue 21 Brama brama Atlantic pomfret 22 Brosme brosme Tusk 23 Brotula barbata Bearded brotula 24 Buglossidium luteum Solenette 25 Caranx crysos Blue runner 26 Centrolophus niger Blackfish 27 Cephalopholis taeniops African hind 28 Chelidonichthys lucernus Tub gurnard 29 Chelidonichthys obscurus Longfin gurnard 30 Chelon labrosus Thicklip grey mullet 31 Chlorophthalmus agassizi Shortnose greeneye 32 Chromis limbata Azores chromis 33 Ciliata septentrionalis Northern rockling 34 Citharus linguatula Atlantic spotted flounder 35 Clupea harengus Atlantic herring 36 Coryphaena equiselis Pompano dolphinfish 37 Coryphaena hippurus Common dolphinfish 38 Cyclopterus lumpus Lumpsucker 39 Dactylopterus volitans Flying gurnard 40 Dentex dentex Common dentex 41 Dentex gibbosus Pink dentex 42 Dentex macrophthalmus Large-eye dentex 43 Dicentrarchus labrax European seabass 44 Dicologlossa cuneata Wedge sole 45 Diplodus annularis Annular seabream 46 Diplodus cervinus cervinus Zebra seabream 47 Diplodus puntazzo Sharpsnout seabream 48 Diplodus sargus White seabream 49 Diplodus vulgaris Common two-banded seabream Agilent Theoretical Database A B 50 Echiichthys vipera Lesser weever 51 Enchelycore anatina Fangtooth moray 52 Enchelyopus cimbrius Fourbeard rockling 53 Engraulis encrasicolus European anchovy 54 Epinephelus caninus Dogtooth grouper 55 Epinephelus costae Goldblotch grouper 56 Epinephelus marginatus Dusky grouper 57 Epinephelus tauvina Greasy grouper 58 Erythrocles monodi Atlantic rubyfish 59 Euthynnus alletteratus Little tunny 60 Eutrigla gurnardus Grey gurnard 61 Gadiculus argenteus Silvery cod 62 Gadus morhua Atlantic cod 63 Gaidropsarus biscayensis Mediterranean bigeye rockling 64 Gaidropsarus mediterraneus Shore rockling 65 Glyptocephalus cynoglossus Witch 66 Gymnothorax afer Dark moray 67 Helicolenus dactylopterus Blackbellynose fish 68 Heteropriacanthus cruentatus Glasseye 69 Hippoglossoides platessoides American plaice 70 Hippoglossus hippoglossus Atlantic halibut 71 Hyperoplus lanceolatus Great sandeel 72 Katsuwonus pelamis Skipjack tuna 73 Labrus bergylta Ballan wrasse 74 Lepidorhombus boscii Fourspotted megrim 75 Lepidorhombus whiffiagonis Megrim 76 Lepidotrigla cavillone Large-scaled gurnard 77 Lichia amia Leerfish 78 Limanda limanda Dab 79 Liparis liparis liparis Striped seasnail 80 Liparis montagui Montagu's sea snail 81 Lithognathus mormyrus Striped seabream 82 Liza aurata Golden grey mullet 83 Liza ramado Thinlip mullet 84 Lophius budegassa Black-bellied angler 85 Lophius piscatorius Angler 86 Makaira nigricans Atlantic blue marlin 87 Melanogrammus aeglefinus Haddock 88 Merlangius merlangus Whiting 89 Merluccius australis Southern hake 90 Merluccius capensis Shallow-water Cape hake 91 Merluccius merluccius European hake 92 Merluccius polli Benguela hake 93 Microchirus azevia Llenguado bord 94 Microchirus variegatus Thickback sole 95 Micromesistius poutassou Blue whiting 96 Microstomus kitt Lemon sole 97 Molva molva Ling 98 Mugil cephalus Flathead mullet Agilent Theoretical Database A B 99 Mullus barbatus Red mullet 100 Mullus surmuletus Striped red mullet 101 Muraena augusti Morena 102 Muraena robusta Stout moray 103 Myoxocephalus scorpius Shorthorn sculpin 104 Oblada melanura Saddled seabream 105 Osmerus eperlanus European smelt 106 Pagellus acarne Axillary seabream 107 Pagellus bellottii Red pandora 108 Pagellus bogaraveo Blackspot seabream 109 Pagellus erythrinus Common pandora 110 Pagrus pagrus Common seabream 111 Pegusa cadenati Cadenat's sole 112 Pegusa lascaris Sand sole 113 Phrynorhombus norvegicus Norwegian topknot 114 Phycis blennoides Greater forkbeard 115 Phycis phycis Forkbeard 116 Platichthys flesus Flounder 117 Pleuronectes platessa European plaice 118 Pollachius pollachius Pollack 119 Pollachius virens Saithe 120 Polyprion americanus Wreckfish 121 Pomadasys incisus Bastard grunt 122 Pomadasys perotaei Parrot grunt 123 Pomatomus saltatrix Bluefish 124 Psetta maxima Turbot 125 Pseudocaranx dentex White trevally 126 Pseudotolithus elongatus Bobo croaker 127 Ranzania laevis Slender sunfish 128 Ruvettus pretiosus Oilfish 129 Salmo salar Atlantic salmon 130 Salmo trutta trutta Sea trout 131 Sarda sarda Atlantic bonito 132 Sardina pilchardus European pilchard 133 Sardinella aurita Round sardinella 134 Sardinella maderensis Madeiran sardinella 135 Sarpa salpa Salema 136 Scarus hoefleri Guinean parrotfish 137 Schedophilus ovalis Imperial blackfish 138 Schedophilus velaini African barrelfish 139 Scomber colias Atlantic chub mackerel 140 Scomber scombrus Atlantic mackerel 141 Scophthalmus rhombus Brill 142 Scorpaena elongata Slender rockfish 143 Scorpaena porcus Black scorpionfish 144 Scorpaena scrofa Largescaled scorpionfish 145 Sebastes mentella Deepwater redfish 146 Sebastes viviparus Norway redfish 147 Seriola carpenteri Guinean amberjack Agilent Theoretical Database A B 148 Seriola dumerili Greater amberjack 149 Seriola fasciata Lesser amberjack 150 Seriola rivoliana Almaco jack 151 Serranus atricauda Blacktail comber 152 Serranus cabrilla Comber 153 Serranus hepatus Brown comber 154 Serranus scriba Painted comber 155 Solea senegalensis Senegalese sole 156 Solea solea Common sole 157 Sparisoma rubripinne Redfin parrotfish 158 Sparus aurata Gilthead seabream 159 Sphoeroides pachygaster Blunthead puffer 160 Sphyraena sphyraena European barracuda 161 Spicara maena Blotched picarel 162 Spicara smaris Picarel 163 Spondyliosoma cantharus Black seabream 164 Sprattus sprattus European sprat 165 Synaptura lusitanica lusitanica Portuguese sole 166 Synapturichthys kleinii Klein's sole 167 Taractichthys longipinnis Bigscale pomfret 168 Taurulus bubalis Longspined bullhead 169 Thunnus alalunga Albacore 170 Thunnus albacares Yellowfin tuna 171 Thunnus obesus Bigeye tuna 172 Thunnus thynnus Northern bluefin tuna 173 Trachinus draco Greater weever 174 Trachinus radiatus Starry weever 175 Trachurus mediterraneus Mediterranean horse mackerel 176 Trachurus picturatus Blue jack mackerel 177 Trachurus trachurus Atlantic horse mackerel 178 Trigla lyra Piper gurnard 179 Trigloporus lastoviza Streaked gurnard 180 Triglopsis quadricornis Fourhorn sculpin 181 Trisopterus esmarkii Norway pout 182 Trisopterus luscus Pouting 183 Trisopterus minutus Poor cod 184 Tylosurus acus acus Agujon Needlefish 185 Umbrina canariensis Canary drum 186 Uranoscopus scaber Atlantic stargazer 187 Xiphias gladius Swordfish 188 Xyrichthys novacula Pearly razorfish 189 Zeus faber John dory 190 Zoarces viviparus Viviparous blenny.
Load more

Recommended publications
  • FISH LIST WISH LIST: a Case for Updating the Canadian Government’S Guidance for Common Names on Seafood
    FISH LIST WISH LIST: A case for updating the Canadian government’s guidance for common names on seafood Authors: Christina Callegari, Scott Wallace, Sarah Foster and Liane Arness ISBN: 978-1-988424-60-6 © SeaChoice November 2020 TABLE OF CONTENTS GLOSSARY . 3 EXECUTIVE SUMMARY . 4 Findings . 5 Recommendations . 6 INTRODUCTION . 7 APPROACH . 8 Identification of Canadian-caught species . 9 Data processing . 9 REPORT STRUCTURE . 10 SECTION A: COMMON AND OVERLAPPING NAMES . 10 Introduction . 10 Methodology . 10 Results . 11 Snapper/rockfish/Pacific snapper/rosefish/redfish . 12 Sole/flounder . 14 Shrimp/prawn . 15 Shark/dogfish . 15 Why it matters . 15 Recommendations . 16 SECTION B: CANADIAN-CAUGHT SPECIES OF HIGHEST CONCERN . 17 Introduction . 17 Methodology . 18 Results . 20 Commonly mislabelled species . 20 Species with sustainability concerns . 21 Species linked to human health concerns . 23 Species listed under the U .S . Seafood Import Monitoring Program . 25 Combined impact assessment . 26 Why it matters . 28 Recommendations . 28 SECTION C: MISSING SPECIES, MISSING ENGLISH AND FRENCH COMMON NAMES AND GENUS-LEVEL ENTRIES . 31 Introduction . 31 Missing species and outdated scientific names . 31 Scientific names without English or French CFIA common names . 32 Genus-level entries . 33 Why it matters . 34 Recommendations . 34 CONCLUSION . 35 REFERENCES . 36 APPENDIX . 39 Appendix A . 39 Appendix B . 39 FISH LIST WISH LIST: A case for updating the Canadian government’s guidance for common names on seafood 2 GLOSSARY The terms below are defined to aid in comprehension of this report. Common name — Although species are given a standard Scientific name — The taxonomic (Latin) name for a species. common name that is readily used by the scientific In nomenclature, every scientific name consists of two parts, community, industry has adopted other widely used names the genus and the specific epithet, which is used to identify for species sold in the marketplace.
    [Show full text]
  • Fisheries Centre
    Fisheries Centre The University of British Columbia Working Paper Series Working Paper #2015 - 80 Reconstruction of Syria’s fisheries catches from 1950-2010: Signs of overexploitation Aylin Ulman, Adib Saad, Kyrstn Zylich, Daniel Pauly and Dirk Zeller Year: 2015 Email: [email protected] This working paper is made available by the Fisheries Centre, University of British Columbia, Vancouver, BC, V6T 1Z4, Canada. Reconstruction of Syria’s fisheries catches from 1950-2010: Signs of overexploitation Aylin Ulmana, Adib Saadb, Kyrstn Zylicha, Daniel Paulya, Dirk Zellera a Sea Around Us, Fisheries Centre, University of British Columbia, 2202 Main Mall, Vancouver, BC, V6T 1Z4, Canada b President of Syrian National Committee for Oceanography, Tishreen University, Faculty of Agriculture, P.O. BOX; 1408, Lattakia, Syria [email protected] (corresponding author); [email protected]; [email protected]; [email protected]; [email protected] ABSTRACT Syria’s total marine fisheries catches were estimated for the 1950-2010 time period using a reconstruction approach which accounted for all fisheries removals, including unreported commercial landings, discards, and recreational and subsistence catches. All unreported estimates were added to the official data, as reported by the Syrian Arab Republic to the United Nation’s Food and Agriculture Organization (FAO). Total reconstructed catch for 1950-2010 was around 170,000 t, which is 78% more than the amount reported by Syria to the FAO as their national catch. The unreported components added over 74,000 t of unreported catches, of which 38,600 t were artisanal landings, 16,000 t industrial landings, over 4,000 t recreational catches, 3,000 t subsistence catches and around 12,000 t were discards.
    [Show full text]
  • Undesirable Substances in Seafood Products – Results from Monitoring Activities in 2006
    Undesirable substances in seafood products – Results from monitoring activities in 2006 Ásta Margrét Ásmundsdóttir Vordís Baldursdóttir Sasan Rabieh Helga Gunnlaugsdóttir Matvælaöryggi Skýrsla Matís 17-08 Júlí 2008 ISSN 1670-7192 Titill / Title Undesirable substances in seafood products– results from the monitoring activities in 2006 Höfundar / Authors Ásta Margrét Ásmundsdóttir, Vordís Baldursdóttir, Sasan Rabieh, Helga Gunnlaugsdóttir Skýrsla / Report no. 17 - 08 Útgáfudagur / Date: Júlí 2008 Verknr. / project no. 1687 Styrktaraðilar / funding: Ministry of fisheries Ágrip á íslensku: Árið 2003 hófst, að frumkvæði Sjávarútvegsráðuneytisins, vöktun á óæskilegum efnum í sjávarafurðum, bæði afurðum sem ætlaðar eru til manneldis sem og afurðum lýsis- og mjöliðnaðar. Tilgangurinn með vöktuninni er að meta ástand íslenskra sjávarafurða með tilliti til magns aðskotaefna. Gögnin sem safnað er í vöktunarverkefninu verða einnig notuð í áhættumati og til að hafa áhrif á setningu hámarksgilda óæskilegra efna t.d í Evrópu. Umfjöllun um aðskotaefni í sjávarafurðum, bæði í almennum fjölmiðlum og í vísindaritum, hefur margoft krafist viðbragða íslenskra stjórnvalda. Nauðsynlegt er að hafa til taks vísindaniðurstöður sem sýna fram á raunverulegt ástand íslenskra sjávarafurða til þess að koma í veg fyrir tjón sem af slíkri umfjöllun getur hlotist. Ennfremur eru mörk aðskotaefna í sífelldri endurskoðun og er mikilvægt fyrir Íslendinga að taka þátt í slíkri endurskoðun og styðja mál sitt með vísindagögnum. Þetta sýnir mikilvægi þess að regluleg vöktun fari fram og að á Íslandi séu stundaðar sjálfstæðar rannsóknir á eins mikilvægum málaflokki og mengun sjávarafurða er. Þessi skýrsla er samantekt niðurstaðna vöktunarinnar árið 2006. Það er langtímamarkmið að meta ástand íslenskra sjávarafurða m.t.t. magns óæskilegra efna. Þessu markmiði verður einungis náð með sívirkri vöktun í langan tíma.
    [Show full text]
  • Trigloporus Lastoviza, Bonnaterre, 1788
    International Journal of Fisheries and Aquatic Studies 2015; 3(1): 75-80 ISSN: 2347-5129 (ICV-Poland) Impact Value: 5.62 Age, growth and mortality of Streaked Gurnard (GIF) Impact Factor: 0.352 IJFAS 2015; 3(1): 75-80 © 2015 IJFAS (Trigloporus lastoviza, Bonnaterre, 1788) in the Egyptian www.fisheriesjournal.com Mediterranean waters off Alexandria Received: 11-06-2015 Accepted: 13-07-2015 Sabry S El-Serafy, Fahmy I El-Gammal, Sahar F Mehanna, Nasr-Allah H Sabry S El-Serafy Zoology Department, Faculty of Abdel- Hameid, Elsayed FE Farrag Science, Benha University. Abstract Fahmy I El-Gammal Age, growth and mortality of Streaked Gurnard Trigloporus lastoviza from the Egyptian Mediterranean Fisheries Department, National waters off Alexandria were investigated between the period from July 2009 and August 2010. The Institute of Oceanography and observed maximum age was 4 years for both sexes based on otolith readings. The length-weight Fisheries. relationship was estimated as W=0.0088L3.0694 (r=0.9854); W=0.0085L3.0836 (r=0.9803) and W=0.0106L3.0058 (r=0.9853) for males, females and combined sexes respectively. The von Bertalanffy Sahar F Mehanna Fisheries Department, National growth equations for length were: Lt=27.17 (1-e-0.3466 (t+1.01), Lt = 27.0 (1 - e -0.3703 (t + 0.93) and Institute of Oceanography and Lt = 26.92 (1 - e -0.3699 (t + 0.92) for males, females and combined sexes respectively. The growth Fisheries. performance index value (Φ) was calculated as 2.41, 2.43 and 2.43 for males, females and combined sexes respectively.
    [Show full text]
  • The Open Access Israeli Journal of Aquaculture – Bamidgeh
    The Open Access Israeli Journal of Aquaculture – Bamidgeh As from January 2010 The Israeli Journal of Aquaculture - Bamidgeh (IJA) will be published exclusively as an on-line Open Access (OA) quarterly accessible by all AquacultureHub (http://www.aquaculturehub.org) members and registered individuals and institutions. Please visit our website (http://siamb.org.il) for free registration form, further information and instructions. This transformation from a subscription printed version to an on-line OA journal, aims at supporting the concept that scientific peer-reviewed publications should be made available to all, including those with limited resources. The OA IJA does not enforce author or subscription fees and will endeavor to obtain alternative sources of income to support this policy for as long as possible. Editor-in-Chief Published under auspices of Dan Mires The Society of Israeli Aquaculture and Marine Biotechnology (SIAMB), Editorial Board University of HawaiɄɄɄi at Mānoa Library & Rina Chakrabarti Aqua Research Lab, Dept. of Zoology, University of HawaiɄɄɄi at Mānoa University of Delhi, India Aquaculture Program Angelo Colorni National Center for Mariculture, IOLR in association with Eilat, Israel AquacultureHub http://www.aquaculturehub.org Daniel Golani The Hebrew University of Jerusalem Jerusalem, Israel Hillel Gordin Kibbutz Yotveta, Arava, Israel Sheenan Harpaz Agricultural Research Organization Beit Dagan, Gideon Hulata Agricultural Research Organization Beit Dagan, George Wm. Kissil National Center for Mariculture, IOLR, Eilat, Israel Ingrid Lupatsch Swansea University, Singleton Park, Swansea, UK Spencer Malecha Dept. of Human Nutrition, Food & Animal Sciences, CTAHR, University of Hawaii Constantinos Hellenic Center for Marine Research, ISSN 0792 - 156X Mylonas Crete, Greece Amos Tandler National Center for Mariculture, IOLR Israeli Journal of Aquaculture - BAMIGDEH.
    [Show full text]
  • Molecular Phylogeny of Mugilidae (Teleostei: Perciformes) D
    The Open Marine Biology Journal, 2008, 2, 29-37 29 Molecular Phylogeny of Mugilidae (Teleostei: Perciformes) D. Aurelle1, R.-M. Barthelemy*,2, J.-P. Quignard3, M. Trabelsi4 and E. Faure2 1UMR 6540 DIMAR, Station Marine d'Endoume, Rue de la Batterie des Lions, 13007 Marseille, France 2LATP, UMR 6632, Evolution Biologique et Modélisation, case 18, Université de Provence, 3 Place Victor Hugo, 13331 Marseille Cedex 3, France 3Laboratoire d’Ichtyologie, Université Montpellier II, 34095 Montpellier, France 4Unité de Biologie marine, Faculté des Sciences, Campus Universitaire, 2092 Manar II, Tunis, Tunisie Abstract: Molecular phylogenetic relationships among five genera and twelve Mugilidae species were investigated us- ing published mitochondrial cytochrome b and 16S rDNA sequences. These analyses suggested the paraphyly of the genus Liza and also that the separation of Liza, Chelon and Oedalechilus might be unnatural. Moreover, all the species of the genus Mugil plus orthologs of Crenimugil crenilabis clustered together; however, molecular analyses suggested possible introgressions in Mugil cephalus and moreover, that fish identified as Mugil curema could correspond to two different species as already shown by karyotypic analyses. Keywords: Mugilidae, grey mullets, mitochondrial DNA, Mugil cephalus, introgression. INTRODUCTION We have focused this study on Mugilid species for which both cytochrome b (cytb) and 16S rDNA mtDNA sequences The family Mugilidae, commonly referred to as grey have been already published. Their geographic distributions mullets, includes several species which have a worldwide are briefly presented here. Oedalechilus labeo is limited to distribution; they inhabit marine, estuarine, and freshwater the Mediterranean Sea and the Moroccan Atlantic coast, environments at all latitudes except the Polar Regions [1]; a whereas, Liza and Chelon inhabit also the Eastern Atlantic few spend all their lives in freshwater [2].
    [Show full text]
  • APPENDIX M Common and Scientific Species Names
    Bay du Nord Development Project Environmental Impact Statement APPENDIX M Common and Scientific Species Names Bay du Nord Development Project Environmental Impact Statement Common and Species Names Common Name Scientific Name Fish Abyssal Skate Bathyraja abyssicola Acadian Redfish Sebastes fasciatus Albacore Tuna Thunnus alalunga Alewife (or Gaspereau) Alosa pseudoharengus Alfonsino Beryx decadactylus American Eel Anguilla rostrata American Plaice Hippoglossoides platessoides American Shad Alosa sapidissima Anchovy Engraulidae (F) Arctic Char (or Charr) Salvelinus alpinus Arctic Cod Boreogadus saida Atlantic Bluefin Tuna Thunnus thynnus Atlantic Cod Gadus morhua Atlantic Halibut Hippoglossus hippoglossus Atlantic Mackerel Scomber scombrus Atlantic Salmon (landlocked: Ouananiche) Salmo salar Atlantic Saury Scomberesox saurus Atlantic Silverside Menidia menidia Atlantic Sturgeon Acipenser oxyrhynchus oxyrhynchus Atlantic Wreckfish Polyprion americanus Barndoor Skate Dipturus laevis Basking Shark Cetorhinus maximus Bigeye Tuna Thunnus obesus Black Dogfish Centroscyllium fabricii Blue Hake Antimora rostrata Blue Marlin Makaira nigricans Blue Runner Caranx crysos Blue Shark Prionace glauca Blueback Herring Alosa aestivalis Boa Dragonfish Stomias boa ferox Brook Trout Salvelinus fontinalis Brown Bullhead Catfish Ameiurus nebulosus Burbot Lota lota Capelin Mallotus villosus Cardinal Fish Apogonidae (F) Chain Pickerel Esox niger Common Grenadier Nezumia bairdii Common Lumpfish Cyclopterus lumpus Common Thresher Shark Alopias vulpinus Crucian Carp
    [Show full text]
  • PCB Bioaccumulation in Three Mullet Species—A Comparison Study
    Ecotoxicology and Environmental Safety 94 (2013) 147–152 Contents lists available at SciVerse ScienceDirect Ecotoxicology and Environmental Safety journal homepage: www.elsevier.com/locate/ecoenv PCB bioaccumulation in three mullet species—A comparison study Joana Baptista a,n, Pedro Pato b,c, Sílvia Tavares a, Armando C. Duarte b, Miguel A. Pardal a a CFE, Center for Functional Ecology, Department of Life Sciences, University of Coimbra, Apartado 3046, 3001-401 Coimbra, Portugal b Department of Chemistry & Center for Environmental and Marine Studies (CESAM), University of Aveiro, 3810-193 Aveiro, Portugal c School of Technology and Management, Polytechnic of Viana do Castelo, Avenida do Atlântico, 4900-348 Viana do Castelo, Portugal article info abstract Article history: Polychlorinated biphenyls (PCBs) are lipophilic contaminants that tend to accumulate in organisms. PCBs Received 21 February 2013 were detected in Chelon labrosus, Liza aurata and Liza ramada, along different age groups. L. ramada Received in revised form presented the highest concentration, and it increased with age, whereas C. labrosus and L. aurata 16 April 2013 concentration remained constant. L. ramada high concentration can be attributed to its ecological niche, Accepted 17 April 2013 since this species is able to accumulate PCBs along its different age groups even in low environmental Available online 2 June 2013 contamination conditions. PCBs 101, 118, 138, 149, 153, 170 and 180 were the congeners that more Keywords: contributed to these species contamination, being PCB 138 and 153 the congeners with higher PCBs concentration. Mullets are edible in many countries, being important in fisheries and aquaculture. Chelon labrosus L. ramada is the most common mullet for capture and human consumption.
    [Show full text]
  • Age and Growth of Leaping Grey Mullet (Liza Saliens (Risso, 1810)) in Minorca (Balearic Islands)*
    SCI. MAR., 63 (2): 93-99 SCIENTIA MARINA 1999 Age and growth of leaping grey mullet (Liza saliens (Risso, 1810)) in Minorca (Balearic Islands)* LUIS CARDONA Department of Animal Biology (Vertebrates), Faculty of Biology, University of Barcelona, Avda. Diagonal 645, 08028 Barcelona, Spain. SUMMARY: A population of leaping grey mullet (Liza saliens (Risso, 1810) was studied in order to measure seasonal and annual growth rates. The annual growth rates were similar to those reported for other populations from the central Western Mediterranean and intermediate between those living in northern and southern areas. As usual, the growth rate of adult males was slower than that of females. Males reached adulthood in their third summer. Females of the same age showed a mod- erate gonadal development, but did not ripen until the next summer. Mullets of all ages gained weight only when the water temperature was higher than 20°C. However adults and immature fish showed reduced growth in mid-summer, when that of the juveniles peaked. This difference is not a consequence of the reproductive cost, because the growth rate of immatures was greatly reduced although they did not spawn. Key words: Balearic Islands, coastal lagoons, Liza saliens, growth, age. INTRODUCTION The aim of this work was to study age and growth of leaping grey mullet in the Balearic Leaping grey mullet (Liza saliens (Risso, 1810)) Islands, with special emphasis on seasonal growth, are found in Mediterranean estuaries (Ben Tuvia, one of the least studied aspects of their biology. 1986). Age and growth have been studied by sever- al authors (Heldt, 1948 ; Farrugio, 1975 ; Quignard and Farrugio, 1981; Sostoa, 1983; Drake et al., MATERIAL AND METHODS 1984; Patón et al., 1994), but information is still too scarce to provide us with a detailed life story of the The study was carried out in 1989 in Albufera species in its whole distribution range.
    [Show full text]
  • Incidences of Caudal Fin Malformation in Fishes from Jubail City, Saudi Arabia, Arabian Gulf
    FISHERIES & AQUATIC LIFE (2018) 26: 65-71 Archives of Polish Fisheries DOI 10.2478/aopf-2018-0008 RESEARCH ARTICLE Incidences of caudal fin malformation in fishes from Jubail City, Saudi Arabia, Arabian Gulf Laith A. Jawad, Mustafa Ibrahim, Baradi Waryani Received – 18 August 2017/Accepted – 09 March 2018. Published online: 31 March 2018; ©Inland Fisheries Institute in Olsztyn, Poland Citation: Jawad L.A., Ibrahim M., Waryani B. 2018 – Incidences of caudal fin malformation in fishes from Jubail City, Saudi Arabia, Ara- bian Gulf – Fish. Aquat. Life 26: 65-71. Abstract. These case studies endeavor to report incidences Introduction of caudal fin deformities in several commercial fishes living in natural populations in the Saudi Arabian coastal waters of Aberrations in fish bodies have attracted the attention the Arabian Gulf. Two groups of anomalies were observed, slight and severe. The carangid species, Parastromateus of researchers since the sixteenth century (Gudger niger (Bloch) and the soleid species, Euryglossa orientalis 1936), and since then a large number of studies have (Bloch & Schneider), had slight cases of caudal fin documented the presence of various types of anoma- abnormalities, while the species Oreochrromis mossambicus lies in wild fishes (Boglione et al. 2006, Jawad and (Peters), Epinephelus stoliczkae (Day), Diagramma pictum Hosie 2007, Jawad and _ktoner 2007, (Thunberg), Cephalopholis hemistiktos (Rüppell), Lethrinus Koumoundouros 2008, Orlov 2011, Jawad and nebulosus (ForsskDl), and Lutjanus sanguineus (Cuvier) had severe deformities. The abnormalities were assessed by Al-Mamry 2012, Rutkayová et al. 2016, Jawad et al. morphological diagnosis. None of the cases was fatal as they 2016). Fin anomalies are generally extremely well occurred in adult individuals.
    [Show full text]
  • Real-Time Fish Type Recognition in Underwater Images for Sustainable Fishing
    UPTEC IT 14019 Examensarbete 30 hp June 2015 Real-time fish type recognition in underwater images for sustainable fishing Fritjof Jonsson Abstract Real-time fish type recognition in underwater images for sustainable fishing Fritjof Jonsson Teknisk- naturvetenskaplig fakultet UTH-enheten It has been investigated if it is possible to selectivly catch farmed salmon (Salmo salar L., 1758) and sea Besöksadress: trout (Salmo trutta L., 1758) without disturbing the Ångströmlaboratoriet Lägerhyddsvägen 1 wild fish. A image analysis software that can Hus 4, Plan 0 separate wild from farmed salmon and salmon from sea trout has been developed. This is interesting Postadress: since the advent of hydro power stations has Box 536 751 21 Uppsala obstructed the natural migration of these species to their natal river streams. Even though ladders have Telefon: been built, fewer fish find their way back up stream. 018 – 471 30 03 This has lead to farming of salmon and sea trout to Telefax: compensate for a lower population. However, this is 018 – 471 30 00 bad for the natural genetic variation and it would be desirable if only the wild fish could enter the rivers. Hemsida: The software could be installed in traps at fish http://www.teknat.uu.se/student ladders to help with this problem. It is common to cut the adipose fin from the farmed salmon and the lack of this fin has been used as a key character to separate farmed from wild salmon. A real-time algorithm was developed which could recognize the farmed fish with high accuracy by searching for presence or absence of the adipose fin.
    [Show full text]
  • Marine Fishes from Galicia (NW Spain): an Updated Checklist
    1 2 Marine fishes from Galicia (NW Spain): an updated checklist 3 4 5 RAFAEL BAÑON1, DAVID VILLEGAS-RÍOS2, ALBERTO SERRANO3, 6 GONZALO MUCIENTES2,4 & JUAN CARLOS ARRONTE3 7 8 9 10 1 Servizo de Planificación, Dirección Xeral de Recursos Mariños, Consellería de Pesca 11 e Asuntos Marítimos, Rúa do Valiño 63-65, 15703 Santiago de Compostela, Spain. E- 12 mail: [email protected] 13 2 CSIC. Instituto de Investigaciones Marinas. Eduardo Cabello 6, 36208 Vigo 14 (Pontevedra), Spain. E-mail: [email protected] (D. V-R); [email protected] 15 (G.M.). 16 3 Instituto Español de Oceanografía, C.O. de Santander, Santander, Spain. E-mail: 17 [email protected] (A.S); [email protected] (J.-C. A). 18 4Centro Tecnológico del Mar, CETMAR. Eduardo Cabello s.n., 36208. Vigo 19 (Pontevedra), Spain. 20 21 Abstract 22 23 An annotated checklist of the marine fishes from Galician waters is presented. The list 24 is based on historical literature records and new revisions. The ichthyofauna list is 25 composed by 397 species very diversified in 2 superclass, 3 class, 35 orders, 139 1 1 families and 288 genus. The order Perciformes is the most diverse one with 37 families, 2 91 genus and 135 species. Gobiidae (19 species) and Sparidae (19 species) are the 3 richest families. Biogeographically, the Lusitanian group includes 203 species (51.1%), 4 followed by 149 species of the Atlantic (37.5%), then 28 of the Boreal (7.1%), and 17 5 of the African (4.3%) groups. We have recognized 41 new records, and 3 other records 6 have been identified as doubtful.
    [Show full text]