DOCSLIB.ORG

Red List of Marine Bony Fishes of the Eastern Central Atlantic

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Red List of Marine Bony Fishes of the Eastern Central Atlantic The IUCN Red List of Threatened Species The IUCNRedListof Akanbi Williams and DeMorais,Jean-ChristopheVié Tito EmilieStump,MorSylla,Luis Aboubacar Sidibe,WilliamSmith-Vaniz, Sayer, Catherine Sagna, Alphonse Russell, Barry Quartey, Richmond Poss, Stuart Pollock, Caroline Nunoo, E. K. Francis Beh, Mve Hervé Jean Christi Linardich, Ken Lindeman, Ebou Mass Mbye, Jean Egard Mikolo, Monteiro, Vanda Jean Bernard Mougoussi, Thomas Munroe, Heather Harwell, Craig Andrew Hilton-Taylor, Hines, Alexander P. Hulley, Tomio Iwamoto, Steen Knudsen, Jean De Dieu Lewembe, Antony S. Harold, Comeros-Raynal, Godefroy De Bruyne, Madeleine Diouf, Roger Djiman, Mathieu Ducrocq, Ofer Gon, T. Collette, Mia B. Bruce Cissoko, Kadiatou Camara, Hawa Youssouf Camara, Abdallahi Mohamed Khairdine Buchanan, Jack Nguema, Bi Bibang Noel Beth Polidoro, Gina Ralph, Kyle Strongin, Michael Harvey, Kent Carpenter, Titus Ayo Adeofe, Rachel Arnold, Paul Bannerman, Jean ATLANTIC EASTERN CENTRAL FISHESOFTHE RED LISTOFMARINEBONY TM EASTERN CENTRAL ATLANTIC IUCN Rue Mauverney 26 CH 1196 Gland Switzerland Tel: +41 22 999 0000 Fax: + 41 22 999 0015 www.iucn.org/redlist www.iucnredlist.org RED LIST OF MARINE BONY FISHES OF THE EASTERN CENTRAL ATLANTIC Beth Polidoro, Gina Ralph, Kyle Strongin, Michael Harvey, Kent Carpenter, Titus Ayo Adeofe, Rachel Arnold, Paul Bannerman, Jean Noel Bibang Bi Nguema, Jack Buchanan, Khairdine Mohamed Abdallahi Camara, Youssouf Hawa Camara, Kadiatou Cissoko, Bruce B. Collette, Mia T. Comeros-Raynal, Godefroy De Bruyne, Madeleine Diouf, Roger Djiman, Mathieu Ducrocq, Ofer Gon, Antony S. Harold, Heather Harwell, Craig Hilton-Taylor, Andrew Hines, P. Alexander Hulley, Tomio Iwamoto, Steen Knudsen, Jean De Dieu Lewembe, Christi Linardich, Ken Lindeman, Ebou Mass Mbye, Jean Egard Mikolo, Vanda Monteiro, Jean Bernard Mougoussi, Thomas Munroe, Jean Hervé Mve Beh, Francis K. E. Nunoo, Caroline Pollock, Stuart Poss, Richmond Quartey, Barry Russell, Alphonse Sagna, Catherine Sayer, Aboubacar Sidibe, William Smith-Vaniz, Emilie Stump, Mor Sylla, Luis Tito De Morais, Jean-Christophe Vié and Akanbi Williams Published and prepared by IUCN (International Union for Conservation of Nature) The designation of geographical entities in this book, and the presentation of the material, do not imply the expression of any opinion whatsoever on the part of IUCN or other participating organisations concerning the legal status of any country, territory or area, or of its authorities, or concerning the delimination of its frontiers or boundaries. The views expressed in this publication do not necessarily reflect those of the IUCN or other participanting organisiations. This publication has been made possible in part by funding from MAVA Fondation pour la Nature. Published by: IUCN, Gland, Switzerland Copyright: © 2016 International Union for Conservation of Nature and Natural Resources Reproduction of this publication for educational or other non-commerical purposes is authorised without prior written permission from the copyright holder provided the source is fully acknowledged. Reproduction of this publication for resale or other commercial purposes is prohibited without prior written permission from the copyright holder. Citation: Beth Polidoro, Gina M. Ralph, Kyle Strongin, Michael Harvey, Kent E. Carpenter, Titus Ayo Adeofe, Rachel Arnold, Paul Bannerman, Jean Noel Bibang Bi Nguema, Jack R. Buchanan, Khairdine Mohamed Abdallahi Camara, Youssouf Hawa Camara, Kadiatou Cissoko, Bruce B. Collette, Mia T. Comeros- Raynal, Godefroy De Bruyne, Madeleine Diouf, Roger Djiman, Mathieu Ducrocq, Ofer Gon, Antony S. Harold, Heather Harwell, Craig Hilton-Taylor, Andrew Hines, P. Alexander Hulley, Tomio Iwamoto, Steen Knudsen, Jean De Dieu Lewembe, Christi Linardich, Ken Lindeman, Ebou Mass Mbye, Jean Egard Mikolo, Vanda Monteiro, Jean Bernard Mougoussi, Thomas Munroe, Jean Hervé Mve Beh, Francis K. E. Nunoo, Caroline Pollock, Stuart Poss, Richmond Quartey, Barry Russell, Alphonse Sagna, Catherine Sayer, Aboubacar Sidibe, William Smith-Vaniz, Emilie Stump, Mor Sylla, Luis Tito De Morais, Jean-Christophe Vié and Akanbi Williams (2016). Red List of Marine Bony Fishes of the Eastern Central Atlantic. Gland, Switzerland: IUCN. viii + 80 pp. ISBN: 978-2-8317-1795-1 DOI: http://dx.doi.org/10.2305/IUCN.CH.2016.04.en Cover photo: © B. Polidoro. Front: Fishing village in Dakar, Senegal. Back: Gabonese Beach. All photographs used in this publication remain the property of the original copyright holder (see individaul captions for details). Photographs should not be reproduced or used in other contexts without written permission from the copyright holder. Layout by: Emilie Stump and Gina Ralph Printed by: Colley Avenue Copies & Graphics, Inc. Available from: www.iucn.org/resources/publications More information on the IUCN Red List is available on the Internet (www.iucnredlist.org). The text of this book is printed on paper made from wood fibre from well-managed forests certified in accordance with the rules of the Forest Stewardship Council (FSC). Table of contents Acknowledgements ........................................................................................................................................v Executive Summary .................................................................................................................................... vii 1. Background ............................................................................................................................................1 1.1 The Eastern Central Atlantic ......................................................................................................1 1.2 Diversity and Endemism ...........................................................................................................3 1.3 Importance of Marine Fishes .....................................................................................................3 1.4 Assessment of Species Extinction Risk .....................................................................................7 1.5 Objectives of the Assessment ....................................................................................................9 2. Assessment Methodology ....................................................................................................................10 2.1 Geographic Scope ....................................................................................................................10 2.2 Taxonomic Scope ....................................................................................................................10 2.3 Regional IUCN Red List Assessment Workshops ...................................................................11 2.4 IUCN Red List Assessment Protocol .......................................................................................12 2.5 Methodology for Spatial Analyses ..........................................................................................12 3. Results .................................................................................................................................................13 3.1 Threat Status ............................................................................................................................13 3.2 Status by Taxonomic Group ....................................................................................................16 3.3 Spatial Distribution of Species ................................................................................................22 3.4 Major Threats to Marine Fishes in the ECA ............................................................................26 3.5 Population Trends ....................................................................................................................29 3.6 Gaps in Knowledge .................................................................................................................30 4. Conservation Measures .......................................................................................................................31 4.1 Conservation of Marine Fish ...................................................................................................31 4.2 Marine Protected Areas ...........................................................................................................36 4.3 IUCN Red List versus Priority for Conservation Action .........................................................39 5. Recommendations ...............................................................................................................................40 5.1 Recommendations for Management and Policy ......................................................................40 5.2 Recommendations for Marine Protected Areas and Conservation Action ..............................40 5.3 Recommendations for Research and Training .........................................................................41 5.4 The Future: IUCN Red List Assessments and Key Biodiversity Areas ..................................42 References .....................................................................................................................................................43 Appendix 1. ...................................................................................................................................................49 Appendix 2. ...................................................................................................................................................78
Load more

Recommended publications
  • Reef Fish Biodiversity in the Florida Keys National Marine Sanctuary Megan E
    University of South Florida Scholar Commons Graduate Theses and Dissertations Graduate School November 2017 Reef Fish Biodiversity in the Florida Keys National Marine Sanctuary Megan E. Hepner University of South Florida, [email protected] Follow this and additional works at: https://scholarcommons.usf.edu/etd Part of the Biology Commons, Ecology and Evolutionary Biology Commons, and the Other Oceanography and Atmospheric Sciences and Meteorology Commons Scholar Commons Citation Hepner, Megan E., "Reef Fish Biodiversity in the Florida Keys National Marine Sanctuary" (2017). Graduate Theses and Dissertations. https://scholarcommons.usf.edu/etd/7408 This Thesis is brought to you for free and open access by the Graduate School at Scholar Commons. It has been accepted for inclusion in Graduate Theses and Dissertations by an authorized administrator of Scholar Commons. For more information, please contact [email protected]. Reef Fish Biodiversity in the Florida Keys National Marine Sanctuary by Megan E. Hepner A thesis submitted in partial fulfillment of the requirements for the degree of Master of Science Marine Science with a concentration in Marine Resource Assessment College of Marine Science University of South Florida Major Professor: Frank Muller-Karger, Ph.D. Christopher Stallings, Ph.D. Steve Gittings, Ph.D. Date of Approval: October 31st, 2017 Keywords: Species richness, biodiversity, functional diversity, species traits Copyright © 2017, Megan E. Hepner ACKNOWLEDGMENTS I am indebted to my major advisor, Dr. Frank Muller-Karger, who provided opportunities for me to strengthen my skills as a researcher on research cruises, dive surveys, and in the laboratory, and as a communicator through oral and presentations at conferences, and for encouraging my participation as a full team member in various meetings of the Marine Biodiversity Observation Network (MBON) and other science meetings.
    [Show full text]
  • Iotc-2016-Wpeb12-17 Introduction
    IOTC‐2016‐WPEB12‐17 COMPOSITION AND ABUNDANCE OF PELAGIC SHARK CAUGHT BY DRIFT GILLNET IN CILACAP OCEANIC FISHING PORT, INDONESIA Dian Novianto1, Agung F. Nugroho2, Raymon R. Zedta1 1Research Institute for Tuna Fisheries, Agency for Marine & Fisheries Research & Development. 2Statistician in Cilacap Oceanic Fishing Port, Directorate General of Capture Fisheries. ABSTRACT Drift gillnet fleets in the South of Java part of Indian Ocean were multi-species fisheries. The target of this fleet was tuna and skipjack tuna. Our studies on shark fisheries had been conducted since 2014-2015 and focused on drift gillnets fleets in eastern Indian Ocean, south Java waters around 80 – 100 S and 1060 – 1100 E. The aims of this paper were to presents the information about sharks composition, size distribution and nominal catch- per-unit-effort. A total 244 ton catch of sharks was recorded, consisted of 13 species, with an average catch of 9.5 tonnes/month and average CPUE (Vessel Catch/Day) were 12.87 kg/days. The greatest number of species caught with drift gillnet was from Family Alopidae (pelagic and bigeye thresher). Length frequency distribution of Alopias pelagicus from 55 to 185 cmFL (SD± 15.33) and for Alopias superciliosus ranged from 90 to 268 cmFL (SD± 27.05). INTRODUCTION Gillnetting is commonly referred to a passive fishing method, i.e. the gear itself is more or less stationary relative to the fish, operated by way put on the migration path so that fish become captured by swimming into the net wall. A gillnet can hold the fish in one of three ways, i.e.
    [Show full text]
  • CHECKLIST and BIOGEOGRAPHY of FISHES from GUADALUPE ISLAND, WESTERN MEXICO Héctor Reyes-Bonilla, Arturo Ayala-Bocos, Luis E
    ReyeS-BONIllA eT Al: CheCklIST AND BIOgeOgRAphy Of fISheS fROm gUADAlUpe ISlAND CalCOfI Rep., Vol. 51, 2010 CHECKLIST AND BIOGEOGRAPHY OF FISHES FROM GUADALUPE ISLAND, WESTERN MEXICO Héctor REyES-BONILLA, Arturo AyALA-BOCOS, LUIS E. Calderon-AGUILERA SAúL GONzáLEz-Romero, ISRAEL SáNCHEz-ALCántara Centro de Investigación Científica y de Educación Superior de Ensenada AND MARIANA Walther MENDOzA Carretera Tijuana - Ensenada # 3918, zona Playitas, C.P. 22860 Universidad Autónoma de Baja California Sur Ensenada, B.C., México Departamento de Biología Marina Tel: +52 646 1750500, ext. 25257; Fax: +52 646 Apartado postal 19-B, CP 23080 [email protected] La Paz, B.C.S., México. Tel: (612) 123-8800, ext. 4160; Fax: (612) 123-8819 NADIA C. Olivares-BAñUELOS [email protected] Reserva de la Biosfera Isla Guadalupe Comisión Nacional de áreas Naturales Protegidas yULIANA R. BEDOLLA-GUzMáN AND Avenida del Puerto 375, local 30 Arturo RAMíREz-VALDEz Fraccionamiento Playas de Ensenada, C.P. 22880 Universidad Autónoma de Baja California Ensenada, B.C., México Facultad de Ciencias Marinas, Instituto de Investigaciones Oceanológicas Universidad Autónoma de Baja California, Carr. Tijuana-Ensenada km. 107, Apartado postal 453, C.P. 22890 Ensenada, B.C., México ABSTRACT recognized the biological and ecological significance of Guadalupe Island, off Baja California, México, is Guadalupe Island, and declared it a Biosphere Reserve an important fishing area which also harbors high (SEMARNAT 2005). marine biodiversity. Based on field data, literature Guadalupe Island is isolated, far away from the main- reviews, and scientific collection records, we pres- land and has limited logistic facilities to conduct scien- ent a comprehensive checklist of the local fish fauna, tific studies.
    [Show full text]
  • Diurnal Patterns in Gulf of Mexico Epipelagic Predator Interactions with Pelagic Longline Gear: Implications for Target Species Catch Rates and Bycatch Mitigation
    Bull Mar Sci. 93(2):573–589. 2017 research paper https://doi.org/10.5343/bms.2016.1008 Diurnal patterns in Gulf of Mexico epipelagic predator interactions with pelagic longline gear: implications for target species catch rates and bycatch mitigation 1 National Marine Fisheries Eric S Orbesen 1 * Service, Southeast Fisheries 1 Science Center, 75 Virginia Beach Derke Snodgrass 2 Drive, Miami, Florida 33149. Geoffrey S Shideler 1 2 University of Miami, Rosenstiel Craig A Brown School of Marine & Atmospheric John F Walter 1 Science, 4600 Rickenbacker Causeway, Miami, Florida 33149. * Corresponding author email: <[email protected]>. ABSTRACT.—Bycatch in pelagic longline fisheries is of substantial international concern, and the mitigation of bycatch in the Gulf of Mexico has been considered as an option to help restore lost biomass following the 2010 Deepwater Horizon oil spill. The most effective bycatch mitigation measures operate upon a differential response between target and bycatch species, ideally maintaining target catch while minimizing bycatch. We investigated whether bycatch vs target catch rates varied between day and night sets for the United States pelagic longline fishery in the Gulf of Mexico by comparing the influence of diel time period and moon illumination on catch rates of 18 commonly caught species/species groups. A generalized linear model approach was used to account for operational and environmental covariates, including: year, season, water temperature, hook type, bait, and maximum hook depth. Time of day or moon
    [Show full text]
  • Andrea RAZ-GUZMÁN1*, Leticia HUIDOBRO2, and Virginia PADILLA3
    ACTA ICHTHYOLOGICA ET PISCATORIA (2018) 48 (4): 341–362 DOI: 10.3750/AIEP/02451 AN UPDATED CHECKLIST AND CHARACTERISATION OF THE ICHTHYOFAUNA (ELASMOBRANCHII AND ACTINOPTERYGII) OF THE LAGUNA DE TAMIAHUA, VERACRUZ, MEXICO Andrea RAZ-GUZMÁN1*, Leticia HUIDOBRO2, and Virginia PADILLA3 1 Posgrado en Ciencias del Mar y Limnología, Universidad Nacional Autónoma de México, Ciudad de México 2 Instituto Nacional de Pesca y Acuacultura, SAGARPA, Ciudad de México 3 Facultad de Ciencias, Universidad Nacional Autónoma de México, Ciudad de México Raz-Guzmán A., Huidobro L., Padilla V. 2018. An updated checklist and characterisation of the ichthyofauna (Elasmobranchii and Actinopterygii) of the Laguna de Tamiahua, Veracruz, Mexico. Acta Ichthyol. Piscat. 48 (4): 341–362. Background. Laguna de Tamiahua is ecologically and economically important as a nursery area that favours the recruitment of species that sustain traditional fisheries. It has been studied previously, though not throughout its whole area, and considering the variety of habitats that sustain these fisheries, as well as an increase in population growth that impacts the system. The objectives of this study were to present an updated list of fish species, data on special status, new records, commercial importance, dominance, density, ecotic position, and the spatial and temporal distribution of species in the lagoon, together with a comparison of Tamiahua with 14 other Gulf of Mexico lagoons. Materials and methods. Fish were collected in August and December 1996 with a Renfro beam net and an otter trawl from different habitats throughout the lagoon. The species were identified, classified in relation to special status, new records, commercial importance, density, dominance, ecotic position, and spatial distribution patterns.
    [Show full text]
  • Early Stages of Fishes in the Western North Atlantic Ocean Volume
    ISBN 0-9689167-4-x Early Stages of Fishes in the Western North Atlantic Ocean (Davis Strait, Southern Greenland and Flemish Cap to Cape Hatteras) Volume One Acipenseriformes through Syngnathiformes Michael P. Fahay ii Early Stages of Fishes in the Western North Atlantic Ocean iii Dedication This monograph is dedicated to those highly skilled larval fish illustrators whose talents and efforts have greatly facilitated the study of fish ontogeny. The works of many of those fine illustrators grace these pages. iv Early Stages of Fishes in the Western North Atlantic Ocean v Preface The contents of this monograph are a revision and update of an earlier atlas describing the eggs and larvae of western Atlantic marine fishes occurring between the Scotian Shelf and Cape Hatteras, North Carolina (Fahay, 1983). The three-fold increase in the total num- ber of species covered in the current compilation is the result of both a larger study area and a recent increase in published ontogenetic studies of fishes by many authors and students of the morphology of early stages of marine fishes. It is a tribute to the efforts of those authors that the ontogeny of greater than 70% of species known from the western North Atlantic Ocean is now well described. Michael Fahay 241 Sabino Road West Bath, Maine 04530 U.S.A. vi Acknowledgements I greatly appreciate the help provided by a number of very knowledgeable friends and colleagues dur- ing the preparation of this monograph. Jon Hare undertook a painstakingly critical review of the entire monograph, corrected omissions, inconsistencies, and errors of fact, and made suggestions which markedly improved its organization and presentation.
    [Show full text]
  • A Survey of the Order Tetraodontiformes on Coral Reef Habitats in Southeast Florida
    Nova Southeastern University NSUWorks HCNSO Student Capstones HCNSO Student Work 4-28-2020 A Survey of the Order Tetraodontiformes on Coral Reef Habitats in Southeast Florida Anne C. Sevon Nova Southeastern University, [email protected] This document is a product of extensive research conducted at the Nova Southeastern University . For more information on research and degree programs at the NSU , please click here. Follow this and additional works at: https://nsuworks.nova.edu/cnso_stucap Part of the Marine Biology Commons, and the Oceanography and Atmospheric Sciences and Meteorology Commons Share Feedback About This Item NSUWorks Citation Anne C. Sevon. 2020. A Survey of the Order Tetraodontiformes on Coral Reef Habitats in Southeast Florida. Capstone. Nova Southeastern University. Retrieved from NSUWorks, . (350) https://nsuworks.nova.edu/cnso_stucap/350. This Capstone is brought to you by the HCNSO Student Work at NSUWorks. It has been accepted for inclusion in HCNSO Student Capstones by an authorized administrator of NSUWorks. For more information, please contact [email protected]. Capstone of Anne C. Sevon Submitted in Partial Fulfillment of the Requirements for the Degree of Master of Science M.S. Marine Environmental Sciences M.S. Coastal Zone Management Nova Southeastern University Halmos College of Natural Sciences and Oceanography April 2020 Approved: Capstone Committee Major Professor: Dr. Kirk Kilfoyle Committee Member: Dr. Bernhard Riegl This capstone is available at NSUWorks: https://nsuworks.nova.edu/cnso_stucap/350 HALMOS
    [Show full text]
  • Order BERYCIFORMES ANOPLOGASTRIDAE Anoplogaster
    click for previous page 2210 Bony Fishes Order BERYCIFORMES ANOPLOGASTRIDAE Fangtooths by J.R. Paxton iagnostic characters: Small (to 16 cm) Dberyciform fishes, body short, deep, and compressed. Head large, steep; deep mu- cous cavities on top of head separated by serrated crests; very large temporal and pre- opercular spines and smaller orbital (frontal) spine in juveniles of one species, all disap- pearing with age. Eyes smaller than snout length in adults (but larger than snout length in juveniles). Mouth very large, jaws extending far behind eye in adults; one supramaxilla. Teeth as large fangs in pre- maxilla and dentary; vomer and palatine toothless. Gill rakers as gill teeth in adults (elongate, lath-like in juveniles). No fin spines; dorsal fin long based, roughly in middle of body, with 16 to 20 rays; anal fin short-based, far posterior, with 7 to 9 rays; pelvic fin abdominal in juveniles, becoming subthoracic with age, with 7 rays; pectoral fin with 13 to 16 rays. Scales small, non-overlap- ping, spinose, cup-shaped in adults; lateral line an open groove partly covered by scales. No light organs. Total vertebrae 25 to 28. Colour: brown-black in adults. Habitat, biology, and fisheries: Meso- and bathypelagic. Distinctive caulolepis juvenile stage, with greatly enlarged head spines in one species. Feeding mode as carnivores on crustaceans as juveniles and on fishes as adults. Rare deepsea fishes of no commercial importance. Remarks: One genus with 2 species throughout the world ocean in tropical and temperate latitudes. The family was revised by Kotlyar (1986). Similar families occurring in the area Diretmidae: No fangs, jaw teeth small, in bands; anal fin with 18 to 24 rays.
    [Show full text]
  • Morphology and Significance of the Luminous Organs in Alepocephaloid Fishes
    Uiblein, F., Ott, J., Stachowitsch,©Akademie d. Wissenschaften M. (Eds), Wien; 1996: download Deep-sea unter www.biologiezentrum.at and extreme shallow-water habitats: affinities and adaptations. - Biosystematics and Ecology Series 11:151-163. Morphology and significance of the luminous organs in alepocephaloid fishes Y. I. SAZONOV Abstract: Alepocephaloid fishes, or slickheads (two families, Alepocephalidae and Platytroctidae), are deep-sea fishes distributed in all three major oceans at depths of ca. 100-5000 m, usually between ca. 500 and 3000 m. Among about 150 known species, 13 alepocephalid and all (ca. 40) platytroctid species have diverse light organs: 1) postcleithral luminous gland (all platytroctids); it releases a luminescent secredon which presumably startles or blinds predators and allows the fish to escape; 2) relatively large, regulär photophores on the head and ventral parts of the body in the alepocephalid Microphotolepis and in 6 (of 14) platytroctid genera. These organs may serve for countershading and possibly for giving signals to other individuals of the same species; 3) small "simple" or "secondary" photophores covering the whole body and fins in 5 alepocephalid genera, and a few such structures in 1 platytroctid; these organs may be used for Camouflage in the glow of spontaneous bioluminescence; 4) the mental light organ in 2 alepocephalid genera from the abyssal zone (Bathyprion and Mirognathus) may be used as a Iure to attract prey. Introduction Alepocephaloid fishes, or slickheads, comprise two families of isospondyl- ous fishes (Platytroctidae and Alepocephalidae). The group is one of the most diverse among oceanic bathypelagic fishes (about 35 genera with 150 species), and these fishes play a significant role in the communities of meso- and bathypelagic animals.
    [Show full text]
  • Order OSMERIFORMES
    click for previous page 1884 Bony Fishes Order OSMERIFORMES ARGENTINIDAE Argentines by J.R. Paxton and D.M. Cohen iagnostic characters: Small to moderate-sized (to 60 cm) osmeriform fishes, body slender to Dmoderate, moderately compressed, and generally elongate. Head small. Eye moderate to large, not tubular; interorbital space not narrow. Snout moderate, generally equal to eye diameter. Mouth small; premaxilla present. Jaw teeth small; premaxilla and maxilla without teeth; dentary teeth present or absent; teeth on vomer and palatine; teeth present or absent on tongue, sometimes enlarged and recurved. Fins without spines; dorsal fin somewhat before middle of body, with 10 to 14 rays; anal fin far behind dorsal fin, with 10 to 17 rays; pelvic fins under or slightly behind dorsal fin, with 10 to 15 rays; pectoral fins close to ventral edge of body, with 12 to 25 rays; dorsal adipose fin present over anal fin. Lateral line running straight back on midline of body, not extending onto tail. Scales cycloid or spinose, deciduous. No light organs or luminous tissue. Branchiostegal rays 4 to 6. Total vertebrae 43 to 70. Colour: light, often with silvery and/or dark lateral band. Habitat, biology, and fisheries: Benthopelagic on the outer shelf and upper slope, rarely to 1 400 m. Feed as carnivores on epibenthic and some pelagic invertebrates and fishes. Moderately common to rare fishes, rarely of commercial importance. Remarks: Two genera with some 20 species throughout the world ocean in tropical to temperate and northern boreal latitudes; however, they are rarely found in the tropical Pacific. A comprehensive revison of the family is needed.
    [Show full text]
  • Cusk Eels, Brotulas [=Cherublemma Trotter [E
    FAMILY Ophidiidae Rafinesque, 1810 - cusk eels SUBFAMILY Ophidiinae Rafinesque, 1810 - cusk eels [=Ofidini, Otophidioidei, Lepophidiinae, Genypterinae] Notes: Ofidini Rafinesque, 1810b:38 [ref. 3595] (ordine) Ophidion [as Ophidium; latinized to Ophididae by Bonaparte 1831:162, 184 [ref. 4978] (family); stem corrected to Ophidi- by Lowe 1843:92 [ref. 2832], confirmed by Günther 1862a:317, 370 [ref. 1969], by Gill 1872:3 [ref. 26254] and by Carus 1893:578 [ref. 17975]; considered valid with this authorship by Gill 1893b:136 [ref. 26255], by Goode & Bean 1896:345 [ref. 1848], by Nolf 1985:64 [ref. 32698], by Patterson 1993:636 [ref. 32940] and by Sheiko 2013:63 [ref. 32944] Article 11.7.2; family name sometimes seen as Ophidionidae] Otophidioidei Garman, 1899:390 [ref. 1540] (no family-group name) Lepophidiinae Robins, 1961:218 [ref. 3785] (subfamily) Lepophidium Genypterinae Lea, 1980 (subfamily) Genypterus [in unpublished dissertation: Systematics and zoogeography of cusk-eels of the family Ophidiidae, subfamily Ophidiinae, from the eastern Pacific Ocean, University of Miami, not available] GENUS Cherublemma Trotter, 1926 - cusk eels, brotulas [=Cherublemma Trotter [E. S.], 1926:119, Brotuloides Robins [C. R.], 1961:214] Notes: [ref. 4466]. Neut. Cherublemma lelepris Trotter, 1926. Type by monotypy. •Valid as Cherublemma Trotter, 1926 -- (Pequeño 1989:48 [ref. 14125], Robins in Nielsen et al. 1999:27, 28 [ref. 24448], Castellanos-Galindo et al. 2006:205 [ref. 28944]). Current status: Valid as Cherublemma Trotter, 1926. Ophidiidae: Ophidiinae. (Brotuloides) [ref. 3785]. Masc. Leptophidium emmelas Gilbert, 1890. Type by original designation (also monotypic). •Synonym of Cherublemma Trotter, 1926 -- (Castro-Aguirre et al. 1993:80 [ref. 21807] based on placement of type species, Robins in Nielsen et al.
    [Show full text]
  • Updated Checklist of Marine Fishes (Chordata: Craniata) from Portugal and the Proposed Extension of the Portuguese Continental Shelf
    European Journal of Taxonomy 73: 1-73 ISSN 2118-9773 http://dx.doi.org/10.5852/ejt.2014.73 www.europeanjournaloftaxonomy.eu 2014 · Carneiro M. et al. This work is licensed under a Creative Commons Attribution 3.0 License. Monograph urn:lsid:zoobank.org:pub:9A5F217D-8E7B-448A-9CAB-2CCC9CC6F857 Updated checklist of marine fishes (Chordata: Craniata) from Portugal and the proposed extension of the Portuguese continental shelf Miguel CARNEIRO1,5, Rogélia MARTINS2,6, Monica LANDI*,3,7 & Filipe O. COSTA4,8 1,2 DIV-RP (Modelling and Management Fishery Resources Division), Instituto Português do Mar e da Atmosfera, Av. Brasilia 1449-006 Lisboa, Portugal. E-mail: [email protected], [email protected] 3,4 CBMA (Centre of Molecular and Environmental Biology), Department of Biology, University of Minho, Campus de Gualtar, 4710-057 Braga, Portugal. E-mail: [email protected], [email protected] * corresponding author: [email protected] 5 urn:lsid:zoobank.org:author:90A98A50-327E-4648-9DCE-75709C7A2472 6 urn:lsid:zoobank.org:author:1EB6DE00-9E91-407C-B7C4-34F31F29FD88 7 urn:lsid:zoobank.org:author:6D3AC760-77F2-4CFA-B5C7-665CB07F4CEB 8 urn:lsid:zoobank.org:author:48E53CF3-71C8-403C-BECD-10B20B3C15B4 Abstract. The study of the Portuguese marine ichthyofauna has a long historical tradition, rooted back in the 18th Century. Here we present an annotated checklist of the marine fishes from Portuguese waters, including the area encompassed by the proposed extension of the Portuguese continental shelf and the Economic Exclusive Zone (EEZ). The list is based on historical literature records and taxon occurrence data obtained from natural history collections, together with new revisions and occurrences.
    [Show full text]