DOCSLIB.ORG

Mediterranean Marine Science

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text

Load more

Mediterranean Marine Science Vol. 9, 2008 Molluscan species of minor commercial interest in Hellenic seas: Distribution, exploitation and conservation status KATSANEVAKIS S. European Commission, Joint Research Centre, Institute for Environment and Sustainability, Ispra LEFKADITOU E. Hellenic Centre for Marine Research, Institute of Marine Biological Resources, Agios Kosmas, P.C. 16610, Elliniko, Athens GALINOU-MITSOUDI S. Fisheries & Aquaculture Technology, Alexander Technological Educational Institute of Thessaloniki, 63200, Nea Moudania KOUTSOUBAS D. University of the Aegean, Department of Marine Science, University Hill, 81100 Mytilini ZENETOS A. Hellenic Centre for Marine Research, Institute of Marine Biological Resources, Agios Kosmas, P.C. 16610, Elliniko, Athens https://doi.org/10.12681/mms.145 Copyright © 2008 To cite this article: KATSANEVAKIS, S., LEFKADITOU, E., GALINOU-MITSOUDI, S., KOUTSOUBAS, D., & ZENETOS, A. (2008). Molluscan species of minor commercial interest in Hellenic seas: Distribution, exploitation and conservation status. Mediterranean Marine Science, 9(1), 77-118. doi:https://doi.org/10.12681/mms.145 http://epublishing.ekt.gr | e-Publisher: EKT | Downloaded at 05/10/2021 03:31:06 | Review Article Mediterranean Marine Science Volume 9/1, 2008, 77-118 Molluscan species of minor commercial interest in Hellenic seas: Distribution, exploitation and conservation status S. KATSANEVAKIS1, E. LEFKADITOU1, S. GALINOU-MITSOUDI2, D. KOUTSOUBAS3 and A. ZENETOS1 1 Hellenic Centre for Marine Research, Institute of Marine Biological Resources, P.O. Box 712, 19013, Anavissos, Attica, Hellas 2 Fisheries & Aquaculture Technology, Alexander Technological Educational Institute of Thessaloniki, 63200, Nea Moudania, Hellas 3 Department of Marine Sciences, School of Environment, University of the Aegean, 81100, Mytilini, Hellas e-mail: [email protected] Abstract Recognising the need for data gathering at taxon level besides the taxa of commercial interest and those listed as endangered in the Protocol of the Barcelona Convention, but still exploited by Man, the present study attempts to gather and review the available scientific information on molluscs of minor commercial importance in order to assist in the adequate management and protection of their popula- tions. Forty one species (18 gastropods, 13 bivalves, and 10 cephalopods) of minor commercial interest are treated in the present work with details on their biogeographic distribution, exploitation and conser- vation status in Hellas. Apart from a few species (e.g., Pinna nobilis, Lithophaga lithophaga, Donacilla cornea), and these only at a local scale, there is no population assessment in Hellenic seas. The existing legislation for eleven of these species is not enforced in practice, and seems insufficient to guarantee their conservation. It is suggested that targeted collection data, networked nationally and internationally, should be promoted so this invaluable source of biodiversity information can be accessed for conserva- tion and planning purposes. Keywords: Mollusca exploitation; Conservation; Hellas. Introduction the development of high density human populations near the coast has resulted in Exploitation of mollusca as food and as unprecedented and unsustainable levels of ornaments in Hellas has a history dating pressure nowadays. Unfortunately, sea- back to the Paleolithic age (SHACKLE- shells are collected in those areas least TON & VAN ANDEL, 2007). However, capable of withstanding exploitation. While Medit. Mar. Sci., 9/1, 2008, 77-118 77 http://epublishing.ekt.gr | e-Publisher: EKT | Downloaded at 05/10/2021 03:31:06 | shelled mollusca are heavily exploited, some have been destructive and have caused a cephalopod species are impacted by uncon- significant decline in the Mediterranean trolled and unreported fishing, which may populations of several species (e.g., Pinna have a significant effect on their populations. nobilis) and have brought others to near A total of 1160 mollusc species (1 extinction (e.g., Patella ferruginea) Solenogastra, 2 Caudofoveata, 771 Gas- (BOUDOURESQUE, 2004). In addition, tropoda, 308 Bivalvia, 19 Polyplacophora, basic knowledge on the biology and ecolo- 12 Scaphopoda and 47 Cephalopoda) have gy of these species is either lacking or is been recorded so far in Hellenic seas scattered in the literature. (KOUTSOUBAS, 2004; CHINTIRO- The red list species approach to con- GLOU et al., 2005; ZENETOS et al., 2005; servation requires detailed knowledge LEFKADITOU, 2007; DELAMOTTE & concerning individual taxa (distribution, VARDALA-THEODOROU, 2007). A declines, threatening processes, biological total of 27 of these species (seventeen attributes, etc.). However, it addresses bivalves, four gastropods and six only the tip of the biodiversity iceberg. The cephalopods), comprising less than 2.5 % first step in knowledge acquisition of the molluscan fauna of the Hellenic required for the taxon-based approach to seas, have a commercial interest, particu- biodiversity and conservation is the study larly in fisheries and aquaculture since and documentation of at least the major they are collected and/or cultivated for components of the fauna. Hence, the pres- human consumption. The status of the ent study attempts to gather and review fishing of these commercially important the available scientific information on molluscs has been recently reviewed molluscs of minor commercial importance (KOUTSOUBAS et al., 2007; LEFKA- in order to assist in the adequate manage- DITOU, 2007). ment and protection of their populations. However, apart from those commer- cially important species, there are many Materials and Methods other molluscs, which, although not com- mercially exploited, are either systemati- Forty one species (18 gastropods, 13 cally or occasionally collected for human bivalves, and 10 cephalopods) of minor consumption and other uses (fishing bait, commercial interest were reviewed in the jewellery, decoration, private and public present work (Table 1). The distribution of collections). Furthermore, several species, the listed species in Hellenic seas was gen- for example some common small-sized erally based on ZENETOS (1986; 1996), cephalopods, constitute trawl fisheries by- KOUTSOUBAS (1992), KOUTSOUBAS catches which may have a marketable frac- et al. (1992, 1997, 1999, 2000a,b), tion. Bivalve and gastropod molluscs are ZENETOS et al. (2004, 2007), ANTO- also frequently used to biomonitor heavy NIADOU et al. (2005), DELAMOTTE & metal pollution in the marine environ- VARDALA-THEODOROU (2007), ment. In most cases, the distribution, the LEFKADITOU (2007), EVAGELO- degree of exploitation, and the state of POULOS & KOUTSOUBAS (2008), grey these populations have not been assessed literature such as academic dissertations and in Hellenic seas. Uncontrolled and unre- HCMR or EU technical reports, and/or ported fishing or other human activities on unpublished/personal observations. 78 Medit. Mar. Sci., 9/1, 2008, 77-118 http://epublishing.ekt.gr | e-Publisher: EKT | Downloaded at 05/10/2021 03:31:06 | g), , sh ersity (continued) http://epublishing.ekt.gr Table 1 |e-Publisher: EKT |Downloaded at 05/10/2021 03:31:06 | 109/2002 = Presidential Decree 109/2002) are also given. Petalida /Rayed Mediterranean limpetStiktopetalida /Ristic limpetAgriopetalida /Rough limpet, China limpetSalingaraki, Arthrotos trochos /Articulate monodontSalingaraki, Trochos fraoula /Turbinate monodontSalingarakiStrovilos, Mati tis Panagias (the opperculum)/Rough turboSkaltsini, Striftari, Kerato /Mediterranean ceritheKonos tis Persias ED, FB, BIOM Gourounitsa /Cowrie ED, FB, BIOM JWL, Gourounitsa COL /Cowrie ED, FB, BIOM ED, FB, BIOMGourounitsa /CowrieBouchona, Kochyla /Giant ton 109/2002 Agkathotritonas /Wandering triton, Olive trumpet 109/2002 FB ED, FB, BIOMTritonas /Knobed triton, lamp tritonTritonas, Bourou /Variegated tritonMitra /Zoned miter 109/2002 Konos /Cone shellPetrosolinas, Valanos,Chourmas /European date mussel COLBC, PBC Pinna /Pen shell, Fan shell ED, FB COL, JWL ED ED, COL ED, COLBC, PBC, 67/1981 COL COL, JWL COL COL, JWL BC, PBC, 67/1981 BC, PBC, 67/1981 BC, PBC, 67/1981 92/43/EC, BC, PBC BC, PBC BC, PBC ED, COL COL ED, COL, BIOMBC, PBC 92/43/EC, PBC, 67/1981 in the Mediterranean of the Barcelona Convention, 92/43/EC = EC Habitats Directive 92/43, 67/1981 = Presidential Decree 67/1981 and the legislation for their protection (BC = Bern Convention, PBC = Protocol for Specially Protected Areas and Biological Div Mollusc species (Gastropoda, Bivalvia and Cephalopoda) of minor commercial interest in Hellenic seas. Common Hellenic and Engli names, exploitation modes (ED = Edible, FB = Fishing Bait, JWL = Jewelry, COL = Shell Collections, BIOM = used for Biomonitorin Scientific nameGASTROPODA Patella caerulea Patella rustica Common Hellenic /English namesPatella ulyssiponensis Osilinus articulatus Osilinus turbinatus Phorcus mutabilis Bolma rugosa Cerithium vulgatum Strombus persicus Erosaria spurca Luria lurida Zonaria pyrum Tonna galea Exploitation modeRanella olearium Charonia lampas Legislation Charonia variegata Mitra zonata Conus mediterraneus BIVALVIA Lithophaga lithophaga Pinna nobilis Medit. Mar. Sci., 9/1, 2008, 77-118 79 http://epublishing.ekt.gr (continued) Table 1 |e-Publisher: EKT |Downloaded at 05/10/2021 03:31:06 | Margaritoforo stridi /Rayed pearl oysterFterostrido /European wing ysterKalogria, Chlamyda /Variegated scallopGrammoto chteni /Little bay scallopGaidouropodaro, Vassiliko stridi /European thorny ysterPortogaliko stridi /Giant
Recommended publications
  • Combined!Effects!In!Europe's!Seas!

    Combined!Effects!In!Europe's!Seas!

    OCP/EEA/NSS/18/002.ETC/ICM!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!ETC/ICM!Technical!Report!4/2019! Multiple!pressures!and!their! combined!effects!in!Europe’s!seas! Prepared!by!/!compiled!by:!! Samuli!Korpinen,!Katja!Klančnik! Authors:!! Samuli Korpinen & Katja Klančnik (editors), Monika Peterlin, Marco Nurmi, Leena Laamanen, Gašper Zupančič, Ciarán Murray, Therese Harvey, Jesper H Andersen, Argyro Zenetos, Ulf Stein, Leonardo Tunesi, Katrina Abhold, GerJan Piet, Emilie Kallenbach, Sabrina Agnesi, Bas Bolman, David Vaughan, Johnny Reker & Eva Royo Gelabert ETC/ICM'Consortium'Partners:'' Helmholtz!Centre!for!Environmental!Research!(UFZ),!Fundación!AZTI,!Czech!Environmental! Information!Agency!(CENIA),!Ioannis!Zacharof&!Associates!Llp!Hydromon!Consulting! Engineers!(CoHI(Hydromon)),!Stichting!Deltares,!Ecologic!Institute,!International!Council!for! the!Exploration!of!the!Sea!(ICES),!Italian!National!Institute!for!Environmental!Protection!and! Research!(ISPRA),!Joint!Nature!Conservation!Committee!Support!Co!(JNCC),!Middle!East! Technical!University!(METU),!Norsk!Institutt!for!Vannforskning!(NIVA),!Finnish!Environment! Institute!(SYKE),!Thematic!Center!for!Water!Research,!Studies!and!Projects!development!! (TC!Vode),!Federal!Environment!Agency!(UBA),!University!Duisburg.Essen!(UDE)! ! ! ! Cover'photo! ©!Tihomir!Makovec,!Marine!biology!station!Piran,!Slovenia! ' Layout! F&U!confirm,!Leipzig! ! Legal'notice' The!contents!of!this!publication!do!not!necessarily!reflect!the!official!opinions!of!the!European!Commission!or!other!institutions!
  • Multiple!Pressures!And!Their! Combined!Effects!In!Europe's!Seas!

    Multiple!Pressures!And!Their! Combined!Effects!In!Europe's!Seas!

    OCP/EEA/NSS/18/002.ETC/ICM!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!ETC/ICM!Technical!Report!4/2019! Multiple!pressures!and!their! combined!effects!in!Europe’s!seas! Prepared!by!/!compiled!by:!! Samuli!Korpinen,!Katja!Klančnik! Authors:!! Monika Peterlin, Marco Nurmi, Leena Laamanen, Gašper Zupančič, Andreja Popit, Ciarán Murray, Therese Harvey, Jesper H Andersen, Argyro Zenetos, Ulf Stein, Leonardo Tunesi, Katrina Abhold, GerJan Piet, Emilie Kallenbach, Sabrina Agnesi, Bas Bolman, David Vaughan, Johnny Reker & Eva Royo Gelabert ETC/ICM'Consortium'Partners:'' Helmholtz!Centre!for!Environmental!Research!(UFZ),!Fundación!AZTI,!Czech!Environmental! Information!Agency!(CENIA),!Ioannis!Zacharof&!Associates!Llp!Hydromon!Consulting! Engineers!(CoHI(Hydromon)),!Stichting!Deltares,!Ecologic!Institute,!International!Council!for! the!Exploration!of!the!Sea!(ICES),!Italian!National!Institute!for!Environmental!Protection!and! Research!(ISPRA),!Joint!Nature!Conservation!Committee!Support!Co!(JNCC),!Middle!East! Technical!University!(METU),!Norsk!Institutt!for!Vannforskning!(NIVA),!Finnish!Environment! Institute!(SYKE),!Thematic!Center!for!Water!Research,!Studies!and!Projects!development!! (TC!Vode),!Federal!Environment!Agency!(UBA),!University!Duisburg.Essen!(UDE)! ! ! ! Cover'photo! ©!Tihomir!Makovec,!Marine!biology!station!Piran,!Slovenia! ' Layout! F&U!confirm,!Leipzig! ! Legal'notice' The!contents!of!this!publication!do!not!necessarily!reflect!the!official!opinions!of!the!European!Commission!or!other!institutions! of!the!European!Union.!Neither!the!European!Environment!Agency,!the!European!Topic!Centre!on!Inland,!Coastal!and!Marine!
  • Foot Abnormalities in Venericardia Antiquata and Venus Verrucosa from the Bizerte Lagoon Complex

    Foot Abnormalities in Venericardia Antiquata and Venus Verrucosa from the Bizerte Lagoon Complex

    e Rese tur arc ul h c & a u D q e A v e f l o o Béjaoui et al., J Aquac Res Development 2016, 7:7 l p a m n Journal of Aquaculture r e u n DOI: 10.4172/2155-9546.1000434 o t J ISSN: 2155-9546 Research & Development Research Article OpenOpen Access Access Foot Abnormalities in Venericardia antiquata and Venus verrucosa from the Bizerte Lagoon Complex (Northern Tunisia): Hydrodynamics and Sediment Texture Inductions Jihen Maâtoug Béjaoui, Ferdaous Jaafar Kefi, Anwar Mleiki and Najoua Trigui El Menif* Faculty of Sciences of Bizerte (FSB), Laboratory of Environment Biomonitoring, University of Carthage, Bizerte, Tunisia Abstract The Examination of the soft part of the two bivalve species Venericardia antiquata (Linnaeus 1758) and Venus verrucosa (Linnaeus 1758), that occur together in northern coast of Tunisia, allowed us to discover for the first time the presence of morphological abnormalities affecting the foot of many individuals (annual rate of 31.6%). The presence of a developed byssus was also detected in some specimens of V. antiquata. A classification scale of this malformation, established depending on the degree of this anomaly, showed six initial types that evolve to form two or three feet, at the posterior and/or anterior sides of the animal. In order to determine the causes of this malformation, experiments of transplantation were carried out. Specimens of V. verrucosa collected from Zarzouna station were transplanted in Chaâra station which is characterized by low rate of malformations, low hydrodynamics and different sediment type and vice versa. Results revealed that foot malformations degree is highly correlated with both hydrodynamics and substrate type.
  • References Please Help Making This Preliminary List As Complete As Possible!

    References Please Help Making This Preliminary List As Complete As Possible!

    Cypraeidae - important references Please help making this preliminary list as complete as possible! ABBOTT, R.T. (1965) Cypraea arenosa Gray, 1825. Hawaiian Shell News 14(2):8 ABREA, N.S. (1980) Strange goings on among the Cypraea ziczac. Hawaiian Shell News 28 (5):4 ADEGOKE, O.S. (1973) Paleocene mollusks from Ewekoro, southern Nigeria. Malacologia 14:19-27, figs. 1-2, pls. 1-2. ADEGOKE, O.S. (1977) Stratigraphy and paleontology of the Ewekoro Formation (Paleocene) of southeastern Nigeria. Bulletins of American Paleontology 71(295):1-379, figs. 1-6, pls. 1-50. AIKEN, R. P. (2016) Description of two undescribed subspecies and one fossil species of the Genus Cypraeovula Gray, 1824 from South Africa. Beautifulcowries Magazine 8: 14-22 AIKEN, R., JOOSTE, P. & ELS, M. (2010) Cypraeovula capensis - A specie of Diversity and Beauty. Strandloper 287 p. 16 ff AIKEN, R., JOOSTE, P. & ELS, M. (2014) Cypraeovula capensis. A species of diversity and beauty. Beautifulcowries Magazine 5: 38–44 ALLAN, J. (1956) Cowry Shells of World Seas. Georgian House, Melbourne, Australia, 170 p., pls. 1-15. AMANO, K. (1992) Cypraea ohiroi and its associated molluscan species from the Miocene Kadonosawa Formation, northeast Japan. Bulletin of the Mizunami Fossil Museum 19:405-411, figs. 1-2, pl. 57. ANCEY, C.F. (1901) Cypraea citrina Gray. The Nautilus 15(7):83. ANONOMOUS. (1971) Malacological news. La Conchiglia 13(146-147):19-20, 5 unnumbered figs. ANONYMOUS. (1925) Index and errata. The Zoological Journal. 1: [593]-[603] January. ANONYMOUS. (1889) Cypraea venusta Sowb. The Nautilus 3(5):60. ANONYMOUS. (1893) Remarks on a new species of Cypraea.
  • Morphological Variations of the Shell of the Bivalve Lucina Pectinata

    Morphological Variations of the Shell of the Bivalve Lucina Pectinata

    I S S N 2 3 47-6 8 9 3 Volume 10 Number2 Journal of Advances in Biology Morphological variations of the shell of the bivalve Lucina pectinata (Gmelin, 1791) Emma MODESTIN PhD of Biogeography, zoology and Ecology University of the French Antilles, UMR AREA DEV ABSTRACT In Martinique, the species Lucina pectinata (Gmelin, 1791) is called "mud clam, white clam or mangrove clam" by bivalve fishermen depending on the harvesting environment. Indeed, the individuals collected have differences as regards the shape and colour of the shell. The hypothesis is that the shape of the shell of L. pectinata (P. pectinatus) shows significant variations from one population to another. This paper intends to verify this hypothesis by means of a simple morphometric study. The comparison of the shape of the shell of individuals from different populations was done based on samples taken at four different sites. The standard measurements (length (L), width or thickness (E - épaisseur) and height (H)) were taken and the morphometric indices (L/H; L/E; E/H) were established. These indices of shape differ significantly among the various populations. This intraspecific polymorphism of the shape of the shell of P. pectinatus could be related to the nature of the sediment (granulometry, density, hardness) and/or the predation. The shells are significantly more elongated in a loose muddy sediment than in a hard muddy sediment or one rich in clay. They are significantly more convex in brackish environments and this is probably due to the presence of more specialised predators or of more muddy sediments. Keywords Lucina pectinata, bivalve, polymorphism of shape of shell, ecology, mangrove swamp, French Antilles.
  • Taxonomic Revision of West African Cone Snails (Gastropoda: Conidae) Based Upon Mitogenomic Studies: Implications for Conservation

    Taxonomic Revision of West African Cone Snails (Gastropoda: Conidae) Based Upon Mitogenomic Studies: Implications for Conservation

    European Journal of Taxonomy 663: 1–89 ISSN 2118-9773 https://doi.org/10.5852/ejt.2020.663 www.europeanjournaloftaxonomy.eu 2020 · Tenorio M.J. et al. This work is licensed under a Creative Commons Attribution License (CC BY 4.0). Monograph urn:lsid:zoobank.org:pub:78E7049C-F592-4D01-9D15-C7715119B584 Taxonomic revision of West African cone snails (Gastropoda: Conidae) based upon mitogenomic studies: implications for conservation Manuel J. TENORIO 1,*, Samuel ABALDE 2, José R. PARDOS-BLAS 3 & Rafael ZARDOYA 4 1 Departamento CMIM y Química Inorgánica – Instituto de Biomoléculas (INBIO), Facultad de Ciencias, Torre Norte, 1ª Planta, Universidad de Cadiz, 11510 Puerto Real, Cadiz, Spain. 2,3,4 Museo Nacional de Ciencias Naturales (MNCN-CSIC), José Gutiérrez Abascal 2, 28006 Madrid, Spain. * Corresponding author: [email protected] 2 Email: [email protected] 3 Email: [email protected] 4 Email: [email protected] 1 urn:lsid:zoobank.org:author:24B3DC9A-3E34-4165-A450-A8E86B0D1231 2 urn:lsid:zoobank.org:author:C72D4F45-19A1-4554-9504-42D1705C85A3 3 urn:lsid:zoobank.org:author:1CAB2718-4C97-47EE-8239-0582C472C40E 4 urn:lsid:zoobank.org:author:C55129E8-7FF7-41B2-A77C-4097E61DDD2E Abstract. In the last few years, a sharp increase in the number of descriptions of new species of West African cone snails, particularly from the Cabo Verde Archipelago, has taken place. In previous studies, we used mitogenome sequences for reconstructing robust phylogenies, which comprised in total 120 individuals representing the majority of species (69.7%) described from this biogeographical region (except Angolan endemics) and grouped into seven genera within the family Conidae.
  • Print This Article

    Print This Article

    Mediterranean Marine Science Vol. 9, 2008 Molluscan species of minor commercial interest in Hellenic seas: Distribution, exploitation and conservation status KATSANEVAKIS S. European Commission, Joint Research Centre, Institute for Environment and Sustainability, Ispra LEFKADITOU E. Hellenic Centre for Marine Research, Institute of Marine Biological Resources, Agios Kosmas, P.C. 16610, Elliniko, Athens GALINOU-MITSOUDI S. Fisheries & Aquaculture Technology, Alexander Technological Educational Institute of Thessaloniki, 63200, Nea Moudania KOUTSOUBAS D. University of the Aegean, Department of Marine Science, University Hill, 81100 Mytilini ZENETOS A. Hellenic Centre for Marine Research, Institute of Marine Biological Resources, Agios Kosmas, P.C. 16610, Elliniko, Athens https://doi.org/10.12681/mms.145 Copyright © 2008 To cite this article: KATSANEVAKIS, S., LEFKADITOU, E., GALINOU-MITSOUDI, S., KOUTSOUBAS, D., & ZENETOS, A. (2008). Molluscan species of minor commercial interest in Hellenic seas: Distribution, exploitation and conservation status. Mediterranean Marine Science, 9(1), 77-118. doi:https://doi.org/10.12681/mms.145 http://epublishing.ekt.gr | e-Publisher: EKT | Downloaded at 27/09/2021 17:44:35 | Review Article Mediterranean Marine Science Volume 9/1, 2008, 77-118 Molluscan species of minor commercial interest in Hellenic seas: Distribution, exploitation and conservation status S. KATSANEVAKIS1, E. LEFKADITOU1, S. GALINOU-MITSOUDI2, D. KOUTSOUBAS3 and A. ZENETOS1 1 Hellenic Centre for Marine Research, Institute of Marine Biological
  • WMSDB - Worldwide Mollusc Species Data Base

    WMSDB - Worldwide Mollusc Species Data Base

    WMSDB - Worldwide Mollusc Species Data Base Family: TURBINIDAE Author: Claudio Galli - [email protected] (updated 07/set/2015) Class: GASTROPODA --- Clade: VETIGASTROPODA-TROCHOIDEA ------ Family: TURBINIDAE Rafinesque, 1815 (Sea) - Alphabetic order - when first name is in bold the species has images Taxa=681, Genus=26, Subgenus=17, Species=203, Subspecies=23, Synonyms=411, Images=168 abyssorum , Bolma henica abyssorum M.M. Schepman, 1908 aculeata , Guildfordia aculeata S. Kosuge, 1979 aculeatus , Turbo aculeatus T. Allan, 1818 - syn of: Epitonium muricatum (A. Risso, 1826) acutangulus, Turbo acutangulus C. Linnaeus, 1758 acutus , Turbo acutus E. Donovan, 1804 - syn of: Turbonilla acuta (E. Donovan, 1804) aegyptius , Turbo aegyptius J.F. Gmelin, 1791 - syn of: Rubritrochus declivis (P. Forsskål in C. Niebuhr, 1775) aereus , Turbo aereus J. Adams, 1797 - syn of: Rissoa parva (E.M. Da Costa, 1778) aethiops , Turbo aethiops J.F. Gmelin, 1791 - syn of: Diloma aethiops (J.F. Gmelin, 1791) agonistes , Turbo agonistes W.H. Dall & W.H. Ochsner, 1928 - syn of: Turbo scitulus (W.H. Dall, 1919) albidus , Turbo albidus F. Kanmacher, 1798 - syn of: Graphis albida (F. Kanmacher, 1798) albocinctus , Turbo albocinctus J.H.F. Link, 1807 - syn of: Littorina saxatilis (A.G. Olivi, 1792) albofasciatus , Turbo albofasciatus L. Bozzetti, 1994 albofasciatus , Marmarostoma albofasciatus L. Bozzetti, 1994 - syn of: Turbo albofasciatus L. Bozzetti, 1994 albulus , Turbo albulus O. Fabricius, 1780 - syn of: Menestho albula (O. Fabricius, 1780) albus , Turbo albus J. Adams, 1797 - syn of: Rissoa parva (E.M. Da Costa, 1778) albus, Turbo albus T. Pennant, 1777 amabilis , Turbo amabilis H. Ozaki, 1954 - syn of: Bolma guttata (A. Adams, 1863) americanum , Lithopoma americanum (J.F.
  • Marine Snails of the Genus Phorcus: Biology and Ecology of Sentinel Species for Human Impacts on the Rocky Shores

    Marine Snails of the Genus Phorcus: Biology and Ecology of Sentinel Species for Human Impacts on the Rocky Shores

    DOI: 10.5772/intechopen.71614 Provisional chapter Chapter 7 Marine Snails of the Genus Phorcus: Biology and MarineEcology Snails of Sentinel of the Species Genus Phorcusfor Human: Biology Impacts and on the EcologyRocky Shores of Sentinel Species for Human Impacts on the Rocky Shores Ricardo Sousa, João Delgado, José A. González, Mafalda Freitas and Paulo Henriques Ricardo Sousa, João Delgado, José A. González, MafaldaAdditional information Freitas and is available Paulo at Henriques the end of the chapter Additional information is available at the end of the chapter http://dx.doi.org/10.5772/intechopen.71614 Abstract In this review article, the authors explore a broad spectrum of subjects associated to marine snails of the genus Phorcus Risso, 1826, namely, distribution, habitat, behaviour and life history traits, and the consequences of anthropological impacts, such as fisheries, pollution, and climate changes, on these species. This work focuses on discussing the ecological importance of these sentinel species and their interactions in the rocky shores as well as the anthropogenic impacts to which they are subjected. One of the main anthro- pogenic stresses that affect Phorcus species is fisheries. Topshell harvesting is recognized as occurring since prehistoric times and has evolved through time from a subsistence to commercial exploitation level. However, there is a gap of information concerning these species that hinders stock assessment and management required for sustainable exploi- tation. Additionally, these keystone species are useful tools in assessing coastal habitat quality, due to their eco-biological features. Contamination of these species with heavy metals carries serious risk for animal and human health due to their potential of biomag- nification in the food chain.
  • DEEP SEA LEBANON RESULTS of the 2016 EXPEDITION EXPLORING SUBMARINE CANYONS Towards Deep-Sea Conservation in Lebanon Project

    DEEP SEA LEBANON RESULTS of the 2016 EXPEDITION EXPLORING SUBMARINE CANYONS Towards Deep-Sea Conservation in Lebanon Project

    DEEP SEA LEBANON RESULTS OF THE 2016 EXPEDITION EXPLORING SUBMARINE CANYONS Towards Deep-Sea Conservation in Lebanon Project March 2018 DEEP SEA LEBANON RESULTS OF THE 2016 EXPEDITION EXPLORING SUBMARINE CANYONS Towards Deep-Sea Conservation in Lebanon Project Citation: Aguilar, R., García, S., Perry, A.L., Alvarez, H., Blanco, J., Bitar, G. 2018. 2016 Deep-sea Lebanon Expedition: Exploring Submarine Canyons. Oceana, Madrid. 94 p. DOI: 10.31230/osf.io/34cb9 Based on an official request from Lebanon’s Ministry of Environment back in 2013, Oceana has planned and carried out an expedition to survey Lebanese deep-sea canyons and escarpments. Cover: Cerianthus membranaceus © OCEANA All photos are © OCEANA Index 06 Introduction 11 Methods 16 Results 44 Areas 12 Rov surveys 16 Habitat types 44 Tarablus/Batroun 14 Infaunal surveys 16 Coralligenous habitat 44 Jounieh 14 Oceanographic and rhodolith/maërl 45 St. George beds measurements 46 Beirut 19 Sandy bottoms 15 Data analyses 46 Sayniq 15 Collaborations 20 Sandy-muddy bottoms 20 Rocky bottoms 22 Canyon heads 22 Bathyal muds 24 Species 27 Fishes 29 Crustaceans 30 Echinoderms 31 Cnidarians 36 Sponges 38 Molluscs 40 Bryozoans 40 Brachiopods 42 Tunicates 42 Annelids 42 Foraminifera 42 Algae | Deep sea Lebanon OCEANA 47 Human 50 Discussion and 68 Annex 1 85 Annex 2 impacts conclusions 68 Table A1. List of 85 Methodology for 47 Marine litter 51 Main expedition species identified assesing relative 49 Fisheries findings 84 Table A2. List conservation interest of 49 Other observations 52 Key community of threatened types and their species identified survey areas ecological importanc 84 Figure A1.
  • Cop13 Prop. 35

    Cop13 Prop. 35

    CoP13 Prop. 35 CONSIDERATION OF PROPOSALS FOR AMENDMENT OF APPENDICES I AND II A. Proposal Inclusion of Lithophaga lithophaga in Appendix II, in accordance with Article II, paragraph 2 (a). B. Proponents Italy and Slovenia (on behalf of the Member States of the European Community). C. Supporting statement Lithophaga lithophaga is an endolithic mussel from the family Mitilidae, which inhabits limestone rocks. This species needs specific substrate for its growth and owing to its particular biology (slow growing) it is not suitable for commercial breeding. L. lithophaga has a very distinctive and well known date-like appearance. L. lithophaga is distributed throughout the Mediterranean Sea. In the Atlantic Ocean it can be found on the Portugal coast and on the North African coast down to Senegal. It also inhabits the northern coast of Angola. The sole purpose of L. lithophaga exploitation is human consumption. It is known that the harvesting of the species from the wild for international trade has detrimental impact on the species. The collection of L. lithophaga for the purpose of trade poses a direct threat to this species due to the loss of its habitat. When L. lithophaga is harvested, the rocks it inhabits are broken into small pieces, often by very destructive methods such as pneumatic hammers and explosives. Broken rocks thus become unsuitable for colonisation by marine organisms. In addition to the direct threat to L. lithophaga, its collection reduces topographic heterogenity, macroalgal cover and epibiota. The destruction caused by L. lithophaga exploitation seriously affects littoral fish populations. The over-exploitation of L. lithophaga has caused important local ecological damage in many Mediterranean areas.
  • Prof. Henry Ramos Matthews” of the Instituto De Ciências Do Mar, Universidade Federal Do Ceará

    Prof. Henry Ramos Matthews” of the Instituto De Ciências Do Mar, Universidade Federal Do Ceará

    MOLLUCAN TYPES IN THE MALACOLOGICAL COLLECTION “PROF. HENRY RAMOS MATTHEWS” OF THE INSTITUTO DE CIÊNCIAS DO MAR, UNIVERSIDADE FEDERAL DO CEARÁ Arquivos de Ciências do Mar Espécimes-tipos de moluscos da Coleção Malacologica professor “Henry Ramos Matthews” do Instituto de Ciências do Mar, Universidade Federal do Ceará Cristina de Almeida Rocha-Barreira1, Helena Matthews-Cascon2, Luzymeire da Silva Souza1 ABSTRACT The molluscan types incorporated during the last 50 years in the Malacological Collection “Prof. Henry Ramos Matthews” were inventoried and the original descriptions of each species presented. This Collection presents 18 types, representing 11 gastropods species and one scaphopod species: Metula anfractura Matthews & Rios, 1968; Mitra saldanha Matthews & Rios, 1970; Mitra lopesi Matthews & Coelho, 1969; Ancilla faustoi Matthews et al., 1977; Caducifer atlanticus Coelho et al., 1970; Bursa barcellosi Matthews et al., 1973; Bursa pacamoni Matthews & Coelho,1971; Bursa natalensis Coelho & Matthews,1970; Malea noronhensis Kempf & Matthews, 1969; Marginella cloveri Matthews & Rios, 1972; Latirus lacteum Matthews-Cascon et al, 1991; and Dentalium elegantulum Penna- Neme, 1974. Most of the molluscan taxa are from the North and Northeast of Brazil and were described by Dr. Henry Ramos Matthews and his colleagues. Key words: Malacological Collection “Prof. Henry Ramos Matthews’’, name-bearing types, Brazil. RESUMO Os espécimes-tipo de moluscos incorporados ao longo dos últimos 50 anos na Coleção Malacológica “Prof. Henry Ramos Matthews”