AMBS2019 Manual
Total Page:16
File Type:pdf, Size:1020Kb
Load more
Recommended publications
-
The “Tsunami Break:” Impact of the Great East Japan Earthquake and the Accompanying Tsunamis on the Shell Growth of the Invasive Clam‑Eating Snail Laguncula Pulchella
Fisheries Science (2018) 84:485–494 https://doi.org/10.1007/s12562-018-1197-2 ORIGINAL ARTICLE Biology The “tsunami break:” impact of the Great East Japan Earthquake and the accompanying tsunamis on the shell growth of the invasive clam‑eating snail Laguncula pulchella Masahiro Suzuki1 · Kenji Okoshi1 Received: 26 October 2017 / Accepted: 6 March 2018 / Published online: 21 March 2018 © The Author(s) 2018 Abstract The Great East Japan Earthquake and accompanying tsunamis occurred on 11 March 2011, causing huge damage to marine organisms. The invasive naticid gastropod Laguncula pulchella (Euspira fortunei), which was introduced with the imported clam Ruditapes philippinarum from China and Korea, survived the earthquake. The “growth break line” observed on the shell surface in over 90% of the individuals collected in Matsushima Bay and Matsukawa-ura Lagoon after the tsunamis was exam- ined by scanning electron microscopy. Each shell presented three layers before and three after the growth break. However, the fracture surface consisted of fve layers—two prismatic and three crossed lamellar—around the growth break line. This suggests that shell formation temporarily ceased following the tsunamis and that the fve-layered shell may have developed in response to the stress caused by the tsunamis. The newly formed middle layer became thinner after the “tsunami break,” which may be the result of a rapid change in the mineralization process, including rapid shell growth and/or repair. These results suggest that the damage to and forcible removal of habitats by the tsunamis was stressful for L. pulchella. A decrease in or the cessation of shell formation after a tsunami may be a common phenomenon in mollusks that inhabit tidal fats. -
09-A Report(0050)-컬러
Anim. Syst. Evol. Divers. Vol. 30, No. 2: 124-131, April 2014 http://dx.doi.org/10.5635/ASED.2014.30.2.124 Short communication A Report on Five New Records of Nudibranch Molluscs from Korea Daewui Jung1,†, Jongrak Lee2, Chang-Bae Kim1,* 1Department of Life Science, Sangmyung University, Seoul 110-743, Korea 2Marine Biodiversity Research Institute, INTHESEA KOREA Inc., Jeju 697-110, Korea ABSTRACT The Korean nudibranch faunal study has been conducted since 2011 and five species including Dermatobran- chus otome Baba, 1992, Mexichromis festiva (Angas, 1864), Noumea nivalis Baba, 1937, Hoplodoris armata (Baba, 1993), and Okenia hiroi (Baba, 1938) were newly reported with re-descriptions and figures. Also, Noumea purpurea Baba, 1949 was re-described with illustrations because previous records for this species were given without a description. Two congeneric species in the genus Noumea could be distinguished by ground color, dorsal markings, color of the mantle edge and gills, and mantle and dorsal marking. In addition, mitochondrial cytochrome c oxidase subunit I (COI) sequences of five species were provided for further molecular identification study. Consequently, a total of 43 species have been reported for the Korean nudi- branch fauna. Keywords: Nudibranchia, taxonomy, Dermatobranchus otome, Mexichromis festiva, Noumea nivalis, Noumea purpurea, Hoplodoris armata, Okenia hiroi, Korea INTRODUCTION They were preserved in 10% neutral buffered formalin or 97 % ethanol. A stereoscopic microscope (Olympus SZ-61 with Species in the order Nudibranchia are characterized by a lack FuzhouTucsen TCA-3; Olympus, Tokyo, Japan) was used of shell in adult stage, highly diverse body form and various to examine the specimens. -
Invertebrate Animals (Metazoa: Invertebrata) of the Atanasovsko Lake, Bulgaria
Historia naturalis bulgarica, 22: 45-71, 2015 Invertebrate Animals (Metazoa: Invertebrata) of the Atanasovsko Lake, Bulgaria Zdravko Hubenov, Lyubomir Kenderov, Ivan Pandourski Abstract: The role of the Atanasovsko Lake for storage and protection of the specific faunistic diversity, characteristic of the hyper-saline lakes of the Bulgarian seaside is presented. The fauna of the lake and surrounding waters is reviewed, the taxonomic diversity and some zoogeographical and ecological features of the invertebrates are analyzed. The lake system includes from freshwater to hyper-saline basins with fast changing environment. A total of 6 types, 10 classes, 35 orders, 82 families and 157 species are known from the Atanasovsko Lake and the surrounding basins. They include 56 species (35.7%) marine and marine-brackish forms and 101 species (64.3%) brackish-freshwater, freshwater and terrestrial forms, connected with water. For the first time, 23 species in this study are established (12 marine, 1 brackish and 10 freshwater). The marine and marine- brackish species have 4 types of ranges – Cosmopolitan, Atlantic-Indian, Atlantic-Pacific and Atlantic. The Atlantic (66.1%) and Cosmopolitan (23.2%) ranges that include 80% of the species, predominate. Most of the fauna (over 60%) has an Atlantic-Mediterranean origin and represents an impoverished Atlantic-Mediterranean fauna. The freshwater-brackish, freshwater and terrestrial forms, connected with water, that have been established from the Atanasovsko Lake, have 2 main types of ranges – species, distributed in the Palaearctic and beyond it and species, distributed only in the Palaearctic. The representatives of the first type (52.4%) predomi- nate. They are related to the typical marine coastal habitats, optimal for the development of certain species. -
NEWSNEWS Vol.4Vol.4 No.04: 3123 January 2002 1 4
4.05 February 2002 Dr.Dr. KikutaroKikutaro BabaBaba MemorialMemorial IssueIssue 19052001 NEWS NEWS nudibranch nudibranch Domo Arigato gozaimas (Thank you) visit www.diveoz.com.au nudibranch NEWSNEWS Vol.4Vol.4 No.04: 3123 January 2002 1 4 1. Protaeolidella japonicus Baba, 1949 Photo W. Rudman 2, 3. Babakina festiva (Roller 1972) described as 1 Babaina. Photos by Miller and A. Ono 4. Hypselodoris babai Gosliner & Behrens 2000 Photo R. Bolland. 5. Favorinus japonicus Baba, 1949 Photo W. Rudman 6. Falbellina babai Schmekel, 1973 Photo Franco de Lorenzo 7. Phyllodesium iriomotense Baba, 1991 Photo W. Rudman 8. Cyerce kikutarobabai Hamatani 1976 - Photo M. Miller 9. Eubranchus inabai Baba, 1964 Photo W. Rudman 10. Dendrodoris elongata Baba, 1936 Photo W. Rudman 2 11. Phyllidia babai Brunckhorst 1993 Photo Brunckhorst 5 3 nudibranch NEWS Vol.4 No.04: 32 January 2002 6 9 7 10 11 8 nudibranch NEWS Vol.4 No.04: 33 January 2002 The Writings of Dr Kikutaro Baba Abe, T.; Baba, K. 1952. Notes on the opisthobranch fauna of Toyama bay, western coast of middle Japan. Collecting & Breeding 14(9):260-266. [In Japanese, N] Baba, K. 1930. Studies on Japanese nudibranchs (1). Polyceridae. Venus 2(1):4-9. [In Japanese].[N] Baba, K. 1930a. Studies on Japanese nudibranchs (2). A. Polyceridae. B. Okadaia, n.g. (preliminary report). Venus 2(2):43-50, pl. 2. [In Japanese].[N] Baba, K. 1930b. Studies on Japanese nudibranchs (3). A. Phyllidiidae. B. Aeolididae. Venus 2(3):117-125, pl. 4.[N] Baba, K. 1931. A noteworthy gill-less holohepatic nudibranch Okadaia elegans Baba, with reference to its internal anatomy. -
Anadara Kagoshimensis (Mollusca: Bivalvia: Arcidae)
Research Article Mediterranean Marine Science Indexed in WoS (Web of Science, ISI Thomson) and SCOPUS The journal is available on line at http://www.medit-mar-sc.net http://dx.doi.org/10.12681/mms.2076 Anadara kagoshimensis (Mollusca: Bivalvia: Arcidae) in the Adriatic Sea: morphological analysis, molecular taxonomy, spatial distribution, and prediction PIERLUIGI STRAFELLA1, ALICE FERRARI2, GIANNA FABI1, VERA SALVALAGGIO1, ELISA PUNZO1, CLARA CUICCHI1, ANGELA SANTELLI1, ALESSIA CARIANI2, FAUSTO TINTI2, ANNA NORA TASSETTI1 and GIUSEPPE SCARCELLA1 1 Istituto di Scienze Marine (ISMAR), Consiglio Nazionale delle Ricerche (CNR), L.go Fiera della Pesca, 2, 60125 Ancona, Italy 2 Department of Biological, Geological & Environmental Sciences (BiGeA), University of Bologna, Via Selmi, 3, 40126, Bologna, Italy Corresponding author: [email protected] Handling Editor: Fabio Crocetta Received: 11 October 2016; Accepted: 3 August 2017; Published on line: 7 December 2017 Abstract Morphological analysis, molecular characterization, and a study of the distribution and density of Anadara kagoshimensis (Tokunaga, 1906) specimens collected in the Adriatic Sea were carried out using materials and data collected in the course of 329 bottom trawl hauls conducted in five yearly surveys, from 2010 to 2014. Morphological and molecular analysis allowed clarifying the confused taxonomy of the largest alien ark clam species invading Italian waters and the Mediterranean Sea. Analysis of the distribution and density data demonstrated that, along the Italian coast, A. kagoshimensis is mostly found at depths of 8 to 50 m, with a catch frequency of more than 98% in the hauls involving silty-clay sediment at a depth of 8-30 m. The hotspot map clearly shows a reduction in the distribution area of the species from 2010 to 2012. -
Alien Species in the Mediterranean Sea by 2010
Mediterranean Marine Science Review Article Indexed in WoS (Web of Science, ISI Thomson) The journal is available on line at http://www.medit-mar-sc.net Alien species in the Mediterranean Sea by 2010. A contribution to the application of European Union’s Marine Strategy Framework Directive (MSFD). Part I. Spatial distribution A. ZENETOS 1, S. GOFAS 2, M. VERLAQUE 3, M.E. INAR 4, J.E. GARCI’A RASO 5, C.N. BIANCHI 6, C. MORRI 6, E. AZZURRO 7, M. BILECENOGLU 8, C. FROGLIA 9, I. SIOKOU 10 , D. VIOLANTI 11 , A. SFRISO 12 , G. SAN MART N 13 , A. GIANGRANDE 14 , T. KATA AN 4, E. BALLESTEROS 15 , A. RAMOS-ESPLA ’16 , F. MASTROTOTARO 17 , O. OCA A 18 , A. ZINGONE 19 , M.C. GAMBI 19 and N. STREFTARIS 10 1 Institute of Marine Biological Resources, Hellenic Centre for Marine Research, P.O. Box 712, 19013 Anavissos, Hellas 2 Departamento de Biologia Animal, Facultad de Ciencias, Universidad de Ma ’laga, E-29071 Ma ’laga, Spain 3 UMR 6540, DIMAR, COM, CNRS, Université de la Méditerranée, France 4 Ege University, Faculty of Fisheries, Department of Hydrobiology, 35100 Bornova, Izmir, Turkey 5 Departamento de Biologia Animal, Facultad de Ciencias, Universidad de Ma ’laga, E-29071 Ma ’laga, Spain 6 DipTeRis (Dipartimento per lo studio del Territorio e della sue Risorse), University of Genoa, Corso Europa 26, 16132 Genova, Italy 7 Institut de Ciències del Mar (CSIC) Passeig Mar tim de la Barceloneta, 37-49, E-08003 Barcelona, Spain 8 Adnan Menderes University, Faculty of Arts & Sciences, Department of Biology, 09010 Aydin, Turkey 9 c\o CNR-ISMAR, Sede Ancona, Largo Fiera della Pesca, 60125 Ancona, Italy 10 Institute of Oceanography, Hellenic Centre for Marine Research, P.O. -
Last Reprint Indexed Is 004480
17 September 2009 Nudibranch Systematic Index page - 1 NUDIBRANCH SYSTEMATIC INDEX Second Online Edition compiled by Gary McDonald 17 September 2009 Gary McDonald, Long Marine Lab, 100 Shaffer Rd., Santa Cruz, Cal. 95060 17 September 2009 Nudibranch Systematic Index page - 2 This is an index of the more than 7,000 nudibranch reprints and books in my collection. I have indexed them only for information concerning systematics, taxonomy, nomenclature, & description of taxa (as these are my areas of interest, and to have tried to index for areas such as physiology, behavior, ecology, neurophysiology, anatomy, etc. would have made the job too large and I would have given up long ago). This is a working list and as such may contain errors, but it should allow you to quickly find information concerning the description, taxonomy, or systematics of almost any species of nudibranch. The phylogenetic hierarchy used is based on Traite de Zoologie, with a few additions and changes (since this is intended to be an index, and not a definitive classification, I have not attempted to update the hierarchy to reflect recent changes). The full citation for any of the authors and dates listed may be found in the nudibranch bibliography at http://repositories.cdlib.org/ims/Bibliographia_Nudibranchia_second_edition/. Names in square brackets and preceded by an equal sign are synonyms which were listed as such in at least one of the cited papers. If only a generic name is listed in square brackets after a species name, it indicates that the generic allocation of the species has changed, but the specific epithet is the same. -
TEAMS2016 Book.Pdf
Marine ecosystems after Great East Japan Earthquake in 2011 – Our knowledge acquired by TEAMS – Edited by Kazuhiro Kogure, Masato Hirose, Hiroshi Kitazato and Akihiro Kijima First edition March, 2016 Printed in Japan TEAMS office Atmosphere and Ocean Research Institute, the University of Tokyo 5-1-5, Kashiwanoha, Kashiwa, Chiba 277-8564, Japan http://www.aori.u-tokyo.ac.jp/ Tokai University Press 4-1-1 Kitakaname, Hiratsuka-shi, Kanagawa 259-1292, Japan List of Contents 1. Preface ……………………………………………………………………………………………………………………………… 5 2. Great East Japan Earthquake (GEJE) ………………………………………………………………………………………… 6 2-1 The earthquake and subsequent tsunami on March 11, 2011 …………………………………………………………………… 6 2-2 Overview of damage caused by the tsunami in Tohoku region ………………………………………………………………… 6 2-3 Damage to fisheries due to GEJE ……………………………………………………………………………………………… 7 2-4 Effect of tsunami on the marine environment …………………………………………………………………………………… 9 3. TEAMS: Tohoku Ecosystem-Associated Marine Sciences ………………………………………………………………… 9 3-1 History and purpose ……………………………………………………………………………………………………………… 9 3-2 Organization ……………………………………………………………………………………………………………………… 10 4. Our knowledges …………………………………………………………………………………………………………………… 11 Project-1 Studies on ecological succession of fishery grounds (Project leader: Akihiro Kijima, IMFS, Tohoku University) ……… 11 Subject-1 Environmental monitoring in coastal areas of Miyagi Prefecture ……………………………………………………… 11 Subject-2 Ecosystems and genetic research to conserve and restore the coastal fisheries areas in Miyagi -
The Fauna and Geography of the Maldive and Laccadive Archipelagoes
Part II. of Volume II. will be published on November 75, igo^. The Fauna and Geography of the Maldive and Laccadive Archipelagoes Being the Account of the Work carried on and of the Collections made by an Expedition during the years 1899 ^^^ 1900 Edited by J. Stanley Gardiner, M.A. Fellow of Gonville and Caius College and late Balfour Student of the University of Cambridge. VOLUME II. PART I. With Plates XXVI—XXXIV Cambridge : at the University Press. London: C. J. Clay and Sons, Cambridge University Press Warehouse, Ave Maria Lane. Price Fifteen Shillings net. The Fauna and Geography of the Maldive and Laccadive Archipelagoes VOLUME li. PART I. HonUon: C. J. CLAY and SONS, CAMBRIDGE UNIVERSITY PRESS WAREHOUSE, AVE MARIA LANE, AND H. K. LEWIS, 136, GOWEE STREET, W.C. ©lasgoto: 50, WELLINGTON STREET. Uripng: F. A. BROCKHAUS. ilrlD gorit: THE MACMILLAN COMPANY. ISomtia!) anl) Calrutta: MACMILLAN AND CO., Lid. [All Rights reserved.'] ' 4^ liS The Fauna and Geography of the ^^ Maldive and Laccadive Archipelagoes Being the Account of the Work carried on and of the Collections made by an Expedition during the years 1899 and 1900 Edited by J. Stanley Gardiner, M.A. Fellow of Gonville and Caius College and late Balfour Student of the University of Cambridge. VOLUME II. PART I. With Plates XXVI—XXXIV Cambridge : at the University Press. 1903 r o a :n-i : CAMBRIDGE PRINTED BY J. AND C. F. CLAY, AT THE UNIVERSITY PRESS. CONTENTS OF VOL. II. PAET I. Reports. PAGE 1. The Alcyonaria of the Maldives. Part I. The Genera Xenia, Telesto, Spongodes, Nephthya, Paraspongodes, Chironephthya, Siphonogorgia, Solenocaulon, and Melitodes. -
From the Marshall Islands, Including 57 New Records 1
Pacific Science (1983), vol. 37, no. 3 © 1984 by the University of Hawaii Press. All rights reserved Notes on Some Opisthobranchia (Mollusca: Gastropoda) from the Marshall Islands, Including 57 New Records 1 SCOTT JOHNSON2 and LISA M. BOUCHER2 ABSTRACT: The rich opisthobranch fauna of the Marshall Islands has re mained largely unstudied because of the geographic remoteness of these Pacific islands. We report on a long-term collection ofOpisthobranchia assembled from the atolls of Bikini, Enewetak, Kwajalein, Rongelap, and Ujelang . Fifty-seven new records for the Marshall Islands are recorded, raising to 103 the number of species reported from these islands. Aspects ofthe morphology, ecology, devel opment, and systematics of 76 of these species are discussed. THE OPISTHOBRANCH FAUNA OF THE Marshall viously named species are discussed, 57 of Islands, a group of 29 atolls and five single which are new records for the Marshall islands situated 3500 to 4400 km west south Islands (Table 1). west of Honolulu, Hawaii, is rich and varied but has not been reported on in any detail. Pre vious records of Marshall Islands' Opistho METHODS branchia record only 36 species and are largely restricted to three studies. Opisthobranchs The present collections were made on inter collected in the northern Marshalls during the tidal reefs and in shallow water by snorkeling period of nuclear testing (1946 to 1958) and and by scuba diving to depths of 25 m, both now in the U.S. National Museum, along with by day and night. additional material from Micronesia, were Descriptions, measurements, and color studied by Marcus (1965). -
Anadara Inaequivalvis) Ecological Risk Screening Summary
Arc clam (Anadara inaequivalvis) Ecological Risk Screening Summary U.S. Fish and Wildlife Service, Web Version – 11/27/2017 Photo: Andrew Butko. Licensed under Creative Commons BY-SA 3.0 Unported. Available: http://eol.org/data_objects/27712609. 1 Native Range and Status in the United States Native Range From Sahin et al. (2009): “[…] blood-cockle [A. inaequivalvis] are Indo-Pacific origin.” From Lutaenko (1993): “Distribution: India, Burma, Thailand, Malaya, Indonesia, North Australia, Philippines, Japan, China […]” Status in the United States No records of Anadara inaequivalvis in the United States were found. 1 Means of Introductions in the United States No records of Anadara inaequivalvis in the United States were found. Remarks Some records refer to Anadara inaequivalvis using the synonym Scapharca inaequivalvis. Information searches were performed using both names. From Gofas (2004): “Anadara kagoshimensis (Tokunaga, 1906) is the valid name for an invasive species in the Mediterranean and Black Sea. It has earlier been misidentified and reported under the names Scapharca cornea and Anadara inaequivalvis. Anadara cornea (Reeve, 1844) and Anadara inaequivalvis (Bruguière, 1789) are two valid species that do not occur in the Mediterranean and Black Sea, neither as a native nor as an introduced species.” From Zenetos et al. (2010): “The Adriatic holds only 27 alien species (15 established, nine casual and three cryptogenic) but the striking characteristic is the high proportion of them which have become invasive. Together with the Levantine basin, the Adriatic may be the part of the Mediterranean which has been most transformed by the onset of alien species. The most invasive species include Anadara kagoshimensis (formerly known [identified] as A. -
The Chemistry and Chemical Ecology of Nudibranchs Cite This: Nat
Natural Product Reports View Article Online REVIEW View Journal | View Issue The chemistry and chemical ecology of nudibranchs Cite this: Nat. Prod. Rep.,2017,34, 1359 Lewis J. Dean and Mich`ele R. Prinsep * Covering: up to the end of February 2017 Nudibranchs have attracted the attention of natural product researchers due to the potential for discovery of bioactive metabolites, in conjunction with the interesting predator-prey chemical ecological interactions that are present. This review covers the literature published on natural products isolated from nudibranchs Received 30th July 2017 up to February 2017 with species arranged taxonomically. Selected examples of metabolites obtained from DOI: 10.1039/c7np00041c nudibranchs across the full range of taxa are discussed, including their origins (dietary or biosynthetic) if rsc.li/npr known and biological activity. Creative Commons Attribution-NonCommercial 3.0 Unported Licence. 1 Introduction 6.5 Flabellinoidea 2 Taxonomy 6.6 Tritonioidea 3 The origin of nudibranch natural products 6.6.1 Tethydidae 4 Scope of review 6.6.2 Tritoniidae 5 Dorid nudibranchs 6.7 Unassigned families 5.1 Bathydoridoidea 6.7.1 Charcotiidae 5.1.1 Bathydorididae 6.7.2 Dotidae This article is licensed under a 5.2 Doridoidea 6.7.3 Proctonotidae 5.2.1 Actinocyclidae 7 Nematocysts and zooxanthellae 5.2.2 Cadlinidae 8 Conclusions 5.2.3 Chromodorididae 9 Conicts of interest Open Access Article. Published on 14 November 2017. Downloaded 9/28/2021 5:17:27 AM. 5.2.4 Discodorididae 10 Acknowledgements 5.2.5 Dorididae 11