DOCSLIB.ORG

10Th International Congress on Marine Corrosion and Fouling, University of Melbourne, February 1999

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
10Th International Congress on Marine Corrosion and Fouling, University of Melbourne, February 1999 10th International Congress on Marine Corrosion and Fouling, University of Melbourne, February 1999 Additional Papers John A Lewis (Editor) Maritime Platforms Division Aeronautical and Maritime Research Laboratory DSTO-GD-0287 ABSTRACT This volume contains nineteen papers from the 10th International Congress on Marine Corrosion and Fouling, held at the University of Melbourne in Melbourne, Australia, in February 1999. The scope of the congress was to enhance scientific understanding of the processes and prevention of chemical and biological degradation of materials in the sea. Papers in this volume range across the themes of marine biofilms and bioadhesion, macrofouling processes and effects, methods for prevention of marine fouling, biocides in the marine environment, biodeterioration of wood in the sea, and marine corrosion. RELEASE LIMITATION Approved for public release Published by DSTO Aeronautical and Maritime Research Laboratory 506 Lorimer St Fishermans Bend, Victoria 3207 Australia Telephone: (03) 9626 7000 Fax: (03) 9626 7999 © Commonwealth of Australia 2001 AR-011-880 May 2001 APPROVED FOR PUBLIC RELEASE 10th International Congress on Marine Corrosion and Fouling, University of Melbourne, February 1999 Additional Papers Executive Summary The fouling and corrosion of vessels and structures immersed in the sea continues to pose significant economic and operational costs to the owner. Fouling growth can interfere with the operation of submerged equipment, impose increased loading stresses and accelerate corrosion on marine structures, and adversely affect the performance of ships by increasing hydrodynamic drag, which necessitates the use of more power and fuel to move the ship through the water. Similarly, marine corrosion and biodegradation of materials can compromise the operation and structural integrity of vessels, structures and other immersed equipment. To enhance protection against fouling and corrosion would generate significant savings in both the maintenance and operation of maritime platforms and equipment. The first International Congress on Marine Corrosion and Fouling was held in France in 1964, and the Congress has continued to be held at approximately four year intervals since. Over this time the Congress has become the foremost international scientific conference on the chemical and biological degradation of materials in the sea, and brings together scientists from academia, industry, defence and other government organisations to present and discuss recent scientific developments in understanding and combating the degradation of materials, structures and the performance of vessels in the marine environment. The inaugural U.S./Pacific Rim Workshop on Emerging Non-Metallic Materials for the Marine Environment was held in Hawaii in 1997. Recognising the increasing pressures to reduce the costs of building and operating ships and the need to reduce or eliminate materials potentially toxic to shipbuilders, ships’ crews, and the environment, the workshop was organised to highlight the problems to be solved, the new materials available to address these needs, and areas where further research was needed The 10th International Congress on Marine Corrosion and Fouling, and the 2nd U.S./Pacific Rim Workshop on Emerging Non-Metallic Materials for the Marine Environment, were brought together at the University of Melbourne, in Melbourne, Australia, in February 1999. Close to 200 delegates from 24 countries attended, and 118 papers were presented in sessions on Biofilms and Bioadhesion, Chemical Mediation of Fouling in Natural Systems, Macrofouling and Macrofouling Processes, Prevention of Fouling, Regulation of Antifouling Practices, Antifouling Biocides in the Environment, Transport of Marine Species on Ship Hulls, Biodeterioration of Wood, and Marine Corrosion and Corrosion Control. Twenty-two selected papers form the congress were published in a special issue of the journal Biofouling in June 2000. An additional 19 papers are presented in this publication. Editor John A. Lewis Maritime Platforms Division John Lewis graduated from the University of Melbourne with a BSc (Hons) degree in 1975 and a MSc degree in 1977, both in marine biology. In 1977 he was recruited by DSTO to work within the Marine Environment Group of the then Materials Research Laboratory in Maribyrnong. He has remained with DSTO since, with primary research interests in marine biofouling and its prevention, and the effects of RAN activities on the marine environment. John is currently a Senior Research Scientist within the Maritime Platforms Division of DSTO’s Aeronautical & Maritime Research Laboratory, and manages tasks addressing new, environmentally acceptable methods of biofouling control, environmental compliance of naval vessels, and other environmental aspects of navy operations. ____________________ ________________________________________________ Contents 1. PREFACE ........................................................................................................................1 2. BIOFILMS & BIOADHESION ......................................................................................... 4 Nano-indentation Measurements of the Marine Bacteria Sphingomonas paucimobilis using the Atomic Force Microscope ............................................ 5 3. MACROFOULING PROCESSES................................................................................... 16 Macrofouling Role of Mussels in Italian Seas: A Short Review.............................. 17 Macrofouling of an Oceanographic Buoy in the Ligurian Sea (Western Mediterranean)....................................................................................................... 33 Effects of Fouling Organisms on the Water Quality of a Nuclear Power Plant Cooling System ...................................................................................................... 59 4. PREVENTION OF FOULING......................................................................................... 72 Controlling Biofouling on Ferry Hulls with Copper-Nickel Sheathing ................ 73 Antifouling from Nature: Laboratory Test with Balanus amphitrite Darwin on Algae and Sponges ................................................................................................ 88 Electromagnetic Antifouling Shield (EMAS) - A Promising Novel Antifouling Technique for Optical Systems........................................................................... 98 Properties of a Titanium Nitride Electrode and its Application for Electrochemical Prevention of Marine Biofouling........................................ 111 Electrochemical Prevention of Diatom Adhesion and Direct Estimation of Diatom Viability using TO-PRO-1 Iodide...................................................... 123 Development of a New Antifouling Paint Based on a Novel Zinc Acrylate Copolymer............................................................................................................. 131 5. ANTIFOULING BIOCIDES IN THE ENVIRONMENT ......................................... 146 The Legacy of 110 Years of Dockyard Operations .................................................... 147 The Effects of Changes in Environmental Parameters on the Release of Organic Booster Biocides from Antifouling Coatings ................................................. 157 6. BIODETERIORATION OF WOOD............................................................................. 171 Recent Marine Wood Preservation Research in Australia ...................................... 172 Copper-Chromium-Arsenic Levels in Barnacles Growing on Timber Marine Piles ..196 7. MARINE CORROSION & CORROSION CONTROL............................................ 211 Probabilistic Modelling of Marine Immersion Corrosion of Steels ..................... 212 Physico-Chemical Modelling for the Prediction of Seawater Metal Corrosion.. 222 Stress Corrosion Cracking of Duplex Stainless Steels and their Weldments in Marine Environments: An Overview.............................................................. 229 Rapid Assessment of the Crevice Corrosion Resistance of Stainless Steel Alloys in Seawater............................................................................................................ 237 Electrochemical Control of Fouling and Corrosion in a Mooring System for Use in Ecologically-Sensitive Sea Areas ................................................................. 248 DSTO-GD-0287 1. Preface The 10th International Congress on Marine Corrosion and Fouling, incorporating the 2nd U.S./Pacific Rim Workshop on Emerging Non-Metallic Materials for the Marine Environment was held at the University of Melbourne from 7-12 February 1999. This volume is the second volume of papers to arise from the Congress. A special issue of the journal Biofouling was published in June 2000, which contained a series of 22 papers selected from across the conference program. The themes represented were biofilms and bioadhesion, biocorrosion, fouling settlement processes, methods for the prevention of fouling, and deterioration of wood in the sea. Details of these papers appear at the end of this preface. The current volume contains an additional 19 papers submitted for publication by congress participants. Themes addressed herein encompass biofilms and bioadhesion, macrofouling processes and effects, prevention of fouling, biocides in the marine environment, biodeterioration of wood, and marine corrosion. I feel it is important to once again thank the many individuals
Load more

Recommended publications
  • Annelida, Hesionidae), Described As New Based on Morphometry
    Contributions to Zoology, 86 (2) 181-211 (2017) Another brick in the wall: population dynamics of a symbiotic species of Oxydromus (Annelida, Hesionidae), described as new based on morphometry Daniel Martin1,*, Miguel A. Meca1, João Gil1, Pilar Drake2 & Arne Nygren3 1 Centre d’Estudis Avançats de Blanes (CEAB-CSIC) – Carrer d’Accés a la Cala Sant Francesc 14. 17300 Blanes, Girona, Catalunya, Spain 2 Instituto de Ciencias Marinas de Andalucía (ICMAN-CSIC), Avenida República Saharaui 2, Puerto Real 11519, Cádiz, Spain 3 Sjöfartsmuseet Akvariet, Karl Johansgatan 1-3, 41459, Göteborg, Sweden 1 E-mail: [email protected] Key words: Bivalvia, Cádiz Bay, Hesionidae, Iberian Peninsula, NE Atlantic Oxydromus, symbiosis, Tellinidae urn:lsid:zoobank.org:pub: D97B28C0-4BE9-4C1E-93F8-BD78F994A8D1 Abstract Results ............................................................................................. 186 Oxydromus humesi is an annelid polychaete living as a strict bi- Morphometry ........................................................................... 186 valve endosymbiont (likely parasitic) of Tellina nymphalis in Population size-structure ..................................................... 190 Congolese mangrove swamps and of Scrobicularia plana and Infestation characteristics .................................................... 190 Macomopsis pellucida in Iberian saltmarshes. The Congolese Discussion ....................................................................................... 193 and Iberian polychaete populations were previously
    [Show full text]
  • Corrosion Fatigue: Type 304 Stainless Steel in Acid-Chloride and Implant Metals in Biological Fluid
    76-9939 BOWERS, Davtd Francis, 1937- CORROSION FATIGUE: TYPE 304 STAINLESS STEEL IN ACID-CHLORIDE AND IMPLANT METALS IN BIOLOGICAL FLUID. The Ohio State University, Ph.D., 1975 Engineering, metallurgy Xerox University Microfilms, Ann Arbor, Michigan 48ioe CORROSION FATIGUE: TYPE 304 STAINLESS STEEL IN ACID-CHLORIDE AND IMPLANT METALS IN BIOLOGICAL FLUID Dissertation Presented in Partial Fulfillment of the Requirements for the Degree Doctor of Philosophy in the Graduate School of The Ohio State University by David Francis Bowers, B.S., M.S. Metallurgical Engineering The Ohio State University 1975 Approved by (dviser Department of Metallurgical Engineering Reading Committee: Dr. Mars G. Fontana Dr. Frank Beck Dr. John P. Hirth To My Wife and Daughter TABLE OF CONTENTS Page ACKNOWLEDGEMENTS.......................................... iv VITA........................................................ vi LIST OF TABLES............................................. viii LIST OF FIGURES... ...................... x INTRODUCTION.................. .. ......................... 1 I. LITERATURE SURVEY..................... 4 1.1 Concepts and Theory of Fatigue Crack Growth.. 4 1.2 Fracture Mechanics Approach to Crack Growth in Engineering Structures..................... 18 1.3 Effect of Microstructure on Fatigue Cracking Growth................................ 24 1.4 Mechanical Variables in Corrosion Fatigue.... 41 1.5 Environmental Interaction with Fatigue Crack Growth.................................... 59 II. EXPERIMENTAL DETAILS...............................
    [Show full text]
  • Onetouch 4.0 Sanned Documents
    Vol. 82, pp. 1-30 29 May, 1969 PROCEEDINGS OF THE BIOLOGICAL SOCIETY OF WASHINGTON REVIEW OF SOME SPECIES REFERRED TO SCALISETOSUS MCINTOSH (POLYCHAETA, POLYNOIDAE) BY MABIAN H. PETTIBONE Smithsonian Institution, Washington, D. C. In connection with an extended review of the polynoid gen- era, based on a study of the type-species, it was foimd that Scalisetosus Mclntosh ( 1885) has been used for a heterogenous group of species. The genus has served to include species with setae as transparent as crystal and the neurosetae character- ized by the presence of a basal semilunar cusp or pocket, al- though this particular feature was not shown on the figure of the neiu-osetae of the type-species, S. ceramensis, by Mclntosh (1885, pi. lOA, fig. 14). Any species equipped with this pe- culiar type of neiu-osetae has been placed in Scalisetosus, re- gardless of other characters. Saint-Joseph (1899) proposed the new genus Adyte for three species {Polynoe pellucida Ehlers, Hermadion assimile Mclntosh, and H. echini Giard) having the peculiar type of neurosetae, separating them from S. cera- mensis, which lacks the basal semilunar cusps. Mclntosh (1900) was responsible for changing the diagnosis of Scali- setosus to include the species referred to Adyte by Saint- Joseph, Subsequently, Adyte was abandoned and was synony- mized with Scalisetosus by Fauvel (1914, p. 47). During a visit to the British Museum of Natural History in May 1967, I was able to examine the unique type of Scalise- tosus ceramensis and to verify that the neurosetae indeed do lack the basal semilunar cusps and that the species therefore lacks one of the key characters that has been attributed to the genus.
    [Show full text]
  • (Polychaeta) from the CANARY ISLANDS
    BULLETIN OF MARINE SCIENCE, 48(2): l8D-188, 1991 POL YNOIDAE (pOLYCHAETA) FROM THE CANARY ISLANDS M. C. Brito, J. Nunez and J. J. Bacallado ABSTRACT This paper is a contribution to the study of the family Polynoidae (Polychaeta) from the Canary Islands. The material examined has been collected by the authors from 1975 to 1989. A total of 18 species was found belonging to 8 genera: Gesiel/a (I), Po/ynoe (1), Adyte (I), Subadyte (I), Harrnothoe (11), A/entia (1), Lepidasthenia (1) and Lepidonotus (I). Ten species are new to this fauna and one, Harrnothoe cascabullico/a, is new to science. Furthermore, the genera Po/ynoe, Adyte and Lepidasthenia are recorded for the first time in the Canary Islands. The Polychaeta of the Canary Islands are enumerated in the provisional cata- logue of Nunez et al. (1984), in which are recorded 148 species, 12 of which belong to the family Polynoidae. Samples from the Canary coastline were examined and members ofPolynoidae studied. A total of 173 specimens was studied, belonging to 7 subfamilies, 8 genera, and 18 species, of which 9 species are recorded for the first time in the Canarian fauna. Worthy of note is the large number of species belonging to the genus Harmothoe (11), one of which, H. cascabullicola is new. METHODS The material examined was collected from 1975 to 1989, from 61 stations, at 45 localities on the Canary coasts (Fig. I). The list of stations, with their localities, types of substrate and collecting data are listed in Table I. The methods used in collecting depended on the type of substrate.
    [Show full text]
  • Corrosion-Fatigue Evaluation of Uncoated Weathering Steel Bridges
    applied sciences Article Corrosion-Fatigue Evaluation of Uncoated Weathering Steel Bridges Yu Zhang, Kaifeng Zheng, Junlin Heng * and Jin Zhu Department of Bridge Engineering, School of Civil Engineering, Southwest Jiaotong University, Chengdu 610031, China * Correspondence: [email protected]; Tel.: +86-182-8017-6652 Received: 19 July 2019; Accepted: 19 August 2019; Published: 22 August 2019 Featured Application: The new findings highlight the enhancement in corrosion-fatigue performance of steel bridges by using the uncoated weathering steel. Besides, an innovative approach has been established to simulate the corrosion-fatigue process in uncoated weathering steel bridges, providing deep insights into the service life of the bridges. The approaches suggested in the article can be used (not limited to) as a reference for the research and design of uncoated weathering steel bridges. Abstract: Uncoated weathering steel (UWS) bridges have been extensively used to reduce the lifecycle cost since they are maintenance-free and eco-friendly. However, the fatigue issue becomes significant in UWS bridges due to the intended corrosion process utilized to form the corrodent-proof rust layer instead of the coating process. In this paper, an innovative model is proposed to simulate the corrosion-fatigue (C-F) process in UWS bridges. Generally, the C-F process could be considered as two relatively independent stages in a time series, including the pitting process of flaw-initiation and the fatigue crack propagation of the critical pitting flaw. In the proposed C-F model, Faraday’s law has been employed at the critical flaw-initiation stage to describe the pitting process, in which the pitting current is applied to reflect the pitting rate in different corrosive environments.
    [Show full text]
  • Bancker Or Banker
    A PARTIAL HISTORY AND GENEALOGICAL RECORD OF THE BANCKER OR BANKER FAMILIES OF AMERICA AND IN PAllTICULAll THE DESCENDANTS OF LAURENS MATTYSE BANCKER. Yita 111im m,rtu,rum in mtmoria viwrum ,11 p,tita. _;, Citm. COMPILED BY HOWARD JAMES BANKER. 1909. THE TUTTLE COllP~\NY PRINTERS BUTLAND, VERMONT PREFACE. The production of this work has been of the nature of a pro­ cess of evolution, which the writer has found necessary to bring to an abrupt close in the interest.a of self-preservation. When but a boy of flfte~n he became interested in inquiring about his ancestors concerning whom he was able to learn very little from his immediate relatives. This only intensified his curiosity to find out something about them. He at length happened on an old family Bible• that greatly stimulated his interest' and incited him to collect the family records. For years this was a mere pastime and the material accumulated slowly with no thought of its ever being published. About 1899 he stumbled upon the Records of the Dutch Reformed Church of Sleepy Hollow near Tarrytown and to his amazement found this a per.feet mine of information respecting his family. The search of various records in and about New York became fascinating and absorbed much of his leisure time. The accumulation of material grew rapidly until it became impressed upon him that it would be a misfortune if all that he had gathered should be lost as it probably would be lost forever. It was apparent that the only way to preserve it per.
    [Show full text]
  • Corrosion Fatigue of Austenitic Stainless Steels for Nuclear Power Engineering
    metals Article Corrosion Fatigue of Austenitic Stainless Steels for Nuclear Power Engineering Irena Vlˇcková 1,*, Petr Jonšta 2, ZdenˇekJonšta 2, Petra Vá ˇnová 2 and Tat’ána Kulová 2 1 RMTSC, Material & Metallurgical Research Ltd., Remote Site Ostrava, VÚHŽ a.s., Dobrá 739 51, Czech Republic 2 Department of Materials Engineering, VŠB-Technical University of Ostrava, Ostrava 708 33, Czech Republic; [email protected] (P.J.); [email protected] (Z.J.); [email protected] (P.V.); [email protected] (T.K.) * Correspondence: [email protected]; Tel.: +420-558601257 Academic Editor: Hugo F. Lopez Received: 21 September 2016; Accepted: 8 December 2016; Published: 16 December 2016 Abstract: Significant structural steels for nuclear power engineering are chromium-nickel austenitic stainless steels. The presented paper evaluates the kinetics of the fatigue crack growth of AISI 304L and AISI 316L stainless steels in air and in corrosive environments of 3.5% aqueous NaCl solution after the application of solution annealing, stabilizing annealing, and sensitization annealing. Comparisons were made between the fatigue crack growth rate after each heat treatment regime, and a comparison between the fatigue crack growth rate in both types of steels was made. For individual heat treatment regimes, the possibility of the development of intergranular corrosion was also considered. Evaluations resulted in very favourable corrosion fatigue characteristics of the 316L steel. After application of solution and stabilizing annealing at a comparable DK level, the fatigue crack growth rate was about one half compared to 304L steel. After sensitization annealing of 316L steel, compared to stabilizing annealing, the increase of crack growth rate during corrosion fatigue was slightly higher.
    [Show full text]
  • Download Full Article 2.4MB .Pdf File
    Memoirs of Museum Victoria 71: 217–236 (2014) Published December 2014 ISSN 1447-2546 (Print) 1447-2554 (On-line) http://museumvictoria.com.au/about/books-and-journals/journals/memoirs-of-museum-victoria/ Original specimens and type localities of early described polychaete species (Annelida) from Norway, with particular attention to species described by O.F. Müller and M. Sars EIVIND OUG1,* (http://zoobank.org/urn:lsid:zoobank.org:author:EF42540F-7A9E-486F-96B7-FCE9F94DC54A), TORKILD BAKKEN2 (http://zoobank.org/urn:lsid:zoobank.org:author:FA79392C-048E-4421-BFF8-71A7D58A54C7) AND JON ANDERS KONGSRUD3 (http://zoobank.org/urn:lsid:zoobank.org:author:4AF3F49E-9406-4387-B282-73FA5982029E) 1 Norwegian Institute for Water Research, Region South, Jon Lilletuns vei 3, NO-4879 Grimstad, Norway ([email protected]) 2 Norwegian University of Science and Technology, University Museum, NO-7491 Trondheim, Norway ([email protected]) 3 University Museum of Bergen, University of Bergen, PO Box 7800, NO-5020 Bergen, Norway ([email protected]) * To whom correspondence and reprint requests should be addressed. E-mail: [email protected] Abstract Oug, E., Bakken, T. and Kongsrud, J.A. 2014. Original specimens and type localities of early described polychaete species (Annelida) from Norway, with particular attention to species described by O.F. Müller and M. Sars. Memoirs of Museum Victoria 71: 217–236. Early descriptions of species from Norwegian waters are reviewed, with a focus on the basic requirements for re- assessing their characteristics, in particular, by clarifying the status of the original material and locating sampling sites. A large number of polychaete species from the North Atlantic were described in the early period of zoological studies in the 18th and 19th centuries.
    [Show full text]
  • Woodlice in Britain and Ireland: Distribution and Habitat Is out of Date Very Quickly, and That They Will Soon Be Writing the Second Edition
    • • • • • • I att,AZ /• •• 21 - • '11 n4I3 - • v., -hi / NT I- r Arty 1 4' I, • • I • A • • • Printed in Great Britain by Lavenham Press NERC Copyright 1985 Published in 1985 by Institute of Terrestrial Ecology Administrative Headquarters Monks Wood Experimental Station Abbots Ripton HUNTINGDON PE17 2LS ISBN 0 904282 85 6 COVER ILLUSTRATIONS Top left: Armadillidium depressum Top right: Philoscia muscorum Bottom left: Androniscus dentiger Bottom right: Porcellio scaber (2 colour forms) The photographs are reproduced by kind permission of R E Jones/Frank Lane The Institute of Terrestrial Ecology (ITE) was established in 1973, from the former Nature Conservancy's research stations and staff, joined later by the Institute of Tree Biology and the Culture Centre of Algae and Protozoa. ITE contributes to, and draws upon, the collective knowledge of the 13 sister institutes which make up the Natural Environment Research Council, spanning all the environmental sciences. The Institute studies the factors determining the structure, composition and processes of land and freshwater systems, and of individual plant and animal species. It is developing a sounder scientific basis for predicting and modelling environmental trends arising from natural or man- made change. The results of this research are available to those responsible for the protection, management and wise use of our natural resources. One quarter of ITE's work is research commissioned by customers, such as the Department of Environment, the European Economic Community, the Nature Conservancy Council and the Overseas Development Administration. The remainder is fundamental research supported by NERC. ITE's expertise is widely used by international organizations in overseas projects and programmes of research.
    [Show full text]
  • The Environmental Effect on Corrosion Fatigue Behavior of Austenitic Stainless Steels
    The Environmental Effect on Corrosion Fatigue Behavior of Austenitic Stainless Steels by Lun Yu B.S. Nuclear Engineering (2013) Shanghai Jiao Tong University SUBMITTED TO THE DEPARTMENT OF NUCLEAR SCIENCE AND ENGINEERING IN PARTIAL FULFILLMENT OF THE REQUIREMENTS FOR THE DEGREE OF DOCTOR OF PHILOSOPHY IN NUCLEAR SCIENCE AND ENGINEERING AT THE MASSACHUSETTS INSTITUTE OF TECHNOLOGY September, 2017 © 2017 Massachusetts Institute of Technology. All rights reserved. Signature of Author: _____________________________________________________________ Lun Yu Department of Nuclear Science and Engineering August 25, 2017 Certified by: __________________________________________________________________ Ronald G. Ballinger Professor of Nuclear Science and Engineering, Materials Science and Engineering Thesis Supervisor Certified by: ___________________________________________________________________ Michael P. Short Assistant Professor of Nuclear Science and Engineering Thesis Reader Accepted by: ___________________________________________________________________ Ju Li Battelle Energy Alliance Professor of Nuclear Science and Engineering, Professor of Materials Science and Engineering Chair, Department Committee on Graduate Students This page was left blank intentionally The Environmental Effect on Corrosion Fatigue Behavior of Austenitic Stainless Steels by Lun Yu Submitted to the Department of Nuclear Science and Engineering on September 1, 2017 in Partial Fulfillment of the Requirements for the Degree of Doctor of Philosophy in Nuclear Science and
    [Show full text]
  • For Cage Aquaculture
    Strengthening and supporting further development of aquaculture in the Kingdom of Saudi Arabia PROJECT UTF/SAU/048/SAU Guidelines on Environmental Monitoring for Cage Aquaculture within the Kingdom of Saudi Arabia Cover photograph: Aerial view of the floating cage farm of Tharawat Sea Company, Medina Province, Kingdom of Saudi Arabia. (courtesy Nikos Keferakis) Guidelines on environmental monitoring for cage aquaculture within the Kingdom of Saudi Arabia RICHARD ANTHONY CORNER FAO Consultant The Technical Cooperation and Partnership between the Ministry of Environment, Water and Agriculture in the Kingdom of Saudi Arabia and the Food and Agriculture Organization of the United Nations The designations employed and the presentation of material in this information product do not imply the expression of any opinion whatsoever on the part of the Food and Agriculture Organization of the United Nations (FAO), or of the Ministry of Environment, Water and Agriculture in the Kingdom of Saudi Arabia concerning the legal or development status of any country, territory, city or area or of its authorities, or concerning the delimitation of its frontiers or boundaries. The mention of specic companies or products of manufacturers, whether or not these have been patented, does not imply that these have been endorsed or recommended by FAO, or the Ministry in preference to others of a similar nature that are not mentioned. The views expressed in this information product are those of the author(s) and do not necessarily reect the views or policies of FAO, or the Ministry. ISBN 978-92-5-109651-2 (FAO) © FAO, 2017 FAO encourages the use, reproduction and dissemination of material in this information product.
    [Show full text]
  • 2018 Bibliography of Taxonomic Literature
    Bibliography of taxonomic literature for marine and brackish water Fauna and Flora of the North East Atlantic. Compiled by: Tim Worsfold Reviewed by: David Hall, NMBAQCS Project Manager Edited by: Myles O'Reilly, Contract Manager, SEPA Contact: [email protected] APEM Ltd. Date of Issue: February 2018 Bibliography of taxonomic literature 2017/18 (Year 24) 1. Introduction 3 1.1 References for introduction 5 2. Identification literature for benthic invertebrates (by taxonomic group) 5 2.1 General 5 2.2 Protozoa 7 2.3 Porifera 7 2.4 Cnidaria 8 2.5 Entoprocta 13 2.6 Platyhelminthes 13 2.7 Gnathostomulida 16 2.8 Nemertea 16 2.9 Rotifera 17 2.10 Gastrotricha 18 2.11 Nematoda 18 2.12 Kinorhyncha 19 2.13 Loricifera 20 2.14 Echiura 20 2.15 Sipuncula 20 2.16 Priapulida 21 2.17 Annelida 22 2.18 Arthropoda 76 2.19 Tardigrada 117 2.20 Mollusca 118 2.21 Brachiopoda 141 2.22 Cycliophora 141 2.23 Phoronida 141 2.24 Bryozoa 141 2.25 Chaetognatha 144 2.26 Echinodermata 144 2.27 Hemichordata 146 2.28 Chordata 146 3. Identification literature for fish 148 4. Identification literature for marine zooplankton 151 4.1 General 151 4.2 Protozoa 152 NMBAQC Scheme – Bibliography of taxonomic literature 2 4.3 Cnidaria 153 4.4 Ctenophora 156 4.5 Nemertea 156 4.6 Rotifera 156 4.7 Annelida 157 4.8 Arthropoda 157 4.9 Mollusca 167 4.10 Phoronida 169 4.11 Bryozoa 169 4.12 Chaetognatha 169 4.13 Echinodermata 169 4.14 Hemichordata 169 4.15 Chordata 169 5.
    [Show full text]