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Verification of Vulnerable Zones Identified Under the Nitrate Directive \ and Sensitive Areas Identified Under the Urban Waste W
CONTENTS 1 INTRODUCTION 1 1.1 THE URBAN WASTEWATER TREATMENT DIRECTIVE (91/271/EEC) 1 1.2 THE NITRATES DIRECTIVE (91/676/EEC) 3 1.3 APPROACH AND METHODOLOGY 4 2 THE OFFICIAL GREEK DESIGNATION PROCESS 9 2.1 OVERVIEW OF THE CURRENT SITUATION IN GREECE 9 2.2 OFFICIAL DESIGNATION OF SENSITIVE AREAS 10 2.3 OFFICIAL DESIGNATION OF VULNERABLE ZONES 14 1 INTRODUCTION This report is a review of the areas designated as Sensitive Areas in conformity with the Urban Waste Water Treatment Directive 91/271/EEC and Vulnerable Zones in conformity with the Nitrates Directive 91/676/EEC in Greece. The review also includes suggestions for further areas that should be designated within the scope of these two Directives. Although the two Directives have different objectives, the areas designated as sensitive or vulnerable are reviewed simultaneously because of the similarities in the designation process. The investigations will focus upon: • Checking that those waters that should be identified according to either Directive have been; • in the case of the Nitrates Directive, assessing whether vulnerable zones have been designated correctly and comprehensively. The identification of vulnerable zones and sensitive areas in relation to the Nitrates Directive and Urban Waste Water Treatment Directive is carried out according to both common and specific criteria, as these are specified in the two Directives. 1.1 THE URBAN WASTEWATER TREATMENT DIRECTIVE (91/271/EEC) The Directive concerns the collection, treatment and discharge of urban wastewater as well as biodegradable wastewater from certain industrial sectors. The designation of sensitive areas is required by the Directive since, depending on the sensitivity of the receptor, treatment of a different level is necessary prior to discharge. -
Collection of Plastics from the Environment and Their Potential Usage: Mapping Actions in Greece
Collection of plastics from the environment and their potential usage: Mapping actions in Greece Kikaki A., Kastanidi E., Pagou, K., Karageorgis A. Institute of Oceanography Hellenic Centre for Marine Research 7th Group of Senior Officials - GSO BLUEMED WG remote meeting 10 December 2020 Actions recorded for the period 2018-2020 Beach & Underwater Clean-ups Education Marine Litter Collection Stations Circular Economy Plastic Free Islands Initiatives Data (non-exhaustive) were collected from the Internet as well as by personal communication with Clean-Ups Organizers BLUEMED PILOT – Greek Hub • The data were collected as part of the actions of the Greek hub to combat plastic pollution in Greece • Mapping activities concentrated on recording data of public actions of beach and underwater waste removal and the identification of innovative opportunities for re- using collected waste • The extent of these actions show the importance of these citizen’s activities in addressing the plastic pollution problems. • The actions have been categorised into Beach clean-ups (waste collection), Waste quantification (i.e., weighing), Waste classification aiming to connect these actions with the MSFD protocols A contribution to: ‘Mission Starfish 2030: Restore our Ocean and Waters’ Facts • The EU coastline is 68,000 km long • Almost half of the EU population lives less than 50 km from the sea. In 2011, 206 million people, or 41 % of the EU population, lived in Europe's coastal regions (Eurostat). • Greece's coastline measures 13,676 km (the longest within EU 27 countries, second after Norway, followed by the UK) • Greek sovereign land includes 6,000 islands and islets scattered in the Aegean and Ionian Seas, of which 227 islands are inhabited. -
Lakshadweep Action Plan on Climate Change 2012 2012 333333333333333333333333
Lakshadweep Action Plan on Climate Change 2012 2012 333333333333333333333333 LAKSHADWEEP ACTION PLAN ON CLIMATE CHANGE (LAPCC) UNION TERRITORY OF LAKSHADWEEP i SUPPORTED BY UNDP Lakshadweep Action Plan on Climate Change 2012 LAKSHADWEEP ACTION PLAN ON CLIMATE CHANGE (LAPCC) Department of Environment and Forestry Union Territory of Lakshadweep Supported by UNDP ii Lakshadweep Action Plan on Climate Change 2012 Foreword 2012 Climate Change (LAPCC) iii Lakshadweep Action Plan on Lakshadweep Action Plan on Climate Change 2012 Acknowledgements 2012 Climate Change (LAPCC) iv Lakshadweep Action Plan on Lakshadweep Action Plan on Climate Change 2012 CONTENTS FOREWORD .......................................................................................................................................... III ACKNOWLEDGEMENTS .................................................................................................................... IV EXECUTIVE SUMMARY .................................................................................................................. XIII PART A: CLIMATE PROFILE .............................................................................................................. 1 1 LAKSHADWEEP - AN OVERVIEW ............................................................................................. 2 1.1 Development Issues and Priorities .............................................................................................................................. 3 1.2 Baseline Scenario of Lakshadweep ............................................................................................................................ -
A NEWS BULLETIN Published Quarterly by the NEW ZEALAND ANTARCTIC SOCIETY (INC)
A NEWS BULLETIN published quarterly by the NEW ZEALAND ANTARCTIC SOCIETY (INC) An English-born Post Office technician, Robin Hodgson, wearing a borrowed kilt, plays his pipes to huskies on the sea ice below Scott Base. So far he has had a cool response to his music from his New Zealand colleagues, and a noisy reception f r o m a l l 2 0 h u s k i e s . , „ _ . Antarctic Division photo Registered at Post Ollice Headquarters. Wellington. New Zealand, as a magazine. II '1.7 ^ I -!^I*"JTr -.*><\\>! »7^7 mm SOUTH GEORGIA, SOUTH SANDWICH Is- . C I R C L E / SOUTH ORKNEY Is x \ /o Orcadas arg Sanae s a Noydiazarevskaya ussr FALKLAND Is /6Signyl.uK , .60"W / SOUTH AMERICA tf Borga / S A A - S O U T H « A WEDDELL SHETLAND^fU / I s / Halley Bav3 MINING MAU0 LAN0 ENOERBY J /SEA uk'/COATS Ld / LAND T> ANTARCTIC ••?l\W Dr^hnaya^^General Belgrano arg / V ^ M a w s o n \ MAC ROBERTSON LAND\ '■ aust \ /PENINSULA' *\4- (see map betowi jrV^ Sobldl ARG 90-w {■ — Siple USA j. Amundsen-Scott / queen MARY LAND {Mirny ELLSWORTH" LAND 1, 1 1 °Vostok ussr MARIE BYRD L LAND WILKES LAND ouiiiv_. , ROSS|NZJ Y/lnda^Z / SEA I#V/VICTORIA .TERRE , **•»./ LAND \ /"AOELIE-V Leningradskaya .V USSR,-'' \ --- — -"'BALLENYIj ANTARCTIC PENINSULA 1 Tenitnte Matianzo arg 2 Esptrarua arg 3 Almirarrta Brown arc 4PttrtlAHG 5 Otcipcion arg 6 Vtcecomodoro Marambio arg * ANTARCTICA 7 Arturo Prat chile 8 Bernardo O'Higgins chile 1000 Miles 9 Prasid«fTtB Frei chile s 1000 Kilometres 10 Stonington I. -
Challenges and Opportunities for Sustainable Management of Water Resources in the Island of Crete, Greece
water Review Challenges and Opportunities for Sustainable Management of Water Resources in the Island of Crete, Greece V. A. Tzanakakis 1,2,*, A. N. Angelakis 3,4 , N. V. Paranychianakis 5, Y. G. Dialynas 6 and G. Tchobanoglous 7 1 Hellenic Agricultural Organization Demeter (HAO-Demeter), Soil and Water Resources Institute, 57001 Thessaloniki, Greece 2 Department of Agriculture, School of Agricultural Science, Hellenic Mediterranean University, Iraklion, 71410 Crete, Greece 3 HAO-Demeter, Agricultural Research Institution of Crete, 71300 Iraklion, Greece 4 Union of Water Supply and Sewerage Enterprises, 41222 Larissa, Greece; [email protected] 5 School of Environmental Engineering, Technical University of Crete, 73100 Chania, Greece; [email protected] 6 Department of Civil and Environmental Engineering, University of Cyprus, Nicosia 1678, Cyprus; [email protected] 7 Department of Civil and Environmental Engineering, University of Davis, Davis, CA 95616, USA; [email protected] * Correspondence: [email protected] Received: 12 April 2020; Accepted: 16 May 2020; Published: 28 May 2020 Abstract: Crete, located in the South Mediterranean Sea, is characterized by long coastal areas, varied terrain relief and geology, and great spatial and inter-annual variations in precipitation. Under average meteorological conditions, the island is water-sufficient (969 mm precipitation; theoretical water potential 3284 hm3; and total water use 610 hm3). Agriculture is by far the greatest user of water (78% of total water use), followed by domestic use (21%). Despite the high average water availability, water scarcity events commonly occur, particularly in the eastern-south part of the island, driven by local climatic conditions and seasonal or geographical mismatches between water availability and demand. -
Recent Noteworthy Findings of Fungus Gnats from Finland and Northwestern Russia (Diptera: Ditomyiidae, Keroplatidae, Bolitophilidae and Mycetophilidae)
Biodiversity Data Journal 2: e1068 doi: 10.3897/BDJ.2.e1068 Taxonomic paper Recent noteworthy findings of fungus gnats from Finland and northwestern Russia (Diptera: Ditomyiidae, Keroplatidae, Bolitophilidae and Mycetophilidae) Jevgeni Jakovlev†, Jukka Salmela ‡,§, Alexei Polevoi|, Jouni Penttinen ¶, Noora-Annukka Vartija# † Finnish Environment Insitutute, Helsinki, Finland ‡ Metsähallitus (Natural Heritage Services), Rovaniemi, Finland § Zoological Museum, University of Turku, Turku, Finland | Forest Research Institute KarRC RAS, Petrozavodsk, Russia ¶ Metsähallitus (Natural Heritage Services), Jyväskylä, Finland # Toivakka, Myllyntie, Finland Corresponding author: Jukka Salmela ([email protected]) Academic editor: Vladimir Blagoderov Received: 10 Feb 2014 | Accepted: 01 Apr 2014 | Published: 02 Apr 2014 Citation: Jakovlev J, Salmela J, Polevoi A, Penttinen J, Vartija N (2014) Recent noteworthy findings of fungus gnats from Finland and northwestern Russia (Diptera: Ditomyiidae, Keroplatidae, Bolitophilidae and Mycetophilidae). Biodiversity Data Journal 2: e1068. doi: 10.3897/BDJ.2.e1068 Abstract New faunistic data on fungus gnats (Diptera: Sciaroidea excluding Sciaridae) from Finland and NW Russia (Karelia and Murmansk Region) are presented. A total of 64 and 34 species are reported for the first time form Finland and Russian Karelia, respectively. Nine of the species are also new for the European fauna: Mycomya shewelli Väisänen, 1984,M. thula Väisänen, 1984, Acnemia trifida Zaitzev, 1982, Coelosia gracilis Johannsen, 1912, Orfelia krivosheinae Zaitzev, 1994, Mycetophila biformis Maximova, 2002, M. monstera Maximova, 2002, M. uschaica Subbotina & Maximova, 2011 and Trichonta palustris Maximova, 2002. Keywords Sciaroidea, Fennoscandia, faunistics © Jakovlev J et al. This is an open access article distributed under the terms of the Creative Commons Attribution License (CC BY 4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. -
Transit Passage in the Russian Arctic Straits
International Boundaries Research Unit MARITIME BRIEFING Volume 1 Number 7 Transit Passage in the Russian Arctic Straits William V. Dunlap Maritime Briefing Volume 1 Number 7 ISBN 1-897643-21-7 1996 Transit Passage in the Russian Arctic Straits by William V. Dunlap Edited by Peter Hocknell International Boundaries Research Unit Department of Geography University of Durham South Road Durham DH1 3LE UK Tel: UK + 44 (0) 191 334 1961 Fax: UK +44 (0) 191 334 1962 e-mail: [email protected] www: http://www-ibru.dur.ac.uk Preface The Russian Federation, continuing an initiative begun by the Soviet Union, is attempting to open the Northern Sea Route, the shipping route along the Arctic coast of Siberia from the Norwegian frontier through the Bering Strait, to international commerce. The goal of the effort is eventually to operate the route on a year-round basis, offering it to commercial shippers as an alternative, substantially shorter route from northern Europe to the Pacific Ocean in the hope of raising hard currency in exchange for pilotage, icebreaking, refuelling, and other services. Meanwhile, the international law of the sea has been developing at a rapid pace, creating, among other things, a right of transit passage that allows, subject to specified conditions, the relatively unrestricted passage of all foreign vessels - commercial and military - through straits used for international navigation. In addition, transit passage permits submerged transit by submarines and overflight by aircraft, practices with implications for the national security of states bordering straits. This study summarises the law of the sea as it relates to straits used for international navigation, and then describes 43 significant straits of the Northeast Arctic Passage, identifying the characteristics of each that are relevant to a determination of whether the strait will be subject to the transit-passage regime. -
THE DONOUSA MIRACLE a Scientist Bio-Interview with Prof
THE DONOUSA MIRACLE A Scientist Bio-Interview with Prof. Leonidas A. Papakonstantinidis. https://www.researchgate.net/profile/Leonidas_Papakonstantinidis https://researchleap.com/wp- content/uploads/2018/02/04_A_Social_Welfare_Economics_Proposal.edited.pdf Interviewer: Stephen I. Ternyik, Techno-Logos, Inc. (-1985) https://www.sociostudies.org/authors/ternyik_stephen_i/ Sudden mind changes seem to happen by a rapid transformation of the heart beat frequency. Such a deep psychological moment happened to you, when you visited Donousa island in 1979. You came as developmental and academic bureaucrat from the capital (Athens) and you were a bit over 30 years. What did strike you, the young careerist, so much, in that geo-meta-physical location? Yes, I came as a developmental and academic bureaucrat (Agricultural Bank of Greece, Direction of Studies and Planning) from the capital Athens to report on the small Cyclades-Aegean islands, and I started from Donousa. My turning point in the mind was a scene with the mute coachman driving the mule, as opposed to the limousine, which took us from Brussels airport to the building of the European Commission, called the Berlaymont. This was the period (1976-1979) of Greece’s accession to the EEC (now EU). The population of Donousa was fully isolated from what is called ‘quality of life’ or standard of living. I had no idea on how these people faced their day-to- day problems, especially those related to health. No electricity, no water, no infrastructure, no roads, no official port; it was a boat that brought guests to the island. It then literally clicked in me, and I refused my predetermined career, while all other bank direction members (27) became high profile academics or politicians. -
Paleozoic Rocks of Northern Chukotka Peninsula, Russian Far East: Implications for the Tectonicsof the Arctic Region
TECTONICS, VOL. 18, NO. 6, PAGES 977-1003 DECEMBER 1999 Paleozoic rocks of northern Chukotka Peninsula, Russian Far East: Implications for the tectonicsof the Arctic region BorisA. Natal'in,1 Jeffrey M. Amato,2 Jaime Toro, 3,4 and James E. Wright5 Abstract. Paleozoicrocks exposedacross the northernflank of Alaskablock the essentialelement involved in the openingof the the mid-Cretaceousto Late CretaceousKoolen metamorphic Canada basin. domemake up two structurallysuperimposed tectonic units: (1) weaklydeformed Ordovician to Lower Devonianshallow marine 1. Introduction carbonatesof the Chegitununit which formed on a stableshelf and (2) strongly deformed and metamorphosedDevonian to Interestin stratigraphicand tectoniccorrelations between the Lower Carboniferousphyllites, limestones, and an&site tuffs of RussianFar East and Alaska recentlyhas beenrevived as the re- the Tanatapunit. Trace elementgeochemistry, Nd isotopicdata, sult of collaborationbetween North Americanand Russiangeol- and texturalevidence suggest that the Tanataptuffs are differen- ogists.This paperpresents the resultsof one suchstudy from the tiatedcalc-alkaline volcanic rocks possibly derived from a mag- ChegitunRiver valley, Russia,where field work was carriedout matic arc. We interpretthe associatedsedimentary facies as in- to establishthe stratigraphic,structural, and metamorphicrela- dicativeof depositionin a basinal setting,probably a back arc tionshipsin the northernpart of the ChukotkaPeninsula (Figure basin. Orthogneissesin the core of the Koolen dome yielded a -
Agatti Island, UT of Lakshadweep
Socioeconomic Monitoring for Coastal Managers of South Asia: Field Trials and Baseline Surveys Agatti Island, UT of Lakshadweep Project completion Report: NA10NOS4630055 Project Supervisor : Vineeta Hoon Site Coordinators: Idrees Babu and Noushad Mohammed Agatti team: Amina.K, Abida.FM, Bushra M.I, Busthanudheen P.K, Hajarabeebi MC, Hassan K, Kadeeshoma C.P, Koyamon K.G, Namsir Babu.MS, Noorul Ameen T.K, Mohammed Abdul Raheem D A, Shahnas beegam.k, Shahnas.K.P, Sikandar Hussain, Zakeer Husain, C.K, March 2012 This volume contains the results of the Socioeconomic Assessment and monitoring project supported by IUCN/ NOAA Prepared by: 1. The Centre for Action Research on Environment Science and Society, Chennai 600 094 2. Lakshadweep Marine Research and Conservation Centre, Kavaratti island, U.T of Lakshadweep. Citation: Vineeta Hoon and Idrees Babu, 2012, Socioeconomic Monitoring and Assessment for Coral Reef Management at Agatti Island, UT of Lakshadweep, CARESS/ LMRCC, India Cover Photo: A reef fisherman selling his catch Photo credit: Idrees Babu 2 Table of Contents Executive Summary 7 Acknowledgements 8 Glossary of Native Terms 9 List of Acronyms 10 1. Introduction 11 1.1 Settlement History 11 1.2 Dependence on Marine Resources 13 1.3 Project Goals 15 1.4 Report Chapters 15 2. Methodology of Project Execution 17 2.1 SocMon Workshop 17 2.2 Data Collection 18 2.3 Data Validation 20 3. Site Description and Island Infrastructure 21 3.1 Site description 23 3.2. Community Infrastructure 25 4. Community Level Demographics 29 4.1 Socio cultural status 29 4.2 Land Ownership 29 4.3 Demographic characteristics 30 4.4 Household size 30 4.5. -
Atlantic Walrus Odobenus Rosmarus Rosmarus
COSEWIC Assessment and Update Status Report on the Atlantic Walrus Odobenus rosmarus rosmarus in Canada SPECIAL CONCERN 2006 COSEWIC COSEPAC COMMITTEE ON THE STATUS OF COMITÉ SUR LA SITUATION ENDANGERED WILDLIFE DES ESPÈCES EN PÉRIL IN CANADA AU CANADA COSEWIC status reports are working documents used in assigning the status of wildlife species suspected of being at risk. This report may be cited as follows: COSEWIC 2006. COSEWIC assessment and update status report on the Atlantic walrus Odobenus rosmarus rosmarus in Canada. Committee on the Status of Endangered Wildlife in Canada. Ottawa. ix + 65 pp. (www.sararegistry.gc.ca/status/status_e.cfm). Previous reports: COSEWIC 2000. COSEWIC assessment and status report on the Atlantic walrus Odobenus rosmarus rosmarus (Northwest Atlantic Population and Eastern Arctic Population) in Canada. Committee on the Status of Endangered Wildlife in Canada. Ottawa. vi + 23 pp. (www.sararegistry.gc.ca/status/status_e.cfm). Richard, P. 1987. COSEWIC status report on the Atlantic walrus Odobenus rosmarus rosmarus (Northwest Atlantic Population and Eastern Arctic Population) in Canada. Committee on the Status of Endangered Wildlife in Canada. Ottawa. 1-23 pp. Production note: COSEWIC would like to acknowledge D.B. Stewart for writing the status report on the Atlantic Walrus Odobenus rosmarus rosmarus in Canada, prepared under contract with Environment Canada, overseen and edited by Andrew Trites, Co-chair, COSEWIC Marine Mammals Species Specialist Subcommittee. For additional copies contact: COSEWIC Secretariat c/o Canadian Wildlife Service Environment Canada Ottawa, ON K1A 0H3 Tel.: (819) 997-4991 / (819) 953-3215 Fax: (819) 994-3684 E-mail: COSEWIC/[email protected] http://www.cosewic.gc.ca Également disponible en français sous le titre Évaluation et Rapport de situation du COSEPAC sur la situation du morse de l'Atlantique (Odobenus rosmarus rosmarus) au Canada – Mise à jour. -
Industrial Minerals in Southwest Western Australia May 2008 Plate 2
GEOLOGICAL SURVEY OF WESTERN AUSTRALIA RECORD 2008/16 PLATE 2 Murchison House Lake Nerramyne Yandi Woolgorong Red Bluff Lake Nerramyne KALBARRI Atta Pinegrove REFERENCE Riverside Bullardoo Bluff Point Mt View Wandina Yuin 28° Balline SPECIALITY METAL Age (Ma) Port Gregory Grt 0 Pindaring Rocks HM Titanium minerals and zircon 5 Alluvial, shoreline, and eolian deposits NUNIERRA RANGE Marine limestone, sandstone, and valley-fill deposits Gregory Li Spodumene (lithium) 100 Lynton Mt Minchin Marine and continental sedimentary rocks Northampton Tallering MIDWEST Ta Tantalum Marine and continental sedimentary rocks Horrocks W Mullewa GAS PIPELINE ATERLOOTi Tree Kln RANGE ALUMINIUM Point Bindoo Hill Pindar Marine and continental sedimentary and volcanic rocks Nabawa Mullewa Bx 500 PHANEROZOIC Nanson Barnong Bauxite Tenindewa White Peak INDUSTRIAL MINERAL GERALDTON Tardun Atta Attapulgite Canna MOONAGIN Mellenbye RANGE Bent Gnoolowa Hill Bentonite 1000 Gutha Greenough Cc Construction clay Gneiss 29° Kadji Kadji Diat Diatomite Lochada Metasedimentary rocks Seven Mile Beach Mingenew Morawa Gp Gypsum Sandstone DONGARA Koolanooka KOOLANOOKA Mullingarra Hill Grt Basic and ultrabasic intrusive rocks Denison HILLS Perangery Garnet Lsd Dongara YANDANO Diat Kln Kaolin OKA White Point HILLS Perenjori Dongara Arrino Lsd Limesand Hm Three Springs South Cliff Tlc Head Break Three Springs Lst Limestone PROTEROZOIC Freshwater Point Si Silica (chert) Carnamah Knobby Head 2000 Latham Old Faithful Winchester Sisd Silica sand Breaker Eneabba Spon Coolimba Eneabba