DOCSLIB.ORG

Antarctic Research Stations

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text

Load more

1 2 3 4 5 6 7 8 9 10 11 12 AERONOMY_ e polar regions have been called Earth's window to outer space. With the discovery of polar stratospheric ozone de- pletions, a window previously thought "closed" (the ultraviolet window) is now known to "open" in certain seasons. Current research focuses on stratospheric chemistry, aerosols, and the vital role played by ozone. ASTROPHYSICS_Antarctica is an as- tronomer's dream come true. e Amundsen-Scott South Pole Aboa Almirante Brown Antarctic Base Amundsen-Scott South Pole Station Artigas Base Asuka Station Belgrano II Base Bellingshausen Station Bernardo O'Higgins Station Bharati Byrd Station Captain Arturo Prat Base Casey Station Station is arguably one of the best places on earth to study the stars. Observers 1988 1951 1957 1984 1985 1979 1968 1948 2012 1957 1947 1957 there take advantage of the unique characteristics of the South Pole to study the evolution and structure of the Universe. BIOLOGY_Conditions on the frozen Antarctic surface are so harsh that few life forms survive year-round above the ice. Of particular interest to biologists, the McMurdo Dry Valleys represent a region where life approaches its environmental limits. While below the surface and along the coast, ocean ecosystems teem with life that is rich, complex, 13 14 15 16 17 18 19 20 21 22 23 24 and abundant. GEOLOGY_Much of the story of Antarctica is written beneath the ice, in the rocks that make up about 9 percent of Earth's continental crust. Geologic evidence indicates that at one time the continent had a temperate climate and was part of an ancient, considerably larger land mass, known as Gondwanaland. GLACIOLOGY_An ice sheet covers all but 2.4 per cent of Antarctica's 14 million square kilometers. is ice contains 70 percent of all the world's fresh water. In order to predict the ice sheet's future behavior and its eect on global climate, glaciologists must have a thorough understanding of its history, current state, internal dynamics. METEOROLOGY_e weather systems that constantly circle Antarctica drive storms across the Southern Ocean and beyond, while the seasonal formation and melting of sea ice has an important eect on the world's weather. Antarctic stations collect daily meteorological observations and broadcast them to surround- ing countries to help in weather forecasting. OCEANOGRAPHY_e Antarctic Convergence divides the cold southern water masses from the warmer northern waters, Comandante Ferraz Base Concordia Station Dakshin Gangotri Davis Station Dome Fuji Dumont d'Urville Base Base Presidente Montalva Esperanza Base Gabriel de Castilla Station Georg von Neumayer Station Gonzalez Videla Station Great Wall Station creating the world's largest current owing at an average speed of half a knot eastward 1984 2005 1984 1957 1995 1956 1969 1975 1989 1981 1951 1985 a r o u n d the continent. In addition, sea ice forms outward up to 1500 kilometers from the continent every winter. Oceanographic studies focus on these two 25 26 27 28 29 30 31 32 33 34 35 36 interrelated phenomena and their eects on both marine ecosystems and Earth's climate patterns. ANTARCTIC RESEARCH STATIONS Halley Research Station Henryk Arctowski Station Jang Bogo Station Jinnah Antarctic Station Juan Carlos I Antarctic Base Jubany King Sejong Station Kohnen Station Kunlun Station Law-Racoviţă Station Leningradskaya Station Machu Picchu Research Station 1956 1977 2014 1991 1988 1953 1988 2001 2009 1986 1971 1989 37 38 39 40 41 42 43 44 45 46 47 48 50 63 15 22-47-48 59 37-49 67 66 5 1-71 53 62 46 32 65 45 25 41 Maitri Station Maldonado Base Marambio Base Mario Zucchelli Station Mawson Station McMurdo Station Mendel Polar Station Mirny Station Mizuho Station Molodyozhnaya Station Neumayer Station Neumayer-Station III 6 17 1989 1990 1969 1986 1954 1956 2006 1956 1970 1962 1992 2009 34-55-72 49 50 51 52 53 54 55 56 57 58 59 60 16 33 3 44 69 70 10 64 14 12 Novolazarevskaya Station Orcadas Base Pakistan national antarctic station Palmer Station Princess Elisabeth Base Professor Julio Escudero Base Progress Station Rothera Research Station Russkaya Station San Martín Base SANAE IV St. Kliment Ohridski Base 13-36 1904 1968 2007 1994 1988 1975 1980 1951 1961 2012 1997 1988 26-30-31 20 7-19-54 4-24 8 39 57 42-61 11-38 43 29-60 21 61 62 63 64 65 66 67 68 69 70 71 72 40 18 23 35 2 52 68 ANTARCTIC NOMADISM Una capsula errante per la sopravvivenza antartica Scott Base Showa Station Signy Research Station Siple Station Svea Research Station Tor Station Troll Station Vernadsky Research Base Vostok Station WAIS Divide Camp Wasa Research Station Zhongshan (Sun Yat-Sen) Station 58 Edoardo Allievi Relatore: prof. Matteo Umberto Poli 56 1957 1957 1947 1973 1988 1993 1990 1994 1957 2005 1989 1989 Francesco Camanzi Anno accademico 2011/2012 Alessandro Consonni TAVOLA 2 - Antarctic Research Stations.
Recommended publications
  • Explorer's Gazette

    Explorer's Gazette

    EEXXPPLLOORREERR’’SS GGAAZZEETTTTEE Published Quarterly in Pensacola, Florida USA for the Old Antarctic Explorers Association Uniting All OAEs in Perpetuating the Memory of United States Involvement in Antarctica Volume 18, Issue 4 Old Antarctic Explorers Association, Inc Oct-Dec 2018 Photo by Jack Green The first C-17 of the summer season delivers researchers and support staff to McMurdo Station after a two-week weather delay. Science Bouncing Back From A Delayed Start By Mike Lucibella The first flights from Christchurch to McMurdo were he first planes of the 2018-2019 Summer Season originally scheduled for 1 October, but throughout early Ttouched down at McMurdo Station’s Phoenix October, a series of low-pressure systems parked over the Airfield at 3 pm in the afternoon on 16 October after region and brought days of bad weather, blowing snow more than two weeks of weather delays, the longest and poor visibility. postponement of season-opening in recent memory. Jessie L. Crain, the Antarctic research support Delays of up to a few days are common for manager in the Office of Polar Programs at the National researchers and support staff flying to McMurdo Station, Science Foundation (NSF), said that it is too soon yet to Antarctica from Christchurch, New Zealand. However, a say definitively what the effects of the delay will be on fifteen-day flight hiatus is very unusual. the science program. Continued on page 4 E X P L O R E R ‘ S G A Z E T T E V O L U M E 18, I S S U E 4 O C T D E C 2 0 1 8 P R E S I D E N T ’ S C O R N E R Ed Hamblin—OAEA President TO ALL OAEs—I hope you all had a Merry Christmas and Happy New Year holiday.
  • Arctic and Antarctic Research Institute” Russian Antarctic Expedition

    Arctic and Antarctic Research Institute” Russian Antarctic Expedition

    FEDERAL SERVICE OF RUSSIA FOR HYDROMETEOROLOGY AND ENVIRONMENTAL MONITORING State Institution “Arctic and Antarctic Research Institute” Russian Antarctic Expedition QUARTERLY BULLETIN ʋ2 (51) April - June 2010 STATE OF ANTARCTIC ENVIRONMENT Operational data of Russian Antarctic stations St. Petersburg 2010 FEDERAL SERVICE OF RUSSIA FOR HYDROMETEOROLOGY AND ENVIRONMENTAL MONITORING State Institution “Arctic and Antarctic Research Institute” Russian Antarctic Expedition QUARTERLY BULLETIN ʋ2 (51) April - June 2010 STATE OF ANTARCTIC ENVIRONMENT Operational data of Russian Antarctic stations Edited by V.V. Lukin St. Petersburg 2010 Editor-in-Chief - M.O. Krichak (Russian Antarctic Expedition –RAE) Authors and contributors Section 1 M. O. Krichak (RAE), Section 2 Ye. I. Aleksandrov (Department of Meteorology) Section 3 G. Ye. Ryabkov (Department of Long-Range Weather Forecasting) Section 4 A. I. Korotkov (Department of Ice Regime and Forecasting) Section 5 Ye. Ye. Sibir (Department of Meteorology) Section 6 I. V. Moskvin, Yu.G.Turbin (Department of Geophysics) Section 7 V. V. Lukin (RAE) Section 8 B. R. Mavlyudov (RAS IG) Section 9 V. L. Martyanov (RAE) Translated by I.I. Solovieva http://www.aari.aq/, Antarctic Research and Russian Antarctic Expedition, Reports and Glossaries, Quarterly Bulletin. Acknowledgements: Russian Antarctic Expedition is grateful to all AARI staff for participation and help in preparing this Bulletin. For more information about the contents of this publication, please, contact Arctic and Antarctic Research Institute of Roshydromet Russian Antarctic Expedition Bering St., 38, St. Petersburg 199397 Russia Phone: (812) 352 15 41; 337 31 04 Fax: (812) 337 31 86 E-mail: [email protected] CONTENTS PREFACE……………………….…………………………………….………………………….1 1. DATA OF AEROMETEOROLOGICAL OBSERVATIONS AT THE RUSSIAN ANTARCTIC STATIONS…………………………………….…………………………3 2.
  • Wastewater Treatment in Antarctica

    Wastewater Treatment in Antarctica

    Wastewater Treatment in Antarctica Sergey Tarasenko Supervisor: Neil Gilbert GCAS 2008/2009 Table of content Acronyms ...........................................................................................................................................3 Introduction .......................................................................................................................................4 1 Basic principles of wastewater treatment for small objects .....................................................5 1.1 Domestic wastewater characteristics....................................................................................5 1.2 Characteristics of main methods of domestic wastewater treatment .............................5 1.3 Designing of treatment facilities for individual sewage disposal systems...................11 2 Wastewater treatment in Antarctica..........................................................................................13 2.1 Problems of transferring treatment technologies to Antarctica .....................................13 2.1.1 Requirements of the Protocol on Environmental Protection to the Antarctic Treaty / Wastewater quality standards ...................................................................................................13 2.1.2 Geographical situation......................................................................................................14 2.1.2.1 Climatic conditions....................................................................................................14
  • Office of Polar Programs

    Office of Polar Programs

    DEVELOPMENT AND IMPLEMENTATION OF SURFACE TRAVERSE CAPABILITIES IN ANTARCTICA COMPREHENSIVE ENVIRONMENTAL EVALUATION DRAFT (15 January 2004) FINAL (30 August 2004) National Science Foundation 4201 Wilson Boulevard Arlington, Virginia 22230 DEVELOPMENT AND IMPLEMENTATION OF SURFACE TRAVERSE CAPABILITIES IN ANTARCTICA FINAL COMPREHENSIVE ENVIRONMENTAL EVALUATION TABLE OF CONTENTS 1.0 INTRODUCTION....................................................................................................................1-1 1.1 Purpose.......................................................................................................................................1-1 1.2 Comprehensive Environmental Evaluation (CEE) Process .......................................................1-1 1.3 Document Organization .............................................................................................................1-2 2.0 BACKGROUND OF SURFACE TRAVERSES IN ANTARCTICA..................................2-1 2.1 Introduction ................................................................................................................................2-1 2.2 Re-supply Traverses...................................................................................................................2-1 2.3 Scientific Traverses and Surface-Based Surveys .......................................................................2-5 3.0 ALTERNATIVES ....................................................................................................................3-1
  • Mcmurdo STATION MODERNIZATION STUDY Building Shell & Fenestration Study

    Mcmurdo STATION MODERNIZATION STUDY Building Shell & Fenestration Study

    McMURDO STATION MODERNIZATION STUDY Building Shell & Fenestration Study April 29, 2016 Final Submittal MCMURDO STATION MODERNIZATION STUDY | APRIL 29, 2016 MCMURDO STATION MODERNIZATION STUDY | APRIL 29, 2016 2 TABLE OF CONTENTS Section 1: Overview PG. 7-51 Team Directory PG. 8 Project Description PG. 9 Methodology PG. 10-11 Design Criteria/Environmental Conditions PG. 12-20 (a) General Description (b) Environmental Conditions a. Wind b. Temp c. RH d. UV e. Duration of sunlight f. Air Contaminants (c) Graphic (d) Design Criteria a. Thermal b. Air Infiltration c. Moisture d. Structural e. Fire Safety f. Environmental Impact g. Corrosion/Degradation h. Durability i. Constructability j. Maintainability k. Aesthetics l. Mechanical System, Ventilation Performance and Indoor Air Quality implications m. Structural implications PG. 21-51 Benchmarking 3 Section 2: Technical Investigation and Research PG. 53-111 Envelope Components and Assemblies PG. 54-102 (a) Components a. Cladding b. Air Barrier c. Insulation d. Vapor Barrier e. Structural f. Interior Assembly (b) Assemblies a. Roofs b. Walls c. Floors Fenestration PG. 103-111 (a) Methodology (b) Window Components Research a. Window Frame b. Glazing c. Integration to skin (c) Door Components Research a. Door i. Types b. Glazing Section 3: Overall Recommendation PG. 113-141 Total Configured Assemblies PG. 114-141 (a) Roofs a. Good i. Description of priorities ii. Graphic b. Better i. Description of priorities ii. Graphic c. Best i. Description of priorities ii. Graphic 4 (b) Walls a. Good i. Description of priorities ii. Graphic b. Better i. Description of priorities ii. Graphic c. Best i. Description of priorities ii.
  • A NEWS BULLETIN Published Quarterly by the NEW ZEALAND ANTARCTIC SOCIETY (INC)

    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.
  • Land-Based Tourism in Antarctica

    Land-Based Tourism in Antarctica

    IP (number) Agenda Item: CEP 7b, ATCM 10 Presented by: ASOC Original: English Land-Based Tourism in Antarctica 1 IP (number) Summary This paper examines the interface between commercial land based tourism and the use of national program infrastructure, as well as recent developments in land-based tourism. Eight Parties responded to a questionnaire distributed by ASOC at ATCMs XXXI and XXXII. None of the respondents reported providing any support to tourism other than free basic hospitality, and most respondents explicitly opposed the notion of Parties being involved in tourism operations. Based on these responses it is apparent that some Parties have identified two locations where commercial land based tourism takes place using infrastructure from National Antarctic Programs. All land-based tourism operations rely directly or indirectly on some form of state support, including permits, use of runways, and use of facilities and terrain adjacent to research stations. The continued improvement of land-based facilities such as runways and camps, and the broad array of land activities now available to tourists, indicate that land-based tourism is growing. If no actions are taken soon, land-based tourism may well become consolidated as a major activity in a few years. 1. Overview In 2008 ASOC submitted to XXXI ATCM IP 41, A decade of Antarctic tourism: Status, change, and actions needed. Among other issues relevant to Antarctic tourism, ASOC’s IP 41 discussed the interface between commercial land-based tourism and the activities of national Antarctic programs. The paper remarked on a disturbing lack of clarity with regard to aspects of land-based tourism – what an IAATO representative described aptly as “fogginess”.1 ASOC’s IP 41 included a table listing several facilities used to support land- based tourism, some of which were private commercial facilities and other facilities of National Antarctic programs.
  • Station Sharing in Antarctica

    Station Sharing in Antarctica

    IP 94 Agenda Item: ATCM 7, ATCM 10, ATCM 11, ATCM 14, CEP 5, CEP 6b, CEP 9 Presented by: ASOC Original: English Station Sharing in Antarctica 1 IP 94 Station Sharing in Antarctica Information Paper Submitted by ASOC to the XXIX ATCM (CEP Agenda Items 5, 6 and 9, ATCM Agenda Items 7, 10, 11 and 14) I. Introduction and overview As of 2005 there were at least 45 permanent stations in the Antarctic being operated by 18 countries, of which 37 were used as year-round stations.i Although there are a few examples of states sharing scientific facilities (see Appendix 1), for the most part the practice of individual states building and operating their own facilities, under their own flags, persists. This seems to be rooted in the idea that in order to become a full Antarctic Treaty Consultative Party (ATCP), one has to build a station to show seriousness of scientific purpose, although formally the ATCPs have clarified that this is not the case. The scientific mission and international scientific cooperation is nominally at the heart of the ATS,ii and through SCAR the region has a long-established scientific coordination body. It therefore seems surprising that half a century after the adoption of this remarkable Antarctic regime, we still see no truly international stations. The ‘national sovereign approach’ continues to be the principal driver of new stations. Because new stations are likely to involve relatively large impacts in areas that most likely to be near pristine, ASOC submits that this approach should be changed. In considering environmental impact analyses of proposed new station construction, the Committee on Environmental Protection (CEP) presently does not have a mandate to take into account opportunities for sharing facilities (as an alternative that would reduce impacts).
  • Hnitflrcitilc

    Hnitflrcitilc

    HNiTflRCiTilC A NEWS BULLETIN published quarterly by the NEW ZEALAND ANTARCTIC SOCIETY (INC) ,m — i * Halley, the British Antarctic Survey's station on the Brunt Ice Shelf, Coats Land,, was rebuilt last season for the third time since 1956-57. This picture taken in March shows one of the four wooden tubes, each of which houses a two-storey building, under construction in a pre-shaped and compacted snow hollow. BAS Copyngh! Registered at Post Office Headquarters, Vol. 10, No. 2 Wellington, New Zealand, as a magazine. SOUTH GEORGIA -.. SOUTH SANDWICH Is «C*2K SOUTH ORKNEY Is x \ 6SignyluK //o Orcadas arg SOUTH AMERICA / /\ ^ Borga T"^00Molodezhnaya \^' 4 south , * /weooEii \ ft SA ' r-\ *r\USSR --A if SHETLAND ,J£ / / ^^Jf ORONMIIDROWNING MAUD LAND' E N D E R B Y \ ] > * \ /' _ "iV**VlX" JN- S VDruzhnaya/General /SfA/ S f Auk/COATS ' " y C O A TBelirano SLd L d l arg L A N D p r \ ' — V&^y D««hjiaya/cenera.1 Beld ANTARCTIC •^W^fCN, uSS- fi?^^ /K\ Mawson \ MAC ROBERTSON LAN0\ \ *usi \ /PENINSULA' ^V^/^CRp^e J ^Vf (set mjp Mow) C^j V^^W^gSobralARG - Davis aust L Siple USA Amundsen-Scon OUEEN MARY LAND flMimy ELLSWORTH , U S A / ^ U S S R ') LAND °Vos1okussR/ r». / f c i i \ \ MARIE BYRO fee Shelf V\ . IAND WILKES LAND Scon ROSS|N2i? SEA jp>r/VICTORIAIj^V .TERRE ,; ' v / I ALAND n n \ \^S/ »ADEUL. n f i i f / / GEORGE V Ld .m^t Dumom d'Urville iranu Leningradskayra V' USSR,.'' \ -------"'•BAlLENYIs^ ANTARCTIC PENINSULA 1 Teniente Matienzo arc 2 Esperanza arg 3 Almirante Brown arg 4 Petrel arg 5 Decepcion arg 6 Vicecomodoro Marambio arg ' ANTARCTICA 7 Ariuro Prat chile 500 1000 Miles 8 Bernardo O'Higgms chile 9 Presidente Frei chile - • 1000 Kilomnre 10 Stonington I.
  • Mount Harding, Grove Mountains, East Antarctica

    Mount Harding, Grove Mountains, East Antarctica

    MEASURE 2 - ANNEX Management Plan for Antarctic Specially Protected Area No 168 MOUNT HARDING, GROVE MOUNTAINS, EAST ANTARCTICA 1. Introduction The Grove Mountains (72o20’-73o10’S, 73o50’-75o40’E) are located approximately 400km inland (south) of the Larsemann Hills in Princess Elizabeth Land, East Antarctica, on the eastern bank of the Lambert Rift(Map A). Mount Harding (72°512 -72°572 S, 74°532 -75°122 E) is the largest mount around Grove Mountains region, and located in the core area of the Grove Mountains that presents a ridge-valley physiognomies consisting of nunataks, trending NNE-SSW and is 200m above the surface of blue ice (Map B). The primary reason for designation of the Area as an Antarctic Specially Protected Area is to protect the unique geomorphological features of the area for scientific research on the evolutionary history of East Antarctic Ice Sheet (EAIS), while widening the category in the Antarctic protected areas system. Research on the evolutionary history of EAIS plays an important role in reconstructing the past climatic evolution in global scale. Up to now, a key constraint on the understanding of the EAIS behaviour remains the lack of direct evidence of ice sheet surface levels for constraining ice sheet models during known glacial maxima and minima in the post-14 Ma period. The remains of the fluctuation of ice sheet surface preserved around Mount Harding, will most probably provide the precious direct evidences for reconstructing the EAIS behaviour. There are glacial erosion and wind-erosion physiognomies which are rare in nature and extremely vulnerable, such as the ice-core pyramid, the ventifact, etc.
  • Seabirds of Human Settlements in Antarctica: a Case Study of the Mirny Station

    Seabirds of Human Settlements in Antarctica: a Case Study of the Mirny Station

    CZECH POLAR REPORTS 11 (1): 98-113, 2021 Seabirds of human settlements in Antarctica: A case study of the Mirny Station Sergey Golubev Papanin Institute for Biology of Inland Waters, Russian Academy of Sciences, Borok, Nekouzskii raion, Yaroslavl oblast, 152742, Russia Abstract Antarctica is free of urbanisation, however, 40 year-round and 32 seasonal Antarctic stations operate there. The effects of such human settlements on Antarctic wildlife are insufficiently studied. The main aim of this study was to determine the organization of the bird population of the Mirny Station. The birds were observed on the coast of the Davis Sea in the Mirny (East Antarctica) from January 8, 2012 to January 7, 2013 and from January 9, 2015 to January 9, 2016. The observations were carried out mainly on the Radio and Komsomolsky nunataks (an area of about 0.5 km²). The duration of observations varied from 1 to 8 hours per day. From 1956 to 2016, 13 non-breeding bird species (orders Sphenisciformes, Procellariiformes, Charadriiformes) were recorded in the Mirny. The South polar skuas (Catharacta maccormicki) and Adélie penguins (Pygoscelis adeliae) form the basis of the bird population. South polar skuas are most frequently recorded at the station. Less common are Brown skuas (Catharacta antarctica lonnbergi) and Adélie penguins. Adélie penguins, Wilson's storm petrels (Oceanites oceanicus), South polar and Brown skuas are seasonal residents, the other species are visitors. Adélie penguins, Emperor (Aptenodytes forsteri), Macaroni (Eudyptes chrysolophus) and Chinstrap penguins (Pygoscelis antarctica), Wilson's storm petrels, South polar and Brown skuas interacted with the station environment, using it for com- fortable behavior, feeding, molting, shelter from bad weather conditions, and possible breeding.
  • CCN Measurements at the Princess Elisabeth Antarctica Research

    CCN Measurements at the Princess Elisabeth Antarctica Research

    bs CCN measurements at the Princess Elisabeth Antarctica Research Station during three austral summers Paul Herenz1, Heike Wex1, Alexander Mangold2, Quentin Laffineur2, Irina V. Gorodetskaya3,4, Zoë L. Fleming5, Marios Panagi5, and Frank Stratmann1 1Leibniz Institute for Tropospheric Research, Leipzig, Germany 2Royal Meteorological Institute of Belgium, Brussels, Belgium 3Centre for Environmental and Marine Studies, Department of Physics, University of Aveiro, Aveiro, Portugal 4Department of Earth and Environmental Sciences, KU Leuven, Belgium 5National Centre for Atmospheric Science, Department of Chemistry, University of Leicester, Leicester, UK Correspondence to: Heike Wex ([email protected]) Abstract. For three austral summer seasons (2013-2016, each from December to February) aerosol particles arriving at the Belgian Antarctic research station Princess Elisabeth (PE), in Dronning Maud Land in East Antarctica were characterized. in terms 5 ofThis included number concentrations of total aerosol particles (NCN) and cloud condensation nuclei (NCCN), the particle number size distribution (PNSD), the aerosol particle hygroscopicity and the influence of the air mass origin on NCN and −3 −3 NCCN. In general NCN was found to range from 40 to 6700 cm with a median of 333 cm , while NCCN was found to cover a range between less than 10 and 1300 cm−3 for supersaturations (SS) between 0.1 and 0.7 %. It is shown that the aerosol is Aitken mode dominated and is , being characterized by a significant amount of freshly, small, and therefore likely secondarily