Academic literature on the topic 'Antarctica, discovery and exploration'

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Journal articles on the topic "Antarctica, discovery and exploration"

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Bernstein, Ralph E. "The Scottish National Antarctic Expedition 1902–04." Polar Record 22, no. 139 (January 1985): 379–92. http://dx.doi.org/10.1017/s0032247400005623.

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On 21 July 1904, just over 80 years ago, the barque-rigged, Norwegian-built auxiliary steamship Scotia sailed home up the Clyde with members of the Scottish National Antarctic Expedition (SNAE), concluding one of the most successful expeditions of the heroic period of Antarctic exploration. Contemporaneous with the more spectacular British Antarctic Expedition (1901–03) commanded by Robert Falcon Scott, the Scotia party under William Spiers Bruce had overwintered on Laurie Island (60° 44ʹ S, 44° 50ʹ W) in the South Orkney Islands, explored for the first time the oceanography of the Weddell Sea, assembled an important collection of scientific material, and discovered Coats Land, an icebound stretch of the East Antarctica coast.While Scott's Discovery expedition had emphasized geographical exploration inland from the Ross Sea sector of Antarctica, Bruce in the Scotia had concentrated more on scientific discovery in the Weddell Sea sector. On 12 November 1904 in Edinburgh, members of the Scotia and Discovery expeditions were guests at the 20th anniversary dinner of the Royal Scottish Geographical Society, Bruce and Scott together responding to a presidential toast that honoured the success of both.
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Tammiksaar, E. "The Russian Antarctic Expedition under the command of Fabian Gottlieb von Bellingshausen and its reception in Russia and the world." Polar Record 52, no. 5 (July 11, 2016): 578–600. http://dx.doi.org/10.1017/s0032247416000449.

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ABSTRACTThe existence of an icy continent around the South Pole is known to everybody today. But it is common to ascribe this kind of modern knowledge to navigators sailing in southern polar waters in the 19th century. A good illustration of this is the Russian Antarctic expedition (1819–1821) under the conduct of Fabian Gottlieb von Bellingshausen (Russian version Faddej Faddeevich Bellinsgauzen), the reception of which in Russian society of the 19th and 20th centuries is analysed in this article. During the cold war, beginning at the end of the 1940s, the question of who discovered Antarctica turned from being a scientific problem into a subject of political struggle between the United States of America, Great Britain and the Soviet Union. This article provides an analysis of the Russian discovery in the area, while at the same time, attempting to give an answer to the main question of the history of Antarctic exploration which is: is it well-justified to establish the first discoverer of Antarctica? All the dates in the text are according to the Gregorian calendar.
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Fogg, G. E. "A century of Antarctic science; planning and serendipity." Archives of Natural History 32, no. 2 (October 2005): 129–43. http://dx.doi.org/10.3366/anh.2005.32.2.129.

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The British National Antarctic Expedition planned with discreditable bickering, sailed for the Antarctic in 1901 on the Discovery. The venture was well equipped and commanded by R. F. Scott who, without scientific training himself, was nevertheless remarkably in empathy with his scientists. The expedition was foremost among those dispatched around the same time in establishing basic knowledge of the continent. Followed by the second Scott expedition and those of Shackleton and Mawson, a cadre of able and enthusiastic scientists was established. The second involvement of the Discovery in Antarctic exploration was planned without quarrels and with unusual understanding of science by a government department, resulting in a massive accumulation of knowledge about the Southern Ocean. United States expeditions began in 1928, introducing modern technology, thereby extending greatly the scope of Antarctic research. The Norwegian-British-Swedish expedition of 1949–1952 put planned science before geographical exploration. The International Geophysical Year of 1957–1958, supported by governments and planned by international committees, achieved great success. Science has flourished in Antarctica with unplanned and serendipitous findings emerging, for example, the structure of the magnetosphere, collection of meteorites by ice movements, the microbial life of the apparently sterile Dry Valleys and the discovery of the ozone “hole”.
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Campbell, Caroline. "Between the Ice Floes: Imaging Gender, Fear and Safety in Antarctic Literature for Young Adults." International Research in Children's Literature 5, no. 2 (December 2012): 151–66. http://dx.doi.org/10.3366/ircl.2012.0060.

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Ever since first imagined as a site of adventure, discovery and conquest, Antarctica, the southernmost continent, has continued to act as a powerful geographical metaphor for physical, mental and emotional transformation and transubstantiation. The discursive representation of its desolate, ice-bound landscape and its iconic creatures in image and text is a familiar one. The transmedial representation of the heroic explorer walking out into the white unknown in search of international fame and glory, and ultimate death, is even more a familiar. Antarctic adventure narratives for young adult readers have routinely centred on the male hero as the continent's sole mythic figure. The gendering of the ice, and society's growing concern with environmental sustainability, and the ethics of ecological ownership and resource depletion has resulted in a reframing of this gendered determinism. As a consequence this sub-genre of adventure literature is shifting to accommodate this new environmental perspective. The outcome is a strategic rearranging of heroic types and ironic critique of the passions and utopian ideals informing early narratives of Antarctic exploration and discovery.
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Walton, D. W. H. "Antarctica and the global jigsaw – a centennial perspective." Archives of Natural History 32, no. 2 (October 2005): 394–401. http://dx.doi.org/10.3366/anh.2005.32.2.394.

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Historical perspectives have shown how several scientific disciplines have developed their Antarctic component over the last century. Antarctic science has changed from a secondary activity of privately organised expeditions by a few countries to a major international activity supported by over 30 countries and making a major contribution to Earth System Science and the improvement of global climate models. What was once a backwater of science is now in the main stream and the seminal contributions of the Discovery expedition and others from the “Heroic Age” of exploration are now becoming clear.
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Brito, M. P., G. Griffiths, and M. Mowlem. "Exploring Antarctic subglacial lakes with scientific probes: a formal probabilistic approach for operational risk management." Journal of Glaciology 58, no. 212 (2012): 1085–97. http://dx.doi.org/10.3189/2012jog12j007.

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AbstractSince their discovery, Antarctic subglacial lakes have become of great interest to the science community. It is hypothesized that they may hold unique forms of biological life and that they hold detailed sedimentary records of past climate change. According to the latest inventory, a total of 387 subglacial lakes have been identified in Antarctica (Wright and Siegert, 2011). However, exploration using scientific probes has yet to be performed. We propose a generic, formal approach to manage the operational risk of deploying probes during clean access to subglacial lake exploration. A representation of the entire probe deployment process is captured in a Markov chain. The transition from one state to the next depends on several factors, including reliability of components and processes. We use fault trees to quantify the probability of failure of the complex processes that must take place to facilitate the transition from one state to another. Therefore, the formal framework consists of integrating a Markov chain, fault trees, component and subsystem reliability data and expert judgment. To illustrate its application we describe how the approach can be used to address a series of what-if scenarios, using the intended Ellsworth Subglacial Lake probe deployment as a case study.
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Branagan, D. "Carsten Egeberg Borchgrevink (1864-1934): The Man Who Claimed to be the First to Set Foot on Antarctica." Earth Sciences History 33, no. 1 (January 1, 2014): 67–121. http://dx.doi.org/10.17704/eshi.33.1.a0768366584n23vv.

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Carsten Borchgrevink continues to be one of the most enigmatic Antarctic explorers. He made two visits to Antarctica, briefly in 1895, and much longer in 1898-1900. Today it is acknowledged that he made significant contributions to Antarctic exploration. He made a claimed first discovery of terrestrial plant life in 1895. He led the first party to winter on Antarctica in 1899 in very difficult weather conditions. His expedition made a year-long continuous record of weather conditions, and glacier movement was briefly measured. Useful zoological data were obtained, but the death of Hanson, the zoologist and loss of some of his records, lessened their possible value. New plants, some insects, and shallow sea-water fauna were discovered. Extensive photographic records were obtained. The 1898-1900 expedition noted the reduction in the seaward extent of the Ross Ice Sheet. It discovered what later became known as the Bay of Whales, and there made the first ascent onto the Ross Sea Barrier, showing that travel inland was feasible in that region, ‘opening the way to the South’. A reasonable estimate of the then position of the South Magnetic Pole was made. In addition Borchgrevink showed the effectiveness of kayaks for local water transport, and dogs with trained dog-handlers for land travel (and companionship). His expedition was underpinned by good planning for housing, equipment (including use of the recently invented Primus Stove), clothing (notably shoes lined with sennegrass) and food. His scientific party was well-chosen for their abilities, but national and social differences played a part in periods of tension with the leader, who was inclined to overestimate his own scientific ability. The achievements of the expedition were given little recognition for most of his life, particularly in Britain, in part because of his initial success, over a period of some years, in gaining financial support for his expedition in the face of strong opposition from ‘official’ British scientific bodies. In addition his rather brash and abrasive personality, some public quarrels and perhaps a rather quirky sense of humour did not make him popular. His achievements have been obscured to some extent by inaccurate and exaggerated criticisms of his activities.
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Egeland, Alv. "Conjugate aurora observations by the Gjøa and Discovery expeditions." History of Geo- and Space Sciences 15, no. 2 (July 8, 2024): 27–39. http://dx.doi.org/10.5194/hgss-15-27-2024.

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Abstract. From 1901 to 1912 – known as the “heroic period” of Arctic and Antarctic exploration – great inroads were made (not only geographic but also scientific) to our knowledge of the continent. At Amundsen's Expedition through the Northwest Passage, measurements of the geomagnetic field and visual auroras were carried out for 19 months at Gjoa Haven (Gjøahavn in Norwegian; geographic coordinates 68°37′10′′ N, 95°53′25′′ W). Scott's Discovery Expedition – at Cape Armitage, McMurdo (coordinates 77.86° S, 166.69° E), Antarctica – carried out the same type of measurements. Their observations were carried out geomagnetically conjugate to Gjoa Haven, with both stations close to 78° magnetic latitude. In addition, measurements were overlapping in time during 1903–1904. However, these two stations are located at different longitudes, so there is a difference in local time between the stations of about 6.5 h. Gjoa Haven and Cape Armitage are conveniently located for separating disturbances in the polar cap regions caused by solar electromagnetic radiations or the solar wind. Auroras were observed during 7 months per year. This gave a unique possibility to compare conjugate characteristics of polar cap auroras. Comparing conjugate geophysical data introduces some difficulties. During the winter season at Gjoa Haven, they had a bright summer in Antarctica, and visa versa. Thus, simultaneous temporal and spatial ionospheric variations can be marked differently. Still, the average diurnal and seasonal variations were similar. The quantity of the auroral data from Cape Armitage was larger because there they had a continuous watch of the sky. The main findings regarding polar cap auroras are the following. Three different auroral forms dominate the polar cap. Low-intensity auroral bands – then called streamers – were the dominating auroral forms morning and afternoon. The number of auroral events in 1903 was nearly twice that in 1902 and 1904. A marked midwinter maximum was observed at both stations. Many displays were observed poleward of the oval. The large fraction was associated with weak magnetic disturbances. Some forms of polar cap aurora have special magnetic signatures and seem to be anti-correlated with Kp. They can be mapped even if they are not seen. According to recent satellite measurements (Newell et al., 2009), they are probably caused by polar rain and/or photoelectrons.
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Rothwell, Donald R. "Sovereignty and the Antarctic Treaty." Polar Record 46, no. 1 (October 19, 2009): 17–20. http://dx.doi.org/10.1017/s003224740999026x.

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Sovereignty was and still remains one of the principal reasons for human endeavour in Antarctica. The ‘Heroic Era’ of Antarctic exploration was designed principally to seek out not only new lands including the South Pole, but also to assert territorial claims on behalf of the sovereign who sponsored these expeditions. The ‘planting of the flag’ was therefore just as much a crucial component of Antarctic discovery, as also was the conduct of science. Sovereignty and science remained twin pillars of Antarctic endeavour throughout the early part of the twentieth century, and whilst the region escaped the horrors of World War II, it did not take long after the war for Antarctic endeavours to resume on both fronts. In a decade of frantic diplomatic activity during the 1950s, which was highlighted by the 1957–1958 International Geophysical Year and the 1959 Washington Conference, there was also the prospect in 1956 of a case before the International Court of Justice between Argentina, Chile and the United Kingdom over the contested status of territorial claims on the Antarctic Peninsula. Notwithstanding that by this time all of the current claims to the continent had by then been asserted, there had also been moves made by India in 1956 and then again in 1958 to reconsider the management of the continent with a view to its internationalisation under a framework created by the United Nations General Assembly.
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Hattersley-Smith, G. "Antarctic place-names." Antarctic Science 1, no. 4 (December 1989): 299. http://dx.doi.org/10.1017/s0954102089000441.

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Throughout history ‘explorers’ from advanced countries have named place they have ‘discovered’ in lands occupied by native people from time immemorial, with the result that many local place-names have been disregarded and their history forgotten. Antarctica, however, is the one great land region on Earth that was truly ‘discovered’ when the South Shetland Islands were sighted in 1819, so that the place-names that gradually evolved in later exploration enshrine all the history of human endeavour on the continent.
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Dissertations / Theses on the topic "Antarctica, discovery and exploration"

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Haase, Kenneth W. "Invention and exploration in discovery." Thesis, Massachusetts Institute of Technology, 1990. http://hdl.handle.net/1721.1/14257.

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Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer Science, 1990.
Includes bibliographical references (leaves 159-161).
by Kenneth William Haase Jr.
Ph.D.
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Riembau, Marc. "Exploration of the higgs sector after its discovery." Doctoral thesis, Universitat Autònoma de Barcelona, 2018. http://hdl.handle.net/10803/663947.

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El descobriment del bosó de Higgs és la culminació d’una recerca que ha durat 40 anys, i completa un marc teòric sota el qual gairebé totes del dades obtingudes de col·lisionadors de partícules poden ser explicades consistentment. Simultàniament, i paradoxalment, l’aparent con rmació d’una separacó d’escales entre l’electrofeble i la que suposadament estabilitza la masa del bosó de Higgs posa el relleu el problema de la jerarquia. En la recerca d’una descripció del món que simpli qui els patrons i simetries del Model Estàndard, l’exploració de l’escala dels TeVs i en particular l’estudi del bosó de Higgs tindran un paper central. En aquesta tesi presentem les possibilitats que el LHC i futurs col·lisionadors proveiran, amb énfasi en la determinació de l’auto-acoblament del bosó de Higgs. També considerarem l’estudi de la producció de bosons electrofebles com a eina per entendre les interaccions dels bosons de Golstone que formen part del doblet de Higgs, mostrant la seva rellevància al combinar-ho amb les dades del pol de la Z i altres cerques al LHC. Finalment, ens centrem en com el moment dipolar elèctric de l’electró posa fortes restriccions en models on el bosó de Higgs és descrit com un estat compost.
The discovery of the Higgs boson culminates a 40-year long hunt and completes a theoretical framework under which almost all collider data can be consistently explained. At the same time, paradoxically, the con rmation of an apparent mass gap above the electroweak scale exacerbates the problem of the electroweak hierarchy. In the search of a description of the world that simpli es the patterns and symmetries of the Standard Model, the exploration of the TeV scale and in particular the study of the Higgs boson will play a central role. In this thesis we explore the possibilities that the LHC and future colliders will bring, with particular emphasis on the determination of the Higgs self-coupling. We also consider the pair production of electroweak bosons as a probe of the Goldstone interactions in the Higgs doublet, and show its relevance as a way to improve the Z pole measurements and its interplay with other LHC searches. Finally, we focus on how the electron’s electric dipole moment can set strong constraints on models where the Higgs arises as a composite state.
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Stragliotto, Monica <1989&gt. "Southward: an analysis of the literary productions of the Discovery and Nimrod Expeditions to Antarctica." Master's Degree Thesis, Università Ca' Foscari Venezia, 2014. http://hdl.handle.net/10579/4547.

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Knestrick, Matthew A. "From Florida to Antarctica: Dereplication Strategies and Chemical Investigations of Marine Organisms." Scholar Commons, 2018. https://scholarcommons.usf.edu/etd/7635.

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In the fight against disease and illness, nature has provided mankind some of our best therapeutics in the form of secondary metabolites. The plant, fungi and animal phyla inhabiting the Earth produce diverse and unique chemistry that can be used in our fight against disease. In the growing threat of drug resistance and pathogen evolution, the field of natural products chemistry strives to explore new biological and chemical diversity sources, and develop innovative methodology to identify and isolate new chemistry faster than ever. The dissertation herein presented is one such effort to find new, bioactive chemistry from the marine environments. New biodiversity sources, from the tropical Floridian mangrove forests to the cold waters of the Antarctic oceans, were evaluated for the new, unique chemistry they produce. A large-scale screening of epigenetically modulated mangrove fungi was undertaken, producing a large, biologically and chemically diverse extract library. New methodology was developed in order to evaluate these extracts, leading to rapid identification and isolation of known and new bioactive metabolites. From the Southern Oceans, a collection of sponges was studied, and a new, highly unique peptide was isolated and characterized. These efforts were undertaken in the continued effort to isolate new, unique lead compounds.
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Savovic, Jelena. "Exploration of dynamic combinatorial chemistry in enzyme-inhibitor discovery." Thesis, University of Bath, 2003. https://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.760840.

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Ross, Karen C. "“Awake:” An Animated Exploration of Self-Discovery Through Mindfulness." The Ohio State University, 2016. http://rave.ohiolink.edu/etdc/view?acc_num=osu1471826821.

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Hedden, Chet. "A guided exploration model of problem-solving discovery learning /." Thesis, Connect to this title online; UW restricted, 1998. http://hdl.handle.net/1773/7683.

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Wu, Fei. "Knowledge discovery in time-series databases." Versailles-St Quentin en Yvelines, 2001. http://www.theses.fr/2001VERS0023.

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@Aborde trois problématiques dans le contexte de la base de données temporelles. Ils sont le problème de regroupement, la similarité et l'extraction des stratégies. Il reste encore des problèmes pour les travaux futurs. Par exemple, comment réaliser le regroupement graduel pour d'autres algorithmes. Il sera intéressant de grouper des séquences en se basant sur notre nouveau modèle. Mais les questions posées sont le choix d'un algorithme, ou il faut un nouvel algorithme carrément ? Pour construire une stratégie, ce sera aussi possible de pré-définir nos actions. Puis trouver les relations entre les actions et les indicateurs correspondants afin de générer des stratégies. . .
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St, Onge Joseph. "The Geography of Exploration: A Study in the Process of Physical Exploration and Geographical Discovery." DigitalCommons@USU, 2000. https://digitalcommons.usu.edu/etd/6581.

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Exploration has been a common literary topic throughout the history of humans. However, much of this historical tradition bas possessed a fairly narrow Ill focus, emphasizing the drama and heroics of an individual explorer or concentrating on a description of a particular exploration. There has been little attempt at understanding the process of exploration and placing this important process in context with the historic and geographic phenomena that both affect and are affected by it. In this thesis, the author has broken the process of exploration down into a theoretical structure that is presented in a holistic model. This model has then been applied to the history of 15th century Portuguese exploration to test its applicability and usefulness.
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Burlington, Michael Scott. "Search & exploration, efficient planar search for automated robotic discovery." Thesis, National Library of Canada = Bibliothèque nationale du Canada, 2000. http://www.collectionscanada.ca/obj/s4/f2/dsk1/tape3/PQDD_0031/MQ64328.pdf.

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Books on the topic "Antarctica, discovery and exploration"

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Straka, Gerard. Letters from Antarctica. Silverdale, N.Z.]: La Verna Publications, 2008.

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Stephen, Martin. A history of Antarctica. [Sydney, NSW]: State Library of New South Wales Press, 1996.

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1915-, Neider Charles, ed. Antarctica: Firsthand accounts of exploration and endurance. New York: Cooper Square Press, 2000.

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1885-1962, Hurley Frank, and National Library of Australia, eds. Frank Hurley's Antarctica. Canberra: National Library of Australia, 2010.

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McGregor, Alasdair. Antarctica: That sweep of savage splendour. Camberwell, Vic: Viking, 2011.

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Klipper, Stuart. Bearing south: Antarctica, at sea. [Colorado Springs]: Press at Colorado College, 1991.

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P, Summerhayes C., ed. The Third Reich in Antarctica: The German Antarctic expedition 1938-39. Bluntisham, Huntingdon: Erskine Press, 2012.

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Pty, Reader's Digest Services, ed. Antarctica: Great stories from the frozen continent. Surry Hills, NSW: Reader's Digest Services Pty., 1988.

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Walton, D. W. H. Antarctica: Global science from a frozen continent. New York: Cambridge University Press, 2013.

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Stenson, Marcia. Illustrated history of Antarctica. Auckland, N.Z: Random House New Zealand, 2007.

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Book chapters on the topic "Antarctica, discovery and exploration"

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Clancy, Robert, John Manning, and Hank Brolsma. "Drivers of Discovery." In Mapping Antarctica, 31–59. Dordrecht: Springer Netherlands, 2013. http://dx.doi.org/10.1007/978-94-007-4321-2_2.

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Faure, Gunter, and Teresa M. Mensing. "The Exploration of Antarctica." In The Transantarctic Mountains, 3–40. Dordrecht: Springer Netherlands, 2010. http://dx.doi.org/10.1007/978-90-481-9390-5_1.

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Nürnberger, Andreas. "Exploration: Overview." In Bisociative Knowledge Discovery, 285–86. Berlin, Heidelberg: Springer Berlin Heidelberg, 2012. http://dx.doi.org/10.1007/978-3-642-31830-6_19.

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Hsu, Chang Samuel, and Paul R. Robinson. "Exploration for Discovery." In Petroleum Science and Technology, 83–95. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-16275-7_6.

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Glyndwr, Williams. "Exploration and Discovery." In Handbook for History Teachers, 1037–40. London: Routledge, 2021. http://dx.doi.org/10.4324/9781032163840-182.

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Gibson, Michael R. "Exploration and Discovery." In Handbook for History Teachers, 451–58. London: Routledge, 2021. http://dx.doi.org/10.4324/9781032163840-57.

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Vedder, Heinrich. "Discovery and Exploration." In South West Africa in Early Times, 3–40. London: Routledge, 2022. http://dx.doi.org/10.4324/9780429025426-2.

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Mihelčić, Matej, and Tomislav Šmuc. "InterSet: Interactive Redescription Set Exploration." In Discovery Science, 35–50. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-46307-0_3.

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Rossi, Sergio. "A Brief History of an Arduous Discovery." In A Journey in Antarctica, 7–11. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-030-89492-4_2.

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Leemans, Sander J. J. "Process Discovery and Exploration." In Business Process Management Workshops, 582–85. Cham: Springer International Publishing, 2015. http://dx.doi.org/10.1007/978-3-319-15895-2_52.

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Conference papers on the topic "Antarctica, discovery and exploration"

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Ardanuy, Philip, Richard Boehne, James Head, Tim Howard, Nick Powell, and Scott Kulinski. "Antarctic Exploration: Proxy for Safe, Sustainable Exploration of the Moon and Mars." In 1st Space Exploration Conference: Continuing the Voyage of Discovery. Reston, Virigina: American Institute of Aeronautics and Astronautics, 2005. http://dx.doi.org/10.2514/6.2005-2506.

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Ardanuy, Philip, Christian Otto, James Head, Nicolas Powell, Bettie Grant, and Timothy Howard. "Telepresence Enabling Human and Robotic Space Exploration and Discovery: Antarctic Lessons Learned." In Space 2005. Reston, Virigina: American Institute of Aeronautics and Astronautics, 2005. http://dx.doi.org/10.2514/6.2005-6756.

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Uhm, Taeyoung, Kyoungseok Noh, Hwangjeong Hwan, Jong-Chan Kim, Hyo-Jun Lee, and Young-Ho Choi. "Multi-modal Sensor Module for Antarctica Exploration Robots." In 2023 IEEE International Conference on Consumer Electronics (ICCE). IEEE, 2023. http://dx.doi.org/10.1109/icce56470.2023.10043458.

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Suthakorn, Jackrit, Ittichote Chuckpaiwong, and Peerapat Owatchaiyapong. "Development of the 'ThaiXPole' Underwater Robot for the Antarctica Exploration." In OCEANS 2006 - Asia Pacific. IEEE, 2006. http://dx.doi.org/10.1109/oceansap.2006.4393952.

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Zudilova-Seinstra, Elena, Jean-Bernard Martens, and Tony Adriaansen. "Interactive data exploration and knowledge discovery." In the International Conference. New York, New York, USA: ACM Press, 2010. http://dx.doi.org/10.1145/1842993.1843099.

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Kellermann, Kenneth I., James M. Cordes, Ronald D. Ekers, Joseph Lazio, and P. Wilkinson. "The Exploration of the Unknown." In Accelerating the Rate of Astronomical Discovery. Trieste, Italy: Sissa Medialab, 2010. http://dx.doi.org/10.22323/1.099.0005.

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Livi, Kenneth, Elizabeth Sklute, Jill Mikucki, Darby Dyar, Peter Lee, and Sarina Mitchell. "The Mystery of Blood Falls, Antarctica: Lessons from a Planetary Exploration Analogue." In Goldschmidt2022. France: European Association of Geochemistry, 2022. http://dx.doi.org/10.46427/gold2022.10684.

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Cameron, Delroy, Pablo N. Mendes, Amit P. Sheth, and Victor Chan. "Semantics-empowered text exploration for knowledge discovery." In the 48th Annual Southeast Regional Conference. New York, New York, USA: ACM Press, 2010. http://dx.doi.org/10.1145/1900008.1900029.

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Frieder, Ophir. "Session details: Data exploration and discovery (KM)." In CIKM07: Conference on Information and Knowledge Management. New York, NY, USA: ACM, 2007. http://dx.doi.org/10.1145/3250805.

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MOSHER, TODD. "'Project Lone Wolf' - An Antarctica space simulation facility for the Space Exploration Initiative." In Space Programs and Technologies Conference. Reston, Virigina: American Institute of Aeronautics and Astronautics, 1992. http://dx.doi.org/10.2514/6.1992-1372.

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Reports on the topic "Antarctica, discovery and exploration"

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Lin, Xiao. Development and exploration of potential routes of discovery of new superconductors. Office of Scientific and Technical Information (OSTI), January 2013. http://dx.doi.org/10.2172/1226557.

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David Ebert, David Ebert. Looking for Lost Sharks: An Exploration of Discovery through the Western Indian Ocean. Experiment, June 2016. http://dx.doi.org/10.18258/7209.

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Frash, Luke, and Bulbul Ahmmed. GeoThermalCloud: A Machine Learning Tool for Discovery, Exploration, and Development of Hidden Geothermal Resources. Office of Scientific and Technical Information (OSTI), September 2023. http://dx.doi.org/10.2172/2007326.

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Lawley, C. J. M., and B A Kjarsgaard. Bottom-up mineral exploration: ore-element upgrading in the upper mantle and tools for its discovery. Natural Resources Canada/ESS/Scientific and Technical Publishing Services, 2020. http://dx.doi.org/10.4095/323674.

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Mukherjee, S., M. Lisa, H. Petersen, M. Stephanov, and P. Sorensen. Proceedings of RIKEN BNL Research Center Workshop: Theory and Modeling for the Beam Energy Scan: From Exploration to Discovery. Office of Scientific and Technical Information (OSTI), March 2015. http://dx.doi.org/10.2172/1188213.

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Wagner, Daniel. The Ocean Exploration Trust 2023 Field Season. Ocean Exploration Trust, April 2024. http://dx.doi.org/10.62878/vud148.

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Abstract:
This annual report marks the fifteenth year anniversary of Ocean Exploration Trust’s (OET) E/V Nautilus exploring poorly known parts of our global ocean in search of new discoveries. Since its first season in 2009, E/V Nautilus has conducted a total of 158 expeditions that explored our ocean throughout the Black Sea, Mediterranean, Atlantic, Caribbean, and Pacific for a total of 1,970 days at sea (~5.5 years). These scientific expeditions included a total of 1,017 successful ROV dives, as well as mapped over 1,053,000 km2 of seafloor. The results of these exploratory expeditions have been summarized in over 300 peer-reviewed scientific publications covering a wide range of scientific disciplines, including marine geology, biology, archaeology, chemistry, technology development, and the social sciences. Throughout its 15-year history, E/V Nautilus has been not only a platform for ocean exploration and discovery, but also an inclusive workspace that has provided pathways for more people, especially those early in their careers, to experience and enter ocean exploration professions. It has also catalyzed numerous technological innovations, multi-disciplinary collaborations, and inspired millions through OET’s extensive outreach initiatives. The 2023 field season was no exception, with E/V Nautilus undertaking 12 multi-disciplinary expeditions that explored some of the most remote and poorly surveyed areas in the Pacific, all of which included numerous activities to share expedition stories with diverse audiences across the globe.
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Vesselinov, Velimir. Cloud Fusion of Big Data and Multi-Physics Models using Machine Learning for Discovery, Exploration and Development of Hidden Geothermal Resources. Office of Scientific and Technical Information (OSTI), April 2021. http://dx.doi.org/10.2172/1781345.

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Frash, Luke, Bulbul Ahmmed, Maruti Mudunuru, and Daniel Tartakovsky. GeoThermalCloud: Cloud Fusion of Big Data and Multi-Physics Models using Machine Learning for Discovery, Exploration, and Development of Hidden Geothermal Resources. Office of Scientific and Technical Information (OSTI), February 2024. http://dx.doi.org/10.2172/2290287.

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Houlé, G., H. L. Gibson, L. Richan, V. Bécu, D. Corrigan, and L. Nadeau. A new nickel discovery in the Prince Albert Hills, Melville Peninsula, Nunavut: implications for Ni-Cu-(PGE) exploration in the Prince Albert Group. Natural Resources Canada/ESS/Scientific and Technical Publishing Services, 2010. http://dx.doi.org/10.4095/287185.

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Houlé, G., H. L. Gibson, L. Richan, V. Bécu, D. Corrigan, and L. Nadeau. A new nickel discovery in the Prince Albert Hills, Melville Peninsula, Nunavut: implications for Ni-Cu-(PGE) exploration in the Prince Albert Group. Natural Resources Canada/ESS/Scientific and Technical Publishing Services, 2012. http://dx.doi.org/10.4095/291526.

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