Relevant bibliographies by topics / Geologists

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Geologists'

Author: Grafiati
Published: 4 June 2021
Last updated: 29 July 2024

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Journal articles on the topic "Geologists"

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GHAVI, JAMAL. "TO EXPLORE THE UNEXPLORED—A GEOLOGIST'S PATH A MEMOIR OF JOVAN STÖCKLIN (1921–2008)." Earth Sciences History 38, no. 2 (November 1, 2019): 403–21. http://dx.doi.org/10.17704/1944-6178-38.2.403.

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ABSTRACT This article provides a brief survey of the life and career of Swiss geologist Jovan Stöcklin (1921–2008) with highlights of some of his important findings and extensive references to his published works. Additionally, it includes exclusive information and photographs provided by the late geologist's family. Dr. Stöcklin belonged to a generation of geologists who believed in field geology and followed their conviction that any theories or models needed to be—above all—based on direct observation of nature. Even early in his career, he hungered to conduct large-scale reconnaissance work in areas that were geologically unknown. That is why his expeditions took him to the most remote parts of Iran, where at that time camels were the only means of transportation. He also trekked through the rugged central mountains of Nepal, accompanied by Nepalese geologists and a column of porters. Fieldwork by Dr. Stöcklin and his teams provides modern geologists with much of what we know today about an area thousands of square kilometers in size extending from Iran (Persia) all the way to the central Himalayas. In addition to his native German tongue, Dr. Stöcklin was fluent in French, English, Russian, and Persian. This allowed him to converse with geologists from many different nations, read and correlate their published research, and exposed him to many ideas he might not otherwise have known about. He published his research in many languages as well. Dr. Stöcklin also acquired a comprehensive knowledge of the geology of the Middle East and Central Asia from his extensive travelling. Today's geologists owe many thanks to Dr. Stöcklin. As the reader of this article will come to discover, we have much we can learn from him.
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Kliueva, Vera P. "NOT FOR WOMEN OR WORK ON AN EQUAL FOOTING? GEOLOGISTS’ NARRATIVES ABOUT FIELD WORKS." Ural Historical Journal 78, no. 1 (2023): 133–41. http://dx.doi.org/10.30759/1728-9718-2023-1(78)-133-141.

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The article analyzes the gender aspect of geologists’ field work. The question is raised about cases of management of gender in geological professions. The emphasis on field specifics is made because the work of geologists in society is associated with uncomfortable working conditions. The appeal to the difficulties of fieldwork is an argument for characterizing the profession of a geologist as not suitable for women. Probably, for geologists, going to the field was a way to satisfy the need for extreme emotions. Field experience is perceived as an opportunity to test oneself in difficult conditions. Analysis of the collected narratives shows that gender was secondary in the field. The primary role was played by the professional skills of a field geologist. Although there were cases of sexism. The aspects of organizing field work are discussed in detail: distribution of duties and selection of expedition members; living conditions; informal practices of free time. The main method of data collection is a biographical narrative interview. Interviews were conducted with field geologists who worked in the northern regions of the country during the late Soviet period. These narratives were supplemented by published memoirs. The research was conducted in 2014–2021.
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Kuzko, M. "Levels, Criteria and Indicators of the Quality of Future Geologists’ Professional Training in Higher Education." Zhytomyr Ivan Franko state university journal. Рedagogical sciences, no. 1(87) (April 4, 2017): 84–87. http://dx.doi.org/10.35433/pedagogy.1(87).2017.84-87.

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In the context of globalization and technology development future specialist intended not simply to satisfy the requirements of employers for professional knowledge, skills and set of competencies, but also to be purposeful personality with developed leadership skills and awareness of needs in the process of self-development and self- realization. That is why the development of the natural resources industry, representatives of which the future geologists are, is possible only on the condition of the presence of qualified personnel. And because of this the quality of future geologists’ professional training (which is resulting factor of their professional preparation) needs further consideration. For studying the outlined problems scientific achievements of national and foreign teachers, and current requirements to future geologists covered in the regulations, were analyzed. The study makes it possible to define the following criteria for quality of training: motivational-value (the attitude of the future geologist to the chosen profession and formation of personal qualities for successful professional activity), cognitive (the degree of mastering of theoretical professional knowledge) and activity (degree of practical professional skills), each of whom series of indicators were proposed. Grouping of indicators according to each criterion was conducted considering the possible levels of quality of future geologists’ training. Therefore, to estimation of quality of future geologists’ professional training we have allocated three levels: low, medium and high. Presented description of levels of quality of future geologists’ professional training is not exhaustive and requires further study, the results of which will determine the future path of modernization of future geologists’ professional training.
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TESTA, STEPHEN M. "DR. THOMAS ANTISELL (1817–1893): 19th CENTURY MEDICAL GEOLOGIST." Earth Sciences History 42, no. 2 (July 1, 2023): 353–84. http://dx.doi.org/10.17704/1944-6187-42.2.353.

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ABSTRACT In America, Dr. Thomas Antisell (1817–1893) is best known for his work as a geologist with the Pacific Railroad Survey under Lt. Parke. Prior to his participation with the survey, his background was in medicine, chemistry and geology, with accomplishments in all three areas, notably writing on the geology and soils of his native Ireland. As a political outcast, his arrival in America in 1854 found him teaching chemistry and practicing medicine, until his relationship with fellow Irish botanist and physician John Torrey landed him a position as geologist with that part of the survey exploring portions of southern California, notably the Coastal Range, and southern portions of Arizona and New Mexico. Although his involvement with the survey would be his last large-scale federally-sponsored geological endeavor, he would continue to pursue interests in applied geology, among his other varied interests in medicine and chemistry. These interests would include federal positions as Chemical Examiner with the United States Patent Office, Capital Chemist with the United States Department of Agriculture, surgeon during the Civil War, consultant as a Foreign Advisor in Japan, and Professor at Georgetown University, among other schools of medicine. Although many early American geologists received their academic education at medical schools, and were physicians that made career moves to geology and remained professional geologists throughout their career, Antisell was primarily a physician, with varied interests in applied chemistry and applied geology as evident from his writings. Thus, Antisell is one of America’s early Medical Geologists; a term that would not become familiar and commonplace to the geological community until the 1990s. Moreover, as with other geologists of his time, he got some things right, and others not so, but his work set a geological foundation in new regions of the country, and raised questions that would eventually be addressed more fully by later investigators.
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Frost, Carol, and John Reed. "Dr. John C. Reed, Jr.: Pioneering Geologist, Mountaineer, and Author of Creation of the Teton Landscape." UW National Parks Service Research Station Annual Reports 36 (January 1, 2013): 10–17. http://dx.doi.org/10.13001/uwnpsrc.2013.3973.

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Few geologists today possess the mountaineering skills to study rocks exposed in the topographically challenging terrain of the Tetons. Even fewer can claim the accomplishment of making the first geologic map of an entire mountain range. One of these pioneering geologists is John C. Reed, Jr., who joined the U.S. Geological Survey in 1953, and who is now scientist emeritus at the U.S. Geological Survey in Denver (Figure 1). In addition to his field geology expertise, Dr. Reed also has a special talent for communicating complex geologic concepts to the public. The purpose of this project was to profile this pioneering mountaineer-geologist and accomplished writer, and to archive his maps, field notes, and photographs for use by future scientists and for the public, particularly park visitors.
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Picard, M. Dane. "Retreating Geologists." Journal of Geological Education 34, no. 2 (March 1986): 124–25. http://dx.doi.org/10.5408/0022-1368-34.2.124.

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Cooper, Barry J. "Geologists(’) Travel." Metascience 17, no. 3 (August 27, 2008): 517–21. http://dx.doi.org/10.1007/s11016-008-9224-z.

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ŞENGÖR, A. M. C. "EDUARD SUESS AND PALAEONTOLOGY: HIS ILLUSTRATIONS." Earth Sciences History 40, no. 2 (July 1, 2021): 461–502. http://dx.doi.org/10.17704/1944-6187-40.2.461.

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The very first scientific paper by the great Austrian geologist Eduard Suess (1831–1914), the dean of geologists internationally during his lifetime, treats the graptolites of Bohemia (the ‘Barrandian’). This paper and most of his subsequent papers on palaeontology are accompanied by superb drawings of his observations in which Suess took great care not to insert himself between Nature as he perceived it in the framework of the knowledge of his day and his readers. In his drawings, he exercised what the great German geologist Hans Cloos later called ‘the art of leaving out’. This meant that in the drawings, the parts not relevant to the discussion are left only in outline, whereas parts he wished to highlight are brought to the fore by careful shading; but even the parts left only in outline are not schematic, instead they are careful reconstructions true to Nature as much as the material allowed it. This characteristic of Suess’ illustrations is seen also in his later field sketches concerning stratigraphy and structural geology and also in his depiction of the large tectonic features of our globe representing a guide to his manner of thinking. His illustrations in his early palaeontological work foreshadowed the later global geologist’s approach to our planet (and the Moon!) as a whole.
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Orlov, Viktor, Evgeny Kiselev, Andrey Morozov, Evgeny Farrakhov, Aslambek Germakhanov, Alexander Chernykh, Evgeniya Sidorova, et al. "Youth geological movement as a factor of staff formation within the Russian geological industry." Domestic geology, no. 1 (March 31, 2021): 5–18. http://dx.doi.org/10.47765/0869-7175-2021-10001.

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The paper reviews the background of the Russian youth movement. Succession of children’s and school education in geosciences for over 150 years is shown. For the past 55 years, the Russian geological olympiad of young geologists has been among the most significant events to improve geological education level in school, share experience and promote geological job. Features of organization, holding, judging and team participation in the Russian young geologist olympiads at the current stage are characterized. It's shown the important role played by Rosnedra, ROSGEO and teachers of numerous young geologist clubs in providing school students with ideas of geologist work features and basic geological knowledge for national economy development. Program features and results of the latest XII young geologist olympiad are presented. Information is provided on the most prominent young geologist schools from Perm, Chelyabinsk, Moscow, Krasnoyarsk and other cities
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Davies, Gordon L. Herries. "Geologists in conflict." Nature 316, no. 6028 (August 1985): 491–92. http://dx.doi.org/10.1038/316491a0.

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Dissertations / Theses on the topic "Geologists"

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Tolman, Aja B. "Geologists and the British Raj, 1870-1910." DigitalCommons@USU, 2016. https://digitalcommons.usu.edu/etd/4989.

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The Geological Survey of India (GSI) was a government institution that was created to map the geography and mineral resources of colonial India. British geologists Thomas Oldham and Valentine Ball used the GSI in order to affect policy changes regarding museum ownership, environmental conservation, and railroad construction. All of these policies were intended to impose order on the landscape and streamline the resource extraction process. Their goal was to enrich the British Empire. An Indian geologist named Pramatha Nath Bose, who also worked for the GSI for a time, also worked to enact policy changes regarding education and production. But instead of trying to make the British Empire stronger, he wanted to push it out of India. He left the GSI since he found it too restrictive, and, together with other Indians, restructured geological education at the university level and set up a successful steel manufacturing mill. Both the British geologists and Bose helped lay the economic foundation of India's independence. The GSI gave geologists power in some situations, but in others it restricted the advancement of the field.
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Wyatt, John Frederick. "Wordsworth and the geologists : a correlation of influences." Thesis, University of Southampton, 1991. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.316528.

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Mortenson, Terence J. "British scriptural geologists in the first half of the nineteenth century." Thesis, Coventry University, 1996. http://curve.coventry.ac.uk/open/items/c2ca3d9b-4617-006a-3cba-cba9e86062f0/1.

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During the first half of the nineteenth century (particularly 1820-1845) in Britain a number of laymen and clergymen tenaciously fought against new geological theories. These men became known as the "Scriptural geologists." They held the traditional Christian view that Genesis provided a realiable, historical account of the creation of the universe and the early history of the earth. In particular, they believed that the Noachian deluge was a unique global catastrophe, which produced most of the geological record, and that the earth was roughly 6,000 years old. From this position they responded with equal vigour to the old-earth theories of the uniformitarian and the catastrophist geologists. They also rejected, as misinterpretations of Scripture, the "gap theory", the "day-age theory", the "tranquil flood theory" and the "local flood theory." These writers have received limited scholarly analysis. Gillispie, Millhauser and Yule have given them some attention and are the historians regularly cited by others. Much current research addresses the issue of religion and science in the nineteenth century but none has focused on the Scriptural geologists. They deserve more study because they were "an important irritant and a serious disturbing factor in the scientific geologists' campaign to establish and maintain their own public image as a source of reliable and authoritative knowledge" (Martin Rudwick, 'The Greate Devonian Controversy', 1985, p.43). Also, this thesis demonstrates that they have been seriously misrepresented both by many of the contemporaries and by nearly all later hisotrians. By way of introduction, a brief analysis is given of 1) the intellectual, religious and cultural background leading up the nineteenth century, 2) the history of the interpretation of fossils, sedimentary rocks, and the Genesis account of creation and the flood, 3) a description of the nineteenth century milieu and 4) what constituted geological competence in the early nineteenth century. The central portion of the thesis analyzes the Biblical and geological arguments presented by thirteen representative Scriptural geologists. In the final section, generalizations and conclusions are made about the Scriptural geologists as a group and the nature of the debate with those they opposed.
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Martínez-Rius, Beatriz. "Making the Seafloor. French Geologists, Marine Resources, and New Deep Territories (1945-1975)." Electronic Thesis or Diss., Sorbonne université, 2022. http://www.theses.fr/2022SORUS284.

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Au début des années 1960, le sous-sol océanique est devenu un nouveau territoire dont l'image a été façonnée par des imaginaires sur l'abondance de ressources naturelles, prêts à découvrir et à exploiter. L'industrie pétrolière est devenue un mécène pour la géologie marine, tandis que les gouvernements se sont empressés de réclamer la souveraineté sur les régions sous-marines à partir de leurs données géophysiques. Cette thèse étudie le rapport entre le patronage étatique et la production de connaissances sur le sous-sol marin, en s'interrogeant sur la construction du sous-sol marin en tant que territoire en relation aux inquiétudes et priorités découlant du contexte de la décolonisation. La thèse met le focus sur l'industrie pétrolière française et les politiques qui ont promu l'exploitation des ressources marines, en étudiant l'articulation entre les géosciences marines, les mécanismes institutionnels et motivations commerciales qui les ont promus. La thèse indique que ces connections ont été tissées par un réseau d'acteurs connectant des élites politiques, industries extractives et laboratoires scientifiques, créant des interactions académiques-industrielles pour explorer le sous-sol marin dans lesquelles le secret commercial s'est dissous. La thèse montre l'existence d'un continuum de pratiques, infrastructures et acteurs impliqués initialement dans l'exploitation pétrolière dans les colonies françaises et qui considéraient les fonds marins dans leur quête de nouveaux terrains de production. Dans ce contexte, les connaissances géologiques du sous-sol marin sont devenues un atout crucial pour le gouvernement français, qui pouvait les mobiliser pour négocier des relations internationales et renforcer son prestige national. Cette recherche montre que les motivations économiques pour explorer le sous-sol marin et le mécénat de l'industrie pétrolière ne doivent pas être négligés dans notre compréhension de l'histoire des océans
Early in the 1960s, the seafloor began to emerge as a new territory, over which imaginaries of limitless natural resources, to be explored and exploited, were projected. The oil industry became a patron for marine geosciences, whereas coastal governments hastened to ground in geophysical data their sovereign claims over underwater regions. This thesis inquiries through which mechanisms the patrons’ motivations to explore the seafloor drove the production of knowledge about it; while it explores how the seafloor emerged as a territory, shaped by concerns and priorities deriving from decolonization. Focusing on France’s oil industry and political stances interested in exploiting marine resources, I analyze the institutional and social mechanisms through which commercial motivations were articulated with marine geosciences. A singular network, weaved by a political elite, grew connecting government instances, extractive industries, and scientific laboratories, creating academic-industrial interplays to explore the seafloor in which trade secrecy dissolved. This research suggests a continuum in practices, infrastructures, and state actors from the decolonization of France’s oil-producing territories to the seafloor, in the quest for new productive grounds. In this context, geological knowledge from the seafloor increasingly became a crucial asset for the French government, which could mobilize it to negotiate international relations and foster national prestige. This thesis conveys that economic motivations to explore the seafloor and the oil industry’s patronage shall not be overlooked in our understanding of the oceans’ history
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Coombes, Jacqueline. "Practice based competency development: a study of resource geologists and the JORC code system." Thesis, Edith Cowan University, Research Online, Perth, Western Australia, 2013. https://ro.ecu.edu.au/theses/610.

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The mining industry is a major contributor to the Australian economy. The value of mining and exploration shares traded on the Australian Stock Exchange are contingent on the estimates of mineral deposits, which are disclosed publically in accordance with a reporting code maintained by the Australasian Joint Ore Reserves Committee (the JORC Code). Expert resource geologists, known as Competent Persons, provide classified estimates of mineral endowment that underpin these public statements. The JORC Code requirements for qualifying as Competent Persons are membership of an approved professional association and a minimum of five years’ relevant experience. This research set out to address a primarily practical issue: How do the mining industry, mining companies and individuals cooperate to develop resource geologists with sufficient competency to provide expert recommendations for public reporting of mineral resources? A corollary to this is ‘Are the current standards sufficient to identify the competency expectations placed on Competent Persons?’ It is challenging to place the subsequent research in any one discipline as the study draws on multiple theories across multiple domains to facilitate a relevant description of the practicebased competency development. To properly understand the the practice of resource geologists operating in a sub-sector within the JORC Code system, the research needed to explore and consolidate diverse theories such as theories on social structures, workplace learning theories and statistical reasoning education theories. In addition, as a mixed methods study, the research draws on a wide range of tools from qualitative iterative coding and theming techniques to the more rigorous statistical tools of t-tests, paired t-tests, ANOVA and the philosophically different Rasch Analysis method. This study reflects a broad curiosity in diverse concepts and theories that is combined with the researcher’s desire to provide a meaningful practical contribution to the mining industry. The practical outcome of this research is a revised set of criteria to meet Competent Persons status under the JORC Code that is supported by a competency development model. These models are generalised to reflect a revised competency model, based on the dual expectations of practice exposure and reasoning ability, and an associated competency development model, which synthesises contributions of workplace learning experiences. The contributions to the theory include a revised theory of workplace learning networks emerging from the practice context of transient professional workers. These networks are enduring, transient and egocentric and operate beyond organisational confines.
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Hocken, A. G., and n/a. "The early life of James Hector, 1834 to 1865 : the first Otago Provincial Geologist." University of Otago. Department of Geology, 2008. http://adt.otago.ac.nz./public/adt-NZDU20080227.144316.

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The geologist James Hector (1834-1907) was, by any measure, the most important and influential scientist in nineteenth century New Zealand. In the mid 1860s, he became the first Director of the New Zealand Geological Survey and the Colonial Museum. Thereafter he ran the Colonial Laboratory, set up the Meteorological Service and the Wellington Botanical Gardens and was responsible for the establishment of the New Zealand Institute, acting as its manager and editor of its Transactions and Proceedings for more than 30 years. This work explores the formative years of his career from his early years in Scotland, his experiences with the Palliser Expedition in Canada, and pivotally, his first four years in New Zealand as the first Otago Provincial Geologist. By the time of James Hector�s entry as a medical student to Edinburgh University in 1852, he had already developed a strong interest in natural history, particularly geology. Although he graduated M.D. from Edinburgh in 1856, that course of study served only as a means of access to the natural sciences. Hector�s interest and training in geology developed at an opportune time, when there was increasing demand for geologists to explore the expanding industrial British Empire for coal and other mineral raw materials. Hector�s reputation in geology in Edinburgh brought him to the attention of that most influential British geologist, Sir Roderick Murchison, whose recommendation led to his appointment to the British North American Expedition of 1857 (the Palliser Expedition). Hector was acknowledged, on several counts, as a major contributor to the success of the expedition. When the Otago Provincial Government in New Zealand requested advice on the appointment of a geologist for the province, Murchison predictably proposed Hector. Having reviewed and assessed his work in North America, this thesis deals with the arrival of Hector as Otago Provincial Geologist in Dunedin during the prosperity of the gold rush of the early 1860s. For the first nine months he explored the central and eastern areas of the Province (Chapter 2) and the following year led the exploration of the West Coast, where there was potential for coal, gold and timber-and reputedly copper-and the prospect of providing a commercial route to Melbourne. The two month long expedition up the Matukituki Valley preceded the exploration by ship of the West Coast of the South Island as far north as Martins Bay. The latter became a major triumph on the strength of the contemporary perception of a route between Queenstown and Martins Bay potentially opening up a direct contact between Dunedin and Melbourne. From mid-1864, Hector�s life was governed by the organisation of the International Exhibition, which opened in Dunedin in January 1865. In that context, he travelled to seek support and participation from the other provinces of New Zealand, a political and administrative commission which he combined with geological exploration. After the closure of the successful Exhibition in May 1865 and subsequent to the conclusion of his appointment on 1st April 1865, Hector left Otago in August to take up the newly created post of Director of the New Zealand Geological Survey in Wellington. The parting was not administratively smooth and relations between Hector and the Otago Provincial Government were strained by the lack of a final, definitive, report on the Geology of Otago. An overview of Hector�s geology, specifically his interest in coal and gold, and the evolution of his views on the vexed question of the role of glaciers as geomorphologic agents is provided. James Hector was a man of versatile ability and strong leadership. His scientific skills as a field geologist and the administrative abilities, developed during his explorations in British North America and southern New Zealand, led ultimately to his long and successful career as New Zealand�s chief scientist at a formative time in its history.
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Wennerbom, Alan John Lyell Charles Mantell Gideon Algernon. "Charles Lyell and Gideon Mantell, 1821-1852 their quest for elite status in English geology /." Connect to full text, 1999. http://hdl.handle.net/2123/380.

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Thesis (Ph. D.)--University of Sydney, 1999.
Title from title screen (viewed Apr. 16, 2008). Submitted in fulfilment of the requirements for the degree of Doctor of Philosophy to the Dept. of History, Faculty of Arts. Includes bibliography. Also available in print form.
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Caudel, Mark Edward. "Julius Haast : towards a new appreciation of his life and work : a thesis submitted in partial fulfilment of the requirements for the degree of Master of Arts in History in the University of Canterbury /." Thesis, University of Canterbury. History, 2007. http://hdl.handle.net/10092/954.

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Little is known about Julius Haast's life prior to his arrival in New Zealand in 1858 at the age of 36. Without knowing something about his background, it is difficult to explain his life in New Zealand. This work pursues a historical context that can more fully explain Haast's remarkably active career in New Zealand. The geological survey of the Canterbury Province, the Philosophical Institute of Canterbury and the Canterbury Museum represent Haast's major contributions to science and culture in New Zealand. Julius Haast carefully engineered his own transition from geologist to museum director within the social and political climate of Canterbury in order to remain in Christchurch where he raised his family. Heinrich von Haast's book about his father has been the accepted source of information about his father since its publication in 1948. Until recently, scholars have failed to explore beyond the scope of von Haast's biography. There is now a trend toward recognising Julius Haast as having made significant contributions to many aspects of science and society.
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Schanken, Luke G. "INTERNSHIP WITH EQUITABLE RESOURCES PRODUCTION COMPANY – GEOLOGIST." Miami University / OhioLINK, 2009. http://rave.ohiolink.edu/etdc/view?acc_num=miami1240582253.

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Redeckas, Linas. "Pakruojo rajono geologinis potencialas ir jo apsauga." Master's thesis, Lithuanian Academic Libraries Network (LABT), 2014. http://vddb.library.lt/obj/LT-eLABa-0001:E.02~2014~D_20140723_121540-06568.

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Geologinis potencialas yra geologinių išteklių (objektų, sąlygų, reiškinių ir procesų) visuma, galinti būti šiuo metu arba perspektyvoje įtraukta į ūkinę veiklą. Sąlyginai galima skirti penkias išteklių grupes: naudingųjų iškasenų ištekliai, struktūriniai-tektoniniai ištekliai, erdviniai ištekliai, informaciniai ištekliai ir rekreaciniai ištekliai. Pagrindinis darbo tikslas - įvertinti pagrindinius Pakruojo rajono geologinio potencialo išteklius ir jų apsaugą. Siekiant jį realizuoti buvo įvertinti pagrindiniai geologinio potencialo ištekliai. Nustatyta geopaveldo objektų įvairovė ir sklaida Pakruojo rajone. Įvertinti pagrindiniai naudingųjų iškasenų ištekliai Pakruojo rajone, jų eksploatacijos mastai, apžvelgti dolomito panaudojimo galimybes Lietuvos ūkyje. Taip pat buvo svarbu įvertinti dolomito gavybos poveikį aplinkai, rekultivacijos būdus. Buvo aplankyti Petrašiūnų, Klovainių dolomito karjerai, įvertinta jų aplinkos būklė, lankymų metu bendrauta su karjerus eksploatuojančių įmonių administracija, rinkti dolomito pavyzdžiai detalesniam tyrimui, taip pat papildyti LEU geologijos kabineto dolomitų kolekciją su įvairiomis fosilijomis (koralų, pilvakojų ir kt). Statistinis metodas, naudotas apskaičiuojant įvairius naudingųjų iškasenų išteklių gavybos duomenis. Kartografinis metodas: buvo analizuojami žemėlapiai, sudaromi. Pakruojo rajone yra nedidelės struktūrinių-tektoninių ir erdvinių išteklių panaudojimo galimybės. Iš geologinio potencialo išteklių Pakruojo rajone... [toliau žr. visą tekstą]
Geological potential is geological resources (objects, conditions, events, and processes) altogether, that can be or is currently included in the economic activity. Relatively the resources can be divide in to five groups: mineral resources, the structural-tectonic stocks, spatial resources, information resources and recreational resources. The main purpose – is to evaluate the main potential geological resources and their protection in Pakruojis district. In order to realize it, the main potential geological resources were evaluated. Also the variety and dissemination of geoheritage objects were determined in Pakruojis district. In the same district, the evaluation of the main mineral resources, the scale of exploitation, and a review of the use of dolomite for the Lithuanian economy, was done. It was also important to evaluate the impact of the production of dolomite for environment and remediation techniques. The dolomite quarries of Petrašiūnai and Klovainiai were visited, their environmental conditions were evaluated. During these visits the administration of quarries operating company‘s were contacted; dolomite samples were collected for more detailed investigation. The dolomite collection of LEU Geological Study Room was complemented with the various fossils (corals, gastropods, etc.) as well. The statistical method was used for calculating the various mineral resource extraction data. Mapping method: there was analyzed maps and drawn maps. ... [to full text]
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Books on the topic "Geologists"

1

Hammonds, Heather. Geologists. North Mankato, Minn: Smart Apple Media, 2004.

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London, Geological Society of, ed. The Geologist's Directory: Incorporating The Register of Consulting Chartered Geologists. 9th ed. Bath: Geological Society, 1999.

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Drake, Ellen T., and William M. Jordan, eds. Geologists and Ideas. America: Geological Society of America, 1985. http://dx.doi.org/10.1130/dnag-cent-v1.

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(Firm), Sally Ride Science, ed. The first geologists. Huntington Beach, CA: Teacher Created Materials Pub., 2007.

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Rice, William B. The first geologists. Huntington Beach, CA: Teacher Created Materials Pub., 2007.

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Knoring, L. D. Mathematics for geologists. Rotterdam: A.A. Balkema, 1993.

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Geophysicists, California Board of Registration for Geologists and. Directory of registered geologists, registered geophysicists, and certified engineering geologists. [Sacramento]: State of California, Dept. of Consumer Affairs, Board of Registration for Geologists and Geophysicists, 1985.

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Canada. Energy, Mines and Resources Canada., ed. Remote sensing for geologists. [Canada]: Energy, Mines and Resources Canada, 1988.

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John, Wyatt. Wordsworth and the geologists. Cambridge: Cambridge University Press, 1995.

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VandenDolder, Evelyn M. How geologists tell time. Tucson, AZ: Arizona Geological Survey, 1995.

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Book chapters on the topic "Geologists"

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Harland, David M. "Geologists’ Moon." In Paving the Way for Apollo 11, 19–31. New York, NY: Springer New York, 2009. http://dx.doi.org/10.1007/978-0-387-68132-0_2.

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Sundqvist, Göran. "Geologists Mapping Bedrock." In Environment & Policy, 143–74. Dordrecht: Springer Netherlands, 2002. http://dx.doi.org/10.1007/978-94-015-9950-4_7.

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Nelson, Byron C. "The Earliest Flood Geologists." In The Creationist Writings of Byron C. Nelson, 159–72. London: Routledge, 2021. http://dx.doi.org/10.4324/9781003217282-10.

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Cremaschi, Sergio. "Ricardo's encounter with geologists." In David Ricardo. An Intellectual Biography, 46–65. London: Routledge, 2021. http://dx.doi.org/10.4324/9781003162100-4.

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Rudwick, Martin J. S. "Geologists' Time: A Brief History." In The New Science of Geology, I_1—I_7. London: Routledge, 2023. http://dx.doi.org/10.4324/9781003418696-2.

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Rudwick, Martin J. S. "Charles Darwin in London: The Integration of Public and Private Science." In Lyell and Darwin, Geologists, IX_186—IX_206. London: Routledge, 2023. http://dx.doi.org/10.4324/9781003418702-13.

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Rudwick, Martin J. S. "Darwin and Glen Roy: A “Great Failure” in Scientific Method?" In Lyell and Darwin, Geologists, X_97—X_185. London: Routledge, 2023. http://dx.doi.org/10.4324/9781003418702-14.

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Rudwick, Martin J. S. "Lyell and the Principles of Geology." In Lyell and Darwin, Geologists, II_1—II_24. London: Routledge, 2023. http://dx.doi.org/10.4324/9781003418702-3.

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Rudwick, Martin J. S. "Poulett Scrope on the Volcanoes of Auvergne: Lyellian Time and Political Economy." In Lyell and Darwin, Geologists, III_205—III_242. London: Routledge, 2023. http://dx.doi.org/10.4324/9781003418702-5.

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Rudwick, Martin J. S. "Historical Analogies in the Geological Work of Charles Lyell." In Lyell and Darwin, Geologists, V_89—V_107. London: Routledge, 2023. http://dx.doi.org/10.4324/9781003418702-7.

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Conference papers on the topic "Geologists"

1

Ionescu, Eugen Mihail. "NOTORIOUS ROMANIAN GEOLOGISTS." In 16th International Multidisciplinary Scientific GeoConference SGEM2016. Stef92 Technology, 2016. http://dx.doi.org/10.5593/sgem2016/b11/s01.056.

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Quijada, Maria. "MENTAL HEALTH AND GEOLOGISTS." In GSA Connects 2023 Meeting in Pittsburgh, Pennsylvania. Geological Society of America, 2023. http://dx.doi.org/10.1130/abs/2023am-392021.

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Garcia, Dawn H. "PROFESSIONAL LICENSURE OF GEOLOGISTS." In GSA Connects 2022 meeting in Denver, Colorado. Geological Society of America, 2022. http://dx.doi.org/10.1130/abs/2022am-379933.

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Rempe, Norbert T. "Geologists Must Repossess Geologic Repositories." In 2016 New Mexico Geological Society Annual Spring Meeting. Socorro, NM: New Mexico Geological Society, 2016. http://dx.doi.org/10.56577/sm-2016.451.

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Bier, Sara E., Page C. Quinton, Michael C. Rygel, Kamal Humagain, and David Kingsley. "GROWING GEOLOGISTS IN A GEOSCIENCE GARDEN." In Joint 69th Annual Southeastern / 55th Annual Northeastern GSA Section Meeting - 2020. Geological Society of America, 2020. http://dx.doi.org/10.1130/abs/2020se-343344.

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Gries, Robbie. "The earliest women geologists in geophysics." In International Conference and Exhibition, Barcelona, Spain, 3-6 April 2016. Society of Exploration Geophysicists and American Association of Petroleum Geologists, 2016. http://dx.doi.org/10.1190/ice2016-6566661.1.

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Kölbl-Ebert, M. "German Petroleum Geologists in World War II." In 79th EAGE Conference and Exhibition 2017. Netherlands: EAGE Publications BV, 2017. http://dx.doi.org/10.3997/2214-4609.201701274.

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Chesebrough, Abbey, Makala Hannagan, Magella Honeyfield, NancyElma Dale Proctor, Emily McClenahan, and Steve W. Simpson. "The Notable New Mexico Geologists (Online) Project." In 2015 New Mexico Geological Society Annual Spring Meeting. Socorro, NM: New Mexico Geological Society, 2015. http://dx.doi.org/10.56577/sm-2015.357.

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Hector, Scott T. "Becoming a Registered Professional Geologist and Doing Mineral Remoteness Opinions - Another Way for Geologists to Make a Living." In 2018 AAPG Annual Convention & Exhibition. Tulsa, OK, USA: American Association of Petroleum Geologists, 2018. http://dx.doi.org/10.1306/70358hector2018.

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Price, Jonathan G. "ROLE OF GEOLOGISTS IN THE MINING LIFE CYCLE." In GSA Annual Meeting in Phoenix, Arizona, USA - 2019. Geological Society of America, 2019. http://dx.doi.org/10.1130/abs/2019am-330173.

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Reports on the topic "Geologists"

1

O'Brien, K. Geologists in the Maritimes. Natural Resources Canada/ESS/Scientific and Technical Publishing Services, 1992. http://dx.doi.org/10.4095/298407.

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Last, G. V., and T. L. Liikala. A field guide for well site geologists: Cable tool drilling. Office of Scientific and Technical Information (OSTI), December 1987. http://dx.doi.org/10.2172/5459567.

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Dilabio, R. N. W. Drift Prospecting: Geologists Use Glacial Sediments To Find Ore Deposits. Natural Resources Canada/CMSS/Information Management, 1990. http://dx.doi.org/10.4095/127977.

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Biek, Robert F., Peter D. Rowley, and David B. Hacker. Utah’s Ancient Mega-Landslides: Geology, Discovery, and Guide to Earth’s Largest Terrestrial Landslides. Utah Geological Survey, December 2022. http://dx.doi.org/10.34191/c-132.

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Southwest Utah contains what may be the largest landslide complex on land in the world. This complex includes three ancient side-by-side gigantic slides that cover an area roughly the size of Yellowstone National Park with a volume of slide debris that would nearly fill the Grand Canyon to its rim. Geologists call it the Marysvale gravity slide complex— “Marysvale” for the namesake volcanic field that partly failed catastrophically three separate times, and “gravity slide” to call attention to a special class of extremely large and geologically complex landslides several tens to thousands of square miles in extent. Here we refer to them simply as mega-landslides or slides—they are larger and far more interesting than geologists could ever have imagined.
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Hubert, O., and M. Marchal. The geological database PASCAL-GEODE: a tool at the service of geologists. Natural Resources Canada/ESS/Scientific and Technical Publishing Services, 1994. http://dx.doi.org/10.4095/193931.

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Shimamura, K., S. P. Williams, and G. Buller. GanFeld user guide: a map-based field data capture system for geologists. Natural Resources Canada/ESS/Scientific and Technical Publishing Services, 2008. http://dx.doi.org/10.4095/226214.

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Yochelson, E. L. Contributions of 19th Century Canadian Geologists To the Adoption of the Ordovician System. Natural Resources Canada/ESS/Scientific and Technical Publishing Services, 1991. http://dx.doi.org/10.4095/132178.

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Goff, Fraser, Jamie N. Gardner, Steven L. Reneau, Shari A. Kelley, Kirt A. Kempter, and John R. Lawrence. Geologic map of the Valles Caldera, Jemez Mountains, New Mexico. New Mexico Bureau of Geology and Mineral Resources, 2011. http://dx.doi.org/10.58799/gm-79.

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The Valles caldera, located in the heart of the Jemez Mountains in north-central New Mexico, is the world's premier example of a resurgent caldera, a giant circular volcano with an uplifted central floor and a near-perfect ring of roughly 15 postcaldera lava dome and flow eruptions.This new Valles caldera map and cross sections represent the cumulative research efforts of countless geologists over the past 40 years, and several state and federal agencies. GM-79 compiles detailed geologic mapping completed in the past eight years from parts of the nine 7.5-min USGS topographic quadrangles that encompass the caldera. More than 150 map units are described in detail. Also incorporated are new geochronologic data and recent refinements to nomenclature.
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Nieminski, N. M., A. C. Poisson, K. C. Horen, and Z. J. Siemsen. Alaska's Coastal Hazards Program serving communities at risk (presentation): Association of American State Geologists Meeting, Glenwood Springs, Colorado, June 13, 2023. Alaska Division of Geological & Geophysical Surveys, 2023. http://dx.doi.org/10.14509/31042.

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Koehler, R. D., T. D. Hubbard, R. D. Reger, P. E. Gallagher, and J. R. Weakland. Geologic hazards assessment along the proposed in-state gas pipeline: Livengood to Anchorage, Alaska, Association of Environmental and Engineering Geologists 54th annual meeting, September 19-24, 2011, Anchorage, Alaska. Alaska Division of Geological & Geophysical Surveys, September 2011. http://dx.doi.org/10.14509/22882.

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