Bibliographies thématiques / Oceanography

Littérature scientifique sur le sujet « Oceanography »

Auteur : Grafiati
Publié le 4 juin 2021
Mis à jour le 25 mai 2024

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Articles de revues sur le sujet "Oceanography"

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Wunsch, Carl. « Henry Melson Stommel. 27 September 1920—17 January 1992 ». Biographical Memoirs of Fellows of the Royal Society 43 (janvier 1997) : 493–502. http://dx.doi.org/10.1098/rsbm.1997.0027.

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Henry Melson Stommel, probably the most original and important physical oceanographer of all time, was in large measure the creator of the modern field of dynamical oceanography. He contributed and inspired many of its most important ideas over a 45–year period. Hank, as many called him, was known throughout the world oceanographic community not only as a superb scientist, but as raconteur, explosives amateur, printer, painter, gentleman farmer, fiction writer and host with a puckish sense of humour and booming laugh.
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Gordon, Donald C. « Gordon Arthur Riley : The Complete Oceanographer 1911-1985 ». Proceedings of the Nova Scotian Institute of Science (NSIS) 50, no 1 (15 mars 2019) : 7. http://dx.doi.org/10.15273/pnsis.v50i1.8864.

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Gordon Riley was an outstanding scientist who played a leading international role in the development of oceanography as a field of scientific study in the mid-twentieth century. His multidisciplinary approach, quantitative skills, imagination and intuition advanced our knowledge and understanding of the ocean enormously. Of his many significant scientific contributions to oceanography, he is best known for his pioneering work in developing simple numerical models for improving the understanding of the dynamics of marine ecosystems with a focus on plankton. He helped transform oceanography from a descriptive to a quantitative science. His early career was spent in the United States at the Bingham Oceanographic Laboratory of Yale University and the Woods Hole Oceanographic Institution. In 1965, at the peak of his career, he immigrated to Canada to become the director of the Institute of Oceanography at Dalhousie University. Under his leadership, the Institute evolved into the Department of Oceanography, which became an internationally recognized centre for marine research and teaching. During this period, he also played a prominent role in the development of the broader Canadian oceanographic community. He served as a wonderful example of how scientific research, teaching and a life should be carried out.
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Searle, Roger C. « Sir Anthony Seymour Laughton. 29 April 1927—27 September 2019 ». Biographical Memoirs of Fellows of the Royal Society 69 (22 juillet 2020) : 291–311. http://dx.doi.org/10.1098/rsbm.2020.0021.

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Anthony (Tony) Laughton was an oceanographer who promoted the science of oceanograpy in Britain. Focusing on the shape of the seafloor, his work included underwater photography, ocean drilling, long-range side-scan sonar and scientific charting of the ocean floor. Following undergraduate studies at King's College, Cambridge, he joined Maurice Hill (FRS 1962) at the Cambridge Department of Geodesy and Geophysics, beginning a career in marine geophysics. Following his PhD, he spent a year at Lamont Geological Observatory, USA, where he met many leading US workers, and became interested in deep-seafloor photography and bathymetric mapping. Returning to the UK, he joined the National Institute of Oceanography (Institute of Oceanographic Sciences from 1973) at Wormley, Surrey, and became director in 1978. He developed the first UK seafloor camera, was an enthusiastic supporter and user of the revolutionary Precision Echo Sounder and later of the GLORIA long-range side-scan sonar. He played a significant part in the International Indian Ocean Expedition, subsequently developing a new understanding of the Gulf of Aden. A consummate committee man, he had a vital role in reviving the General Bathymetric Chart of the Oceans and promoted UK involvement in the international Deep-Sea Drilling Project. He was an accomplished amateur musician (playing French horn), small-boat sailor and handyman.
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Mills, Eric. « The Historian of Science and Oceanography After Twenty Years ». Earth Sciences History 12, no 1 (1 janvier 1993) : 5–18. http://dx.doi.org/10.17704/eshi.12.1.jgln046t720l1593.

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A little more than twenty years ago, at the First International Congress of History of Oceanography in Monaco, the American historian of science Harold Burstyn attempted to place the history of oceanography in context within the history of science. He pointed out that history of science used as a working principle the increasing quantification of science, and that it was moving toward "externalist" studies of the social and political contexts in which science developed. Oceanography, according to Burstyn, was among the first examples of "big science" and was likely to prove important to historians attempting to link scientific development with its social context. He envisioned two tasks for the historian of oceanography, to develop detailed histories of the science itself, and to explore its response to social, political, financial and cultural forces.After three more congresses of the history of oceanography, the proliferation of publications, even the birth of a newsletter of the history of oceanography, it still largely remains true that (slightly edited) the field suffers from "lack of focus, publications of all offerings regardless of merit, and conjunction of scientists … and historians and philosophers of science, assembled without any methodological unit or rules of procedure". But all is not lost. Major books have helped to focus attention on interesting historical problems as well as achievements; outstanding work has been published, or is in progress, on marine geophysics, oceanographic institutions, exploration, national science, and the historical relationship of oceanography to its sister fields such as geography and marine biology. Bibliographies have begun to appear, easing the toil of starting new research, and regular contact, formal and informal is increasing among historians of oceanography.Nonetheless, the history of oceanography is still in a primitive state. We need more internal histories of oceanography's subdisciplines, critical biographies of its practitioners, studies of its institutions in their full contexts, work on differences in national styles, and a thorough examination of its professionalization. Few would now agree that the only canon of the history of oceanography is the increasing quantification of science, but this hybrid discipline remains, as Burstyn perceptively stated, "the most fruitful combination possible of ‘internal’ and ‘external’ problems in the history of science".
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Oreskes, Naomi. « Getting Oceanography Done ». Earth Sciences History 19, no 1 (1 janvier 2000) : 36–43. http://dx.doi.org/10.17704/eshi.19.1.3rpj481308814374.

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This special section of Earth Sciences History presents four papers from the Maury II Conference on the History of the Marine Sciences, held at Woods Hole, Massachusetts in June 1999. The common theme of the papers is patronage: how scientists obtained moral, financial, and logistical support for oceanographic work from the late 19th to the mid 20th century. Oceanography is an expensive and logistically difficult science. How do scientists manage to get oceanography done?
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Mills, Eric L. « Bringing Oceanography into the Canadian University Classroom ». Scientia Canadensis 18, no 1 (2 juillet 2009) : 3–21. http://dx.doi.org/10.7202/800372ar.

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ABSTRACT The University of British Columbia's Institute of Oceanography, established in 1949, inaugurated graduate education in oceanography in Canada. It is a rare example of federal government involvement in the content ofhigher education. In the face of competition from McGill and Dalhousie, UBC's success was due to the need for new personnel in oceanography after World War Two, to the presence of the Pacific Oceanographic Group under J.P. Tully nearby in Nanaimo, to Canadian interest in defence during the Cold War and in Arctic development, and to the postwar growth and success of UBC under its president, N.A.M. MacKenzie. UBC exploited the interest of the Canadian Joint Committee on Oceanography, made up of senior civil servants, in physical oceanography to get support for its endeavour. By contrast, Dalhousie, which attempted to base a graduate programme upon bacteriology, failed to find a federal government patron until oceanography expanded further in the late 1950s.
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Rainger, Ronald. « Patronage and Science : Roger Revelle, the U.S. Navy, and Oceanography at the Scripps Institution ». Earth Sciences History 19, no 1 (1 janvier 2000) : 58–89. http://dx.doi.org/10.17704/eshi.19.1.u0461q021p2hk62x.

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In the years between 1940 and 1955, American oceanography experienced considerable change. Nowhere was that more true than at the Scripps Institution of Oceanography in La Jolla, California. There Roger Revelle (1909-1991) played a major role in transforming a small, seaside laboratory into one of the leading oceanographic centers in the world. This paper explores the impact that World War II had on oceanography and his career. Through an analysis of his activities as a naval officer responsible for promoting oceanography in the navy and wartime civilian laboratories, this article examines his understanding of the relationship between military patronage and scientific research and the impact that this relationship had on disciplinary and institutional developments at Scripps.
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A., Balagiu. « Elements of oceanographic terminology in english and romanian ». Scientific Bulletin of Naval Academy XXII, no 1 (15 juillet 2019) : 200–205. http://dx.doi.org/10.21279/1454-864x-19-i1-028.

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Oceanography is a vast domain dealing with various aspects of marine life, physical and chemical aspects of the seas and oceans of the world. Searching available oceanographic documents of the 19th, 20th and 21st century, the aim of the paper is to emphasize the specific terminology of at least one of the branches of oceanography. The branches of oceanography deal with marine biology, ocean chemistry, marine geology and marine physics. The differences between the Romanian and English terminology according to the etymology are brought into discussion and conclusions drawn according to the similarities and differences.
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Greene, Mott. « Oceanography's Double Life ». Earth Sciences History 12, no 1 (1 janvier 1993) : 48–53. http://dx.doi.org/10.17704/eshi.12.1.k642ql61336813u6.

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The history of oceanography is currently divided into periods which are bracketed by famous voyages of discovery and exploration. This division scheme makes oceanography look very much like the history of geography. On the other hand, analysis of the development of oceanographic ideas and theories suggests a quite alternate periodic scheme more compatible with the currently employed divisions of the history of geophysics and meteorology. The origins and implications of this bifurcation are discussed, with suggestions for research which might help oceanography toward a more ample acknowledgement of this "double life."
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Haine, Thomas W. N., Renske Gelderloos, Miguel A. Jimenez-Urias, Ali H. Siddiqui, Gerard Lemson, Dimitri Medvedev, Alex Szalay, Ryan P. Abernathey, Mattia Almansi et Christopher N. Hill. « Is Computational Oceanography Coming of Age ? » Bulletin of the American Meteorological Society 102, no 8 (août 2021) : E1481—E1493. http://dx.doi.org/10.1175/bams-d-20-0258.1.

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AbstractComputational oceanography is the study of ocean phenomena by numerical simulation, especially dynamical and physical phenomena. Progress in information technology has driven exponential growth in the number of global ocean observations and the fidelity of numerical simulations of the ocean in the past few decades. The growth has been exponentially faster for ocean simulations, however. We argue that this faster growth is shifting the importance of field measurements and numerical simulations for oceanographic research. It is leading to the maturation of computational oceanography as a branch of marine science on par with observational oceanography. One implication is that ultraresolved ocean simulations are only loosely constrained by observations. Another implication is that barriers to analyzing the output of such simulations should be removed. Although some specific limits and challenges exist, many opportunities are identified for the future of computational oceanography. Most important is the prospect of hybrid computational and observational approaches to advance understanding of the ocean.
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Thèses sur le sujet "Oceanography"

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Buffett, Grant George. « Seismic Oceanography : A New Tool to Characterize Physical Oceanographic Structures and Processes ». Doctoral thesis, Universitat de Barcelona, 2011. http://hdl.handle.net/10803/1939.

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Large scale global oceanic circulation redistributes heat and freshwater and therefore affects global climate. One of its main forcing mechanisms is, in addition to surface heat and freshwater fluxes, the diapycnal (across lines of equal density) mixing in the ocean interior. The energy needed to drive the mixing processes is mainly provided by tides and wind [Wunsch, 2002]. It is transformed into internal wave energy, cascading through a range of smaller scales leading finally into turbulence and molecular dissipation. Water masses in the ocean are stratified and often separated by relatively thin layers with strong gradients in temperature and/or salinity across which heat and mass transfer occur in order to maintain global circulation and stratification. However, these processes are difficult to observe in practice. Below a few meters, the ocean is opaque to light, and thus to direct optical observations of deep processes [Thorpe, 2005]. Therefore, the development of scientific methodologies and instruments to directly or indirectly measure processes in the ocean interior are of high importance to understanding those processes and their implications.

The motivation behind this research is two-tier: 1) broadly, and academically, it is the scientific curiosity of understanding the ocean in order to better comprehend its role in the context of Earth systems; 2) expressly, the motivation is to develop the methodological toolset necessary to observe the ocean on a spatial and temporal scale not possible with traditional oceanographic techniques, thus allowing the foundation of more accurate models of ocean circulation and thereby, ocean-climate interactions.

The toolset is emerging as a robust technique of physical oceanography known as 'seismic oceanography'. By definition, seismic oceanography is the application of multichannel seismic (MCS) reflection profiling to physical oceanography. This definition, however, could be subject to future revision and refinement because the development of seismic oceanography observational tools will inevitably lead to newer perspectives.

The Mediterranean Outflow Water (henceforth, MOW) is a natural laboratory for seismic oceanography. The MOW was chosen to test seismic reflection in oceanography for three main reasons: 1) The strong oceanographic signature of the MOW. Due to the penetration of the MOW into the North Atlantic through the Strait of Gibraltar, strong characteristic contrasts in temperature (1.5 °C) and salinity (0.3 psu) and thus, density (0.4 kg/m3) are observed between the MOW and the surrounding Atlantic waters [Baringer and Price, 1997]. These contrasts in density (along with sound speed) are the contributing factors to reflection coefficient, making the identification of structures and processes possible. 2) The large variety of oceanographic and topographic features, such as a continental slope, undulating seafloor (including seamounts and basins) and mesoscale Mediterranean salt lenses (meddies). These structures and processes are believed to play an important role in maintaining the temperature and salinity distribution in the north Atlantic [Bower et. al., 1997]. 3) Finally, extensive archived data sets of bothoceanographic and seismic data place interpretive constraints on the data collected.

Part I of this thesis consists of two peer-reviewed papers published by the author and coauthors (Chapters 1 and 2), one manuscript submitted for publication (Chapter 3) and two published peer-reviewed research letters that the author played a lesser role developing (Chapter 4). Part II of the thesis addresses the seismological (Chapter 5) and oceanographic backgrounds (Chapter 6) in the context of some of the structures and processes that are amenable to seismic ensonification. Part III consists of general discussions and conclusions (Chapter 7) and potential future research and development (Chapter 8).
La motivació que hi ha al darrera d'aquest treball es pot separar en dos nivells: 1) En termes generals, i acadèmicament, és la curiositat purament científica d'estudiar l'oceà per tal de comprendre millor el seu paper en el context de les Ciències de la Terra; 2) Concretament, la motivació és desenvolupar les eines necessàries per a observar l'oceà a una escala espaial i temporal que no és possible amb les tècniques tradicionals oceanogràfiques, permetent així generar models més precisos de circulació oceànica i, per tant, de les interaccions oceà-clima.

L'objectiu a curt i mitjà termini d'aquesta tesi és el desenvolupament de noves eines d'oceanografia física que proporcionin noves perspectives sobre la dinàmica oceànica. Aquest conjunt d'eines està emergint com una metodologia sòlida dins de l'oceanografia física coneguda com 'oceanografia sísmica'. Per definició, l'oceanografia sísmica és l'aplicació de la sísmica de reflexió multicanal (MCS) a l'oceanografia física. Aquesta definició, però, podria estar subjecte a una futura revisió i perfeccionament, ja que el desenvolupament d'eines d'oceanografia sísmica inevitablement donarà lloc a noves perspectives.

La part principal d'aquesta tesi la constitueixen quatre articles, publicats per l'autor i co-autors al llarg del seu període d'investigació (capítols 1, 2 i 4); així com un article sotmès (Capítol 3). En la segona part, com a suport per als lectors no familiaritzats, s'aborden els antecedents sismològics (Capítol 5) i oceanogràfics (Capítol 6) en el context d'algunes de les estructures i processos que són susceptibles de ser identificats mitjançant la sísmica. Les conclusions generals es presenten en el Capítol 7 i en el Capítol 8 es donen algunes recomanacions per a futures investigacions i desenvolupaments (Part III). La tesi es complementa amb quatre apèndixs, on a banda d'un ampli resum en català (Apèndix I), hi ha els diagrames de flux utilitzats per l'autor en el processament de les dades sísmiques (Apèndix II), un conjunt de set desplegables de les seccions sísmiques en gran format (Apèndix III) i finalment un glossari de termes útils per ajudar als lectors no iniciats en qualsevol de les branques de la sismologia o l'oceanografia (Apèndix IV).
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McGregor, J. A. « HF radar oceanography ». Thesis, University of Canterbury. Physics, 1985. http://hdl.handle.net/10092/7578.

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The development of a 26MHz pulsed Doppler radar system for remote sensing of ocean surface conditions is described. This radar obtains Doppler spectra of echoes from ocean waves within the range 10-40 km from the shore. From these Doppler spectra it is possible to estimate oceanographic parameters such as sea state, wind speed, wind direction, radial components of current velocities and properties of swell. The work concentrates on the radar design principles and includes a detailed study of the effect of ground wave propagation conditions on the performance of radar systems of this type. Results obtained with the radar are discussed from the points of view of both the performance of the system and the oceanographic information contained in the Doppler spectra.
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Veilleux, Lorraine. « Physical oceanography of northern estuaries ». Thesis, McGill University, 1990. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=59830.

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Within the context of oceanographic research on northern estuaries in James Bay and Hudson Bay, and in relation with hydroelectric developments and their impact on the physical environment, two studies were undertaken. Both concern the importance of bottom topography, tidal motion and fresh water input on the estuarine processes in these areas.
The first one, in Rupert Bay (south-eastern corner of James Bay), describes tidal and local wind effects on circulation and mixing patterns for summer conditions. An estimate of terms in the lateral momentum equation shows that the centrifugal acceleration, the Coriolis force and the baroclinic pressure gradient are the most important forces at a mid-bay cross section transect.
The second study is concerned with the freshwater plume of Great Whale River (south-eastern Hudson Bay). CTD measurements were used to examine the lift-off point of the plume for under-ice and increasing discharge conditions. Comparison with existing models shows them to be inappropriate for under-ice conditions. Finally, the presence of supercooled water masses in the region of the study is reported.
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Leathers, Robert A. « Inverse solution methods for optical oceanography / ». Thesis, Connect to this title online ; UW restricted, 1998. http://hdl.handle.net/1773/7066.

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Middleditch, Andrew. « Spectral analysis in high frequency radar oceanography ». Thesis, University of Sheffield, 2006. http://etheses.whiterose.ac.uk/3590/.

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High Frequency radar systems provide a unique opportunity to measure evolving littoral oceanic dynamics at high temporal and spatial resolution. Backscattered electromagnetic signals from ocean waves are modulated by Bragg resonant scattering. A perturbation analysis yields an expression for the spectral content of radar signals which can be exploited to provide estimates of oceanographic parameters: the radial component of surface current can be extracted from the frequency locations of the first order peaks; the ocean wave directional spectrum is related to the second order continuum via a non-linear integral equation. The periodogram, based on a Fourier decomposition of radax data, is the standard method used to derive frequency spectra. Limitations in this approach, caused by inhomogeneities in the underlying ocean field, are investigated. An instantaneous frequency technique is proposed in this thesis which mitigates the spectral distortion by demodulating the backscattered radax signals -a filtering procedure is developed which measures the temporally varying Bragg components. Alternative spectral techniques are analysed in order to validate the filter: an autoregressive paxa, metric modelling approach and an eigendecomposition method. The filter is evaluated, using radar and in situ data, which establishes its potential for ocean remote sensing. Significant improvements in the quantity and accuracy of wave measurements are demonstrated. Properties and constraints of the filter are derived using simulated data. Finally, the generic structure of the extracted instantaneous frequency signals is investigated and related to oceanographic processes.
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Berry, P. J. « Applications of satellite altimetry to dynamical oceanography ». Thesis, Imperial College London, 1988. http://hdl.handle.net/10044/1/46961.

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Sheen, Katy Louise. « Seismic oceanography : imaging the antarctic circumpolar current ». Thesis, University of Cambridge, 2010. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.609132.

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Coleman, Dwight F. « Archaeological oceanography of inundated coastal prehistoric sites / ». View online ; access limited to URI, 2003. http://0-wwwlib.umi.com.helin.uri.edu/dissertations/dlnow/3115624.

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Zarroug, Moundheur. « Asymptotic methods applied to some oceanography-related problems ». Doctoral thesis, Stockholm : Department of Meteorology, Stockholm University, 2010. http://urn.kb.se/resolve?urn=urn:nbn:se:su:diva-37763.

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Diss. (sammanfattning) Stockholm : Stockholms universitet, 2010.
At the time of the doctoral defense, the following papers were unpublished and had a status as follows: Paper 3: Manuscript. Paper 4: Manuscript.
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Nerger, Lars. « Parallel filter algorithms for data assimilation in oceanography ». [S.l.] : [s.n.], 2004. http://deposit.ddb.de/cgi-bin/dokserv?idn=975524844.

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Livres sur le sujet "Oceanography"

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Duxbury, Alison. Fundamentals of oceanography. Dubuque, IA : Wm. C. Brown Publishers, 1993.

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Duxbury, Alison. Fundamentals of oceanography. 2e éd. Dubuque, IA : Wm. C. Brown Publishers, 1996.

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Duxbury, Alison. Fundamentals of oceanography. Dubuque, IA : Wm. C. Brown Publishers, 1992.

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Duxbury, Alison. Fundamentals of oceanography. 4e éd. New York : McGraw-Hill, 2002.

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Duxbury, Alison. Fundamentals of oceanography. 3e éd. Boston, Mass : WCB/McGraw-Hill, 1999.

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Tomecek, Steve. Oceanography. New York : Chelsea House, 2012.

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Forum, Megascience the OECD, dir. Oceanography. Paris, France : Organisation for Economic Co-operation and Development, 1994.

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Gross, M. Grant. Oceanography. 6e éd. Columbus : Merrill Pub. Co., 1990.

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Gross, M. Grant. Oceanography. 5e éd. Columbus : C.E. Merrill, 1985.

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America, Boy Scouts of, dir. Oceanography. 2e éd. Irving, Tex : Boy Scouts of America, 2003.

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Chapitres de livres sur le sujet "Oceanography"

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Short, R. Timothy, Robert H. Byrne, David Hollander, Johan Schijf, Strawn K. Toler et Edward S. Vanvleet. « Oceanography ». Dans Mass Spectrometry, 235–42. Hoboken, NJ, USA : John Wiley & Sons, Inc., 2008. http://dx.doi.org/10.1002/9780470395813.ch9.

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Johannessen, Johnny A., Stein Sandven et Dominique Durand. « Oceanography ». Dans The Century of Space Science, 1585–622. Dordrecht : Springer Netherlands, 2001. http://dx.doi.org/10.1007/978-94-010-0320-9_65.

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Ainslie, Michael A. « Sonar oceanography ». Dans Principles of Sonar Performance Modelling, 125–90. Berlin, Heidelberg : Springer Berlin Heidelberg, 2009. http://dx.doi.org/10.1007/978-3-540-87662-5_4.

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Brennan, Michael L., et Robert D. Ballard. « Archaeological Oceanography ». Dans Coastal and Marine Environments, 161–67. Second edition. | Boca Raton : CRC Press, [2020] | Revised edition of : Encyclopedia of natural resources. [2014]. : CRC Press, 2020. http://dx.doi.org/10.1201/9780429441004-17.

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Fisher, F. H., et P. F. Worcester. « Essential Oceanography ». Dans Encyclopedia of Acoustics, 381–89. Hoboken, NJ, USA : John Wiley & Sons, Inc., 2007. http://dx.doi.org/10.1002/9780470172513.ch35.

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Olsen, Alexander. « Arctic Oceanography ». Dans Ship Operations in Extreme Low Temperature Environments, 51–83. Cham : Springer Nature Switzerland, 2024. http://dx.doi.org/10.1007/978-3-031-52513-1_3.

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Dicati, Renato. « Oceanography from Space ». Dans Stamping the Earth from Space, 383–411. Cham : Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-20756-8_10.

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Zuffada, Cinzia, Stephen Lowe, Yi Chao et Robert Treuhaft. « Oceanography with GPS ». Dans International Association of Geodesy Symposia, 193–203. Berlin, Heidelberg : Springer Berlin Heidelberg, 2003. http://dx.doi.org/10.1007/978-3-642-18861-9_23.

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Dobson, Fred. « Introductory Physical Oceanography ». Dans Introductory Physics of the Atmosphere and Ocean, 53–119. Dordrecht : Springer Netherlands, 1986. http://dx.doi.org/10.1007/978-94-009-5484-7_2.

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Campbell, Michael O’Neal. « Biogeochemistry and Oceanography ». Dans Biogeochemistry and the Environment, 227–78. Cham : Springer Nature Switzerland, 2023. http://dx.doi.org/10.1007/978-3-031-47017-2_5.

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Actes de conférences sur le sujet "Oceanography"

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Aiken, J., et I. Bellan. « Synoptic Optical Oceanography With The Undulating Oceanographic Recorder ». Dans 1986 Technical Symposium Southeast, sous la direction de Marvin A. Blizard. SPIE, 1986. http://dx.doi.org/10.1117/12.964237.

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Harding, J., E. Johnson, J. Rigney et W. Schulz. « Real-time operational oceanography at the Naval Oceanographic Office ». Dans Oceans 2003. Celebrating the Past ... Teaming Toward the Future (IEEE Cat. No.03CH37492). IEEE, 2003. http://dx.doi.org/10.1109/oceans.2003.178190.

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Cracknell, Arthur P. « SPACE OCEANOGRAPHY ». Dans Intensive Course in Space Oceanography. WORLD SCIENTIFIC, 1992. http://dx.doi.org/10.1142/9789814539463.

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DIDENKULOV, IN, SI MUYAKSHIN et DA SELIVANOVSKY. « BUBBLE COUNTING IN THE SUBSURFACE OCEAN LAYER ». Dans Acoustical Oceanography 2001. Institute of Acoustics, 2023. http://dx.doi.org/10.25144/18395.

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GULIN, OE, et IO YAROSHCHUK. « MODELING OF DYNAMIC NOISE SCATTERING IN A LAYERED FLUCTUATING OCEAN ». Dans Acoustical Oceanography 2001. Institute of Acoustics, 2023. http://dx.doi.org/10.25144/18412.

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TUFFIN, MDJ, AI BEST et JK DIX. « TEMPORAL VARIABILITY OF P-WAVE ATTENUATION DUE TO GAS BUBBLES IN A MARINE SEDIMENT ». Dans Acoustical Oceanography 2001. Institute of Acoustics, 2023. http://dx.doi.org/10.25144/18408.

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AKULICHEV, VA, VV BEZOTVETNYKH, SI KAMENEV, EV KUZ'MIN, YUN MORGUNOV et AV NUZHDENKO. « THE JAPAN-EAST SEA ACOUSTIC EXPERIMENT (JESAEX) PROJECT : ACOUSTIC TOMOGRAPHY FOR COASTAL AREAS ». Dans Acoustical Oceanography 2001. Institute of Acoustics, 2023. http://dx.doi.org/10.25144/18426.

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RICHARDSON, MD, KB BRIGGS, KL WILLIAMS, AP LYONS et DR JACKSON. « EFFECTS OF CHANGING ROUGHNESS ON ACOUSTIC SCATTERING : (2) ANTHROPOGENIC CHANGES ». Dans Acoustical Oceanography 2001. Institute of Acoustics, 2023. http://dx.doi.org/10.25144/18406.

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LEIGHTON, TG, SD MEERS, ND SIMPSON, JWL CLARKE, GT YIM, PR BIRKIN, YE WATSON et al. « THE HURST SPIT EXPERIMENT : THE CHARACTERISATION OF BUBBLES INT EH SURF ZONE USING MULTIPLE ACOUSTIC TECHNIQUES ». Dans Acoustical Oceanography 2001. Institute of Acoustics, 2023. http://dx.doi.org/10.25144/18424.

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MATTHEW, DR, IP ROUSE et IR MCDERMOTT. « A COMPACT CHIRP PROFILER SYSTEM FOR DEEP-TOWED VEHICLES ». Dans Acoustical Oceanography 2001. Institute of Acoustics, 2023. http://dx.doi.org/10.25144/18384.

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Rapports d'organisations sur le sujet "Oceanography"

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COLORADO UNIV AT BOULDER. Satellite Oceanography. Fort Belvoir, VA : Defense Technical Information Center, janvier 1994. http://dx.doi.org/10.21236/ada277286.

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Eert, J. Physical oceanography. Natural Resources Canada/ESS/Scientific and Technical Publishing Services, 2012. http://dx.doi.org/10.4095/290247.

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Jones, Christopher, Steven Wiggins et George Haller. Dynamical Systems and Oceanography. Fort Belvoir, VA : Defense Technical Information Center, avril 1994. http://dx.doi.org/10.21236/ada279807.

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Jones, Christopher, Steven Wiggins et George Haller. Dynamical Systems and Oceanography. Fort Belvoir, VA : Defense Technical Information Center, avril 1994. http://dx.doi.org/10.21236/ada282635.

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Wilde, P. Oceanography in the Ordovician. Natural Resources Canada/ESS/Scientific and Technical Publishing Services, 1991. http://dx.doi.org/10.4095/132196.

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Sullivan, Peter P., Leonel Romero, James C. McWilliams et W. K. Melville. Scripps Institution of Oceanography. Fort Belvoir, VA : Defense Technical Information Center, novembre 2012. http://dx.doi.org/10.21236/ada573547.

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NATIONAL RESEARCH COUNCIL WASHINGTON DC. Statistics and Physical Oceanography. Fort Belvoir, VA : Defense Technical Information Center, janvier 1993. http://dx.doi.org/10.21236/ada268565.

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Bellingham, James. Collaborative Oceanography and Virtual Experiments. Fort Belvoir, VA : Defense Technical Information Center, janvier 2010. http://dx.doi.org/10.21236/ada542573.

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Gordon, Arnold L. Oceanography of the Indonesian Seas. Fort Belvoir, VA : Defense Technical Information Center, septembre 1997. http://dx.doi.org/10.21236/ada627980.

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Sanford, Thomas B. Ocean Electric Field for Oceanography. Fort Belvoir, VA : Defense Technical Information Center, septembre 2012. http://dx.doi.org/10.21236/ada590673.

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