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Encyclopedia of Planetary Landforms

Springer New York,
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This book describes and interprets all known landforms that have been discovered on the planetary bodies in our Solar System. Illustrated to show the general structure of each major landform type, the volume includes maps published here for the first time.

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Titel: Encyclopedia of Planetary Landforms
Autoren/Herausgeber: Henrik Hargitai, Ákos Kereszturi (Hrsg.)
Ausgabe: 1st ed. 2015

ISBN/EAN: 9781461431336

Seitenzahl: 2.460
Format: 25,4 x 17,8 cm
Produktform: Hardcover/Gebunden
Gewicht: 6,332 g
Sprache: Englisch

Henrik Hargitai (Ph.D., 2007) is a planetary geomorphologist, media historian, and senior lecturer at the Eötvös Loránd University, Budapest, Hungary. He has Ph.D. in Earth Sciences and Philosophy (Aesthetics). He teaches planetary geomorphology (since 2002), planetary cartography, typography, and media history. His study fields include the distribution and morphology of the mountains of Io; lake ice and snow landforms; impact morphology; and the history and localization of the planetary nomenclature. He participated in two Mars Desert Research Station simulations. He is the chair of the ICA Commission on Planetary Cartography and editor of the Central European edition of the series of “multilingual maps of terrestrial planets and their moons” and its 2014 special edition for children. He is the producer of numerous public outreach programs in planetary science for radio.  Ákos Kereszturi (Ph.D.) is a geologist, working on planetary science and astrobiology as researcher at the Research Center for Astronomy and Earth Sciences, where he leads the Astrophysical and Geochemical Laboratory. He is member of the NASA Astrobiology Institute TDE Focus Group, teaches planetary science at Eötvös Loránd University, serves on the editorial board of two international and one national journals, is vice president of the Hungarian Astronomical Association, and contributes in the popularization activity of the Polaris Observatory in Budapest. His main research area is the geology of Mars, Europa satellite, craters of Mercury, water in the Solar System and beyond, Mars analog field work, survival of extremophile organisms, analysis of asteroid surfaces, and geological history based on mineral characteristics of meteorites.                  

Encyclopedia of Planetary Landforms contains a description and interpretation of all known planetary landforms that have been discovered on the planetary bodies in our Solar System. The content is separated into entries for each planetary landform. All entries are based on literature reviews, using NASA/ESA/JAXA imagery and original general and thematic maps of the particular landform. Such a wide variety of landforms show how exotic these features could be from a terrestrial point of view, but at the same time emphasizes that the same processes will result in similar morphology, independent of its host planet. Illustrations show the generalized structure of each major landform type and is complete with a series of special maps published here for the first time. This organized classification of planetary landform types is not available in other books, and only partially covered in scattered papers. The most important places (landforms, named and unnamed) will be found in the main section as well as description and interpretation. This has never been done before. If necessary, these landforms will have an accompanying large-scale map. This will make it serve as a basic reference book – not discussions of large metaconcepts but the stories of well-defined landform types and individual landforms, which is usually only found only in professional papers, one paper, one landform. So this knowledge is very much scattered around in the literature. Each landform will have a data section with height (peaks and low points), diameter, age, data. USGS maps only have diameter data. How will it be used by planetary scientists? It will give a starting point to any landform he or she want to investigate. Previous works are thematic collections of knowledge (i.e., cratering in the Solar System, volcanic processes, etc.), while this work will approach the subject from landform types and will go deeper by analyzing individual landforms and including maps and imagery. It will be as comprehensive as possible, not only describing the most popular targets but also the (now) lesser known ones, which may be attractive for future analysis. As an example, suppose someone wants to compare valleys of the Moon and Mercury and Titan. He or she can use this work as a starting place to consult and will find imagery, examples, and the basic literature all collected in one section, including individual features, as well as where most valleys are found (global distribution). The maps will be printable and easy to handle, in contrast to large sheet paper maps. As for the content of the maps, they are not global maps but also not very detailed thematic geologic or topographic maps. They fall in between these extremes, which means that the researcher can understand the context but at the same time see all named features. These could serve as perfect reference maps for all planetary bodies. (Such maps are not available online.) The maps will be uniform in many of their cartographic characteristics, which gives the user a good opportunity to compare them, essential in any comparative planetology study (planets, moons, asteroids, etc.). Planetary bodies, where global topographic data is available, will be depicted in both topographic and photomaps and capable of being printed. The maps will contain official IAU names AND also informal geologic (and physiographic province) names that have never been put on maps (except for sketch maps), precisely because they are not official. However, since geologist use these names every day (and often complain about IAU's strict rules), we believe that this make these maps much more useful for workers in the field. Maps are for helping to find places, and these names are very important in this respect. Geologic and physiographic names have never been collected in any form (list or map), not even by USGS Gazetteer, so this will be something brand new. Climatic data (climate diagrams) will be added to maps of Mars. The work will include a full, updated, alphabetical list of names, with links. By 2011, our Russian colleagues may be ready with their corrections of the USGS Gazetteer. If so, the work will include these as well. An Editorial Board will review different sections of the work. Possible Editorial Board Members by region are: WESTERN EUROPE Ernst Hauber, Institut für Planetenforschung, DLR, Germany (Mars) Marita Wählisch, DLR - German Aerospace Center, Institute of Planetary Research, Germany (Planetary Geodesy, Outer Solar System) Dennis Reiss, University of Münster, Germany (Mars) Arnold Gucsik (MPI für Chemie, Mainz, Germany) (Impact processes) (He is already a Springer book editor) EASTERN EUROPE Leonid Ksanfomality, Space Research Institute, Moscow, Russia A. A. Lukashov, Lomonosov University, Moscow (geomorphology) K. B. Shingareva, MIIGAiK, Moscow (planetary cartography) U.S. P. Schenk, LPI, USA (planetary morphology and geology) James R. Zimbelman, National Air and Space Museum, Smithsonian Institution (Earth, Mars, the Moon, and Venus) Robert Craddock, Smithsonian Institution ASIA Hirdy Miyamoto, University of Tokyo, Japan Huang Q,. Shanghai Astronomical Observatory, Chinese Academy of Science Dong, S.Y., Faculty of Earth Sciences, China University of Geosciences Wuhan Oshigami, S., Graduate School of Environmental Studies, Nagoya University Zhiyong Xiao, China University of Geosciences, Wuhan

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