New and Bestselling Titles in Planetary Science

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New and Bestselling Titles in Planetary Science New and bestselling titles in Planetary Science Mercury CAMBRIDGE PLANETARY SCIENCE CAMBRIDGE PLANETARY SCIENCE The View after MESSENGER Mercury Meteorite The View after MESSENGER Sean C. Solomon, Larry R. Nittler Mineralogy Meteorite Mineralogy and Brian J. Anderson Chi Ma and Alan Rubin ISBN: 9781107154452 ISBN: 9781108484527 Offers an authoritative synthesis of A comprehensive summary of the knowledge of the planet Mercury mineralogy of all meteorite groups Edited by Sean C. Solomon, after the MESSENGER mission, for Alan Rubin and Chi Ma and the origin of their minerals. Larry R. Nittler and Brian J. Anderson researchers and students in planetary £42.99 / $59.99 science. £95.00 / $125.00 Meteoroids EXPLORING Exploring Planetary Climate CAMBRIDGE PLANETARY SCIENCE Sources of Meteors on Earth and PLANETARY A History of Scientific Discovery on Meteoroids CLIMATE Sources of Meteors on Earth and Beyond Beyond A History of Scientific Discovery Earth, Mars, Venus and Titan on Earth, Mars, Venus and Titan Galina O. Ryabova, David J. Asher RALPH LORENZ Ralph D. Lorenz and Margaret D. Campbell-Brown ISBN: 9781108471541 ISBN: 9781108426718 An accessible and engaging account The definitive guide to modern of the history of climate science and Edited by Galina O. Ryabova, David J. Asher meteor science, destined to be the exploration on Earth and other planetary and Margaret D. Campbell-Brown standard resource for advanced bodies. £42.99 / $54.99 £110.00 / $140.00 students and researchers. CAMBRIDGE PLANETARY SCIENCE PHILIP J. ARMITAGE Astrophysics of Planet Saturn Saturn in the 21st Century Astrophysics of st Formations in the 21 Century Kevin H. Baines, F. Michael Flasar, Planet Formation Second Edition Philip J. Armitage and Norbert Krupp ISBN: 9781108420501 ISBN: 9781107106772 A self-contained graduate-level A detailed overview of Saturn's introduction to the physical formation, evolution and structure processes that shape planetary Edited by Kevin H. Baines, F. Michael Flasar, written by eminent planetary scientists Norbert Krupp and Tom Stallard systems, covering all stages of planet involved in the Cassini Orbiter mission. formation. £120.00 / $155.00 £59.99 / $79.99 Remote Compositional Analysis CAMBRIDGE PLANETARY SCIENCE Spectroscopy and Photochemistry CAMBRIDGE PLANETARY SCIENCE Techniques for Understanding Spectroscopy and Remote Compositional Photochemistry of Planetary of Planetary Atmospheres and Analysis Spectroscopy, Mineralogy, and Atmospheres and Ionospheres Techniques for Understanding Spectroscopy, Mars, Venus, Titan, Triton and Pluto Mineralogy, and Geochemistry of Planetary Surfaces Ionospheres Geochemistry of Planetary Surfaces Mars, Venus, Titan, Triton and Pluto Janice L. Bishop, James F. Bell III, and Vladimir A. Krasnopolsky Jeffrey E. Moersch ISBN: 9781107145269 ISBN: 9781107186200 Reviews the fundamentals for studying Comprehensive overview of the Vladimir Krasnopolsky Edited by Janice L. Bishop, chemical compositions of planetary James F. Bell III and Jeffrey E. Moersch spectroscopic, mineralogical, and atmospheres and ionospheres, for geochemical techniques used in £84.99 / $110.00 £64.99 / $84.99 graduate students and researchers. planetary remote sensing. For more information about these and other titles visit: cambridge.org/earthsciences Other titles available Cosmochemistry Atlas of Meteorites Planetary Sciences, 2nd Edition Harry Y. McSween Jr and Gary R. Huss Monica M. Grady, Giovanni Pratesi, and Imke de Pater and Jack J. Lissauer 9780521878623 (£66.99 / $93.95) Vanni Moggi Cecchi 9781107091610 (£63.99 / $93.99) 9780521840354 (£111.00 / $144.99) Asteroids Principles of Planetary Climate Astronomical and Geological Bodies The Atlas of Mars Raymond T. Pierrehumbert Thomas H. Burbine Mapping Its Geography and Geology 9780521865562 (£64.99 / $84.99) 9781107096844 (£59.99 / $83.99) Kenneth S. Coles, Kenneth L. Tanaka and Philip R. Christensen Space Physics Chondrules 9781107036291 (£39.99 / $49.99) An Introduction Records of Protoplanetary Disk C. T. Russell, J. G. Luhmann, and Processes Titan R. J. Strangeway Sara S. Russell, Harold C. Connolly Jr., Interior, Surface, Atmosphere, and 9781107098824 (£55.99 / $77.99) and Alexander N. Krot Space Environment ISBN: 9781108418010 (£120.00 / $155.00) Ingo Müller-Wodarg, Caitlin A. Griffith, Atmospheric Evolution on Inhabited Emmanuel Lellouch, and and Lifeless Worlds Planetary Surface Processes Thomas E. Cravens David C. Catling and James F. Kasting H. Jay Melosh 9780521199926 (£105.00 / $146.00) 9780521844123 (£60.99 / $84.99) 9780521514187 (£64.99 / $90.99) Introduction to Planetary Introduction to Planetary Planetesimals Geomorphology Photometry Early Differentiation and Consequences Ronald Greeley Michael K. Shepard for Planets 9780521867115 (£63.99 / $93.99) 9781107131743 (£46.99 / $67.99) Linda T. Elkins-Tanton and Benjamin P. Weiss The Atmosphere and Climate of Geomagnetism, Aeronomy and 9781107118485 (£116.00 / $147.00) Mars Space Weather Robert M. Haberle, R. Todd Clancy, A Journey from the Earth's Core to the Planetary Ring Systems François Forget, Michael D. Smith and Properties, Structure, and Evolution Sun Richard W. Zurek Matthew S. Tiscareno and Mioara Mandea, Monika Korte, Andrew Carl D. Murray 9781107016187 (£146.00 / $189.99) Yau and Eduard Petrovsky ISBN: 9781107113824 (£145.00 / $190.00) 9781107098824 (£110.00 / $140.00) The Exoplanet Handbook, 2nd Edition Solving Fermi's Paradox Michael Perryman Duncan H. Forgan ISBN: 9781108419772 (£62.99 / $84.99) 9781107163652 (£120.00 / $155.00) in this area... PLANETARY GEOSCIENCE Harry Y. McSween, Jr. • Jeffrey E. Moersch Devon M. Burr • William M. Dunne • Joshua P. Emery Linda C. Kah • Molly C. McCanta 9781107145382 9781108430838 9781108430845 9781108411981 £49.99 / $64.99 £45.99 / $60.99 £45.99 / $60.99 £49.99 / $64.99 *Prices are in GBP / USD and are correct at time of going to press but are subject to alteration without notice. Contact Dr Emma Kiddle to discuss new book proposals in this area ([email protected]) .
Recommended publications
  • AEOLIAN GEOLOGY of the MARS PATHFINDER SITE. Ronald
    AEOLIAN GEOLOGY OF THE MARS PATHFINDER SITE. Ronald Greeley, Michael Kraft, Gregory Wilson (Arizona State University); Robert Sullivan (Cornell University); Ruslan Kuzmin (Vernadsky Institute, Russian Academy of Sciences); Michael Malin (Malin Space Science Systems); Nathan Bridges, Kenneth Herkenhoff, Matthew Golombek (Jet Propulsion Laboratory); Peter Smith (University of Arizona). Introduction wind tails, 2) drift deposits, 3) ripplelike deposits, duneforms of several types, and 4) material on the The Mars Pathfinder landing site contains abun- tops of some rocks and spacecraft components, dant features attributed to aeolian, or wind, proc- presumably settled from atmospheric suspension. esses. These include wind tails, drift deposits, duneforms of various types, ripplelike features, Wind-tails are found in association with many and ventifacts (the first seen on Mars). Many of rocks. Typically they taper to a point away from these features are consistent with formation in- the rock in the inferred downwind direction (at volving sand-size particles. Although some fea- the time of their formation). They range in length tures, such as the barchan dunes, could develop from a cm to nearly a meter and are bright red. from saltating sand-size aggregates of finer Drift deposits are also bright red, but occur as grains, the discovery of ventifact flutes cut in patches, only some of which are associated with rocks strongly suggests that at least some of the rocks. Wind- tails and drift deposits have a grains are crystalline, rather than aggregates. Ex- sculpted appearance and are similar to those seen cluding the ventifacts, the orientations of the at the Viking lander sites (3). wind-related features correlate well with the ori- entations of bright wind streaks seen on Viking Dunelike structures occur as transverse, bar- Orbiter images in the general area.
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  • RONALD GREELEY Planetary Pioneer
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  • The Ronald Greeley Center for Planetary Studies: the Nasa Rpif at Arizona State University
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  • PSS June 22 Teleconference Introductions and Agenda Dr. Ronald Greeley, Chair of the Planetary Science Subcommittee (PSS), Open
    PSS June 22 Teleconference Introductions and Agenda Dr. Ronald Greeley, Chair of the Planetary Science Subcommittee (PSS), opened the meeting with a roll call of the PSS membership. He then reviewed the agenda and changed the sequence in order to ensure that the most important topics were covered. Opening Remarks Dr. James Green, Director of the Planetary Science Division (PSD), discussed recent activities of the U.S. House Appropriations Committee regarding the Department of Energy (DOE), which may affect NASA. DOE makes and manages the nation’s Plutonium-238 (Pu-238) supplies. The House Appropriations Committee recently passed a bill for DOE for Fiscal Year 2012 (FY12), in which the appropriation for DOE was $5.9 billion below the President’s FY12 request. Dr. Green told PSS that they should take note of this. It indicates what is likely in store for other Federal agencies. In the bill, which has not yet been sent to the full House or the Senate, there is a discussion of the Pu-238 restart. The Appropriations Committee provides no funds for this project, and “encourages the Administration to devise a plan for this project that more closely aligns the costs paid by Federal agencies with the benefits they receive.” In other words, if this bill goes through the Senate unaltered, NASA cannot expect DOE to receive funds for the restart. It is important to note that the NASA authorization allows the Agency to provide funds to DOE as part of NASA’s share of the restart of Pu-238. In the recently passed FY11 budget, NASA is not allowed to initiate any new starts.
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  • Introduction to the Planetary Dunes Special Issue, and the Aeolian Career of Ronald Greeley
    Icarus 230 (2014) 1–4 Contents lists available at ScienceDirect Icarus journal homepage: www.elsevier.com/locate/icarus Editorial Introduction to the Planetary Dunes special issue, and the aeolian career of Ronald Greeley The Third International Planetary Dunes Workshop was held local topography on surface winds may explain some of the ob- June 12–15, 2012, at the Lowell Observatory in Flagstaff, Arizona, served inconsistencies. Fenton et al. (2014b) applied the inverse dedicated to Ronald Greeley (Third International Planetary Dunes, maximum gross bedform-normal transport technique to HiRISE 2012). More than sixty researchers and students participated in images of sand dunes in Ganges Chasma on Mars, which show that three days of presentations and discussions, plus a full day field the main sand-moving winds in this canyon system are driven by trip on June 13 to see aeolian sandstones near Page, Arizona. Most large-scale circulation patterns. Putzig et al. (2014) explored the participants also took part in an optional field trip on June 16 to see thermal behavior of the sand dunes that comprise the north polar the active dune field near Grand Falls, a short distance outside of erg on Mars, demonstrating that sand-sized agglomerated dust is Flagstaff. A summary of the main conclusions from this meeting no longer required to explain low observed temperatures, and a is available in Fenton et al. (2013). This special issue of Icarus pre- shallow ice table with in dunes comprised of ordinary sand tends sents seventeen papers that resulted from the discussions that to dominate the observed temperature changes.
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  • Aeolian Features on Venus Preliminary Magellan Results
    JOURNAL OF GEOPHYSICAL RESEARCH, VOL. 97, NO. E8, PAGES 13,319-13,345, AUGUST 25, 1992 Aeolian Featureson Venus' Preliminary Magellan Results RONALDGREELEY, • RAYMOND E. ARVIDSON,2 CHARLES ELACHI, 3 MAUREEN A. GERINGER,• JEFFREY J. PLAUT,3 R. STEPHENSAUNDERS, • GERALD SCHUBERT, 4ELLEN R. STOFAN,• Emc J.P. THOUVENOT,3's STEPHEND. WALL)• ANDCATHERINE M. WEITZ• Magellan synthetic aperture radar data reveal numerous surface features that are attributed to aeolian, or wind processes. Wind streaksare the most common aeolian feature. They consistof radar backscatterpatterns that are high, low, or mixed in relation to the surfaceon which they occur. A data base of more than 3400 wind streaksshows that low backscatterlinear forms (long, narrow streaks)are the most common and that most streaksoccur between 17øS to 30øS and 5øN to 53øN on smoothplains. Moreover, most streaksare associatedwith depositsfrom certain impact cratersand some tectonicallydeformed terrains. We infer that both of these geological settingsprovide fine particulatematerial that can be entrainedby the low-velocity winds on Venus. Turbulenceand wind patternsgenerated by the topographicfeatures with which many streaksare associatedcan account for differencesin particle distributionsand in the patternsof the wind streaks. Thus, some high backscatterstreaks are consideredto be zonesthat are swept free of sedimentaryparticles to expose rough bedrock;other high backscatterstreaks may be lag depositsof densematerials from which low-density grains have been removed (densematerials such as ilmenite or pyrite have dielectric propertiesthat would producehigh backscatterpatterns). Wind streaksgenerally occur on slopes < 2 ø and tend to be oriented toward the equator, consistentwith the Hadley model of atmospheric circulation. In additionto wind streaks,other aeolianfeatures on Venusincludg[ yardangs(?) and dune fields.
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  • Pdf/83/8/2397/3443198/I0016-7606-83-8-2397.Pdf by Guest on 02 October 2021 2398 GREELEY and HYDE
    RONALD GREELEY Space Science Division, Ames Research Center, National Aeronautics and Space Administration, Mqffel Field, California 94035 JACK H. HYDE U.S. Geological Survey and Tacoma Community College, Tacoma, Washington 98465 Lava Tubes of the Cave Basalt, Mount St Helens, Washington ABSTRACT tumuli of the Cave Basalt collapsed, probably as a result of withdrawal of supporting lava The Cave Basalt, a high-alumina pahoehoe during drainage of the lava tubes. Raised-rim flow containing numerous lava tubes, originated craters found in many parts of the flow are at the southeast flank of Mount St. Helens, associated with lava tubes and were probably southwestern Washington, and flowed down a formed by collapse of hollow tumuli. stream valley incised in older pyroclastic flow deposits. In situ charcoal samples from two INTRODUCTION localities within lava tubes yield C14 dates of Abundant volcanic structures seen on high- 1,860 + 250 years B.P. and 1,925 + 95 years resolution pictures of the Moon and Mars, and B.P. Detailed survey of 9,125 m of lava tubes, the returned Apollo lunar samples showing correlated with surface geologic mapping, basaltic composition for mare surfaces have yields several geomorphic relations of basalt prompted interest in volcanic landforms as flows. Most of the lava tubes apparently formed analogs to lunar and planetary surface features. between shear planes in laminar lava flow, al- Volcanic geomorphology has been little studied though some tube sections show evidence that recently, particularly in relation to basalt flow the tube roof formed by accretion of spattered surface features. The existence of lunar lava lava in turbulent flow.
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  • Dust Storms on Mars: Considerations and Simulations
    NASA Technical Memorandum 78423 Dust Storms on Mars: Considerations and Simulations Ronald Greeley University of Santa Clara, Moffett Field, California Bruce R. White University of California, Davis, California James B. Pollack Ames Research Center, Moffett Field, California James D. Iversen Iowa State University, Ames, Iowa Rodman N. Leach University of Santa Clara, Moffett Field, California IW\SA National Aeronautics and Space Administration Scientific and Technical Information Office 1977 DUST STORMS ON MARS: CONSIDERATIONS AND SIMULATIONS R. Greeley,* B. R. White,t J. B. Pollack,$ J. D. Iversen,§ and R. N. Leach* SUMMARY Aeolian processes are important in modifying the surface of Mars at present, and appear to have been significant in the geological past. Aeolian activity includes local and global dust storms, the formation of erosional features such as yardangs and depositional features such as sand dunes, and the erosion of rock and soil. As a means of understanding aeolian processes on Mars, an investigation is in progress that includes laboratory simulations, field studies of Earth analogs, and interpretation of spacecraft data. This report describes the Martian Surface Wind Tunnel (MARSWIT), an experimental facility established at NASA-Ames Research Center, and presents some results of the general investigation. Experiments dealing with wind speeds and other condi- tions required for the initiation of particle movement on Mars are described and considerations are given to the resulting effectiveness of aeolian erosion. INTRODUCTION For many years, Earth-based telescopic observations of Mars have revealed surface markings that change size, shape, and position with time, apparently in response to changes in the martian seasons.
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  • Srinidhi Ravi Ph.D Candidate | Graduate Research Associate
    Srinidhi Ravi Ph.D Candidate | Graduate Research Associate School of Earth and Space Exploration, Arizona State University Tempe, AZ – 85281, USA [email protected] Employment Jan 2018 – present Graduate Research Associate, Lunar Reconnaissance Orbiter Camera (LROC), Arizona State University June 2017 – Dec 2017 Research Technician, Lunar Reconnaissance Orbiter Camera (LROC), Arizona State University Nov 2015 – May 2017 Undergraduate Research Assistant, Lunar Reconnaissance Orbiter Camera (LROC), Arizona State University Education Jan 2018 – Dec 2022 (expected) Ph. D Geological Sciences, School of Earth and Space Exploration, Arizona State University Aug 2014 – May 2017 B.S. Geological Sciences, School of Earth and Space Exploration, Arizona State University Oct 2012 – June 2014 B.S. Geology coursework, School of Earth and Ocean Sciences, Cardiff University, UK Professional Memberships • American Geophysical Union • Geological Society of London • Geological Society of America Honors & Awards • Fellow, Geological Society of London (2019) • International Award for Young People (Bronze), HRH Prince Philip, Duke of Edinburgh (2012) Skills • ArcGIS, QGIS, Unix, MATLAB, MELTS, Integrated Software for Imagers and Spectrometers (ISIS) • Languages: English, French, Tamil, Hindi Community Involvement • Convener, 4.5 Billion Years of Lunar Magmatism Session, American Geophysical Union Fall Meeting 2020 • Executive Secretary, Lunar Surface Innovation Consortium 2020 • Mentor/Pen Pal, Letters to a Pre-Scientist Program (2020 – present) • Graduate Student
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  • The Edge of Exploration for K-12 Education
    The edge of exploration for K-12 education K-12 field trips The School of Earth and Space Exploration is a unique K-12 field trip destination that brings alive ASU research in Earth and space, reinforcing a dynamic, authentic “pathway to college” message for students. Our customized STEM-oriented programs include grade appropriate content ideal for upper elementary and middle school grades, aligned with current science standards. We will work with you to customize your group visit. Options may include: • Marston Exploration Theater live 3D presentations • ASU Student-led tours and interactive displays in the Gallery of Scientific Exploration • Walking tours to the ASU Mars Space Flight Facility, the Lunar Exploration Gallery or the Ronald Greeley Center for Planetary Studies (based on availability and group size) • K-12 field trips are available Monday through Thursday • A 2.5-hour experience can be scheduled between 9:30 a.m. and 1:30 p.m. • Mondays and Wednesdays are reserved for smaller groups (up to 60 students) and are recommended for 7th grade and above • Tuesdays and Thursdays are available for groups up to 140 students maximum an are recommended for grades 3-12 • Cost is $8.00 per person, including chaperons. There is no charge for teachers • Please contact us to discuss the best option for your visit` sese.asu.edu/K12 [email protected] @SESEASU SESE.at.ASU The School of Earth and Space Exploration, located on ASU’s Tempe Campus, combines the strengths of science, engineering, and education to set the stage for a new era of exploration.
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  • NASA, ESA Choose King of Planets for Flagship
    NEWS>> THIS WEEK Harvard Creationism scales back in Europe 1157 1159 SPACE SCIENCE sion included a lander that would puncture the surface ice, that feature has been dropped after engineers deemed the task too difficult NASA, ESA Choose King of Planets technically. But there will be challenges enough. One major obstacle is the intense For Flagship Missions in 2020 radiation surrounding Europa. That hazard helped shoot down a Europa proposal a In classical mythology, Jupiter abducted the joint missions “a wonderful new explo- decade ago, but NASA’s Green says there both Europa and Ganymede. But last week ration challenge and a landmark of 21st cen- have been important advances since then in those jovian satellites turned the tables and tury planetary science.” hardening sensitive instruments and space- seduced NASA and European Space Agency Both Europa and Ganymede tantalize craft components against such radiation. (ESA) officials into picking them, instead of outer planetary scientists. The former has an Even that technical hurdle, however, Titan, an equally intriguing moon of pales in comparison with what the backers of Saturn, as the next major missions to a Titan mission had proposed: a sophisticated explore the solar system beyond Mars. lander and a French-built balloon to sail over If all goes as planned, two separate the surface of the mysterious moon. Jonathan spacecraft will head to the Jupiter sys- Lunine, a planetary researcher at the Univer- tem in 2020, with the NASA probe sity of Arizona, Tucson, who worked on the targeting Europa and the ESA probe Titan proposal, acknowledged its technical heading for Ganymede.
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  • DIGITIZING the RONALD GREELEY SLIDE COLLECTION. D.A. Williams, D.M. Nelson, 1School of Earth and Space Exploration, Arizona Stat
    51st Lunar and Planetary Science Conference (2020) 1119.pdf DIGITIZING THE RONALD GREELEY SLIDE COLLECTION. D.A. Williams, D.M. Nelson, 1School of Earth and Space Exploration, Arizona State University, Tempe, AZ 85287-1401 ([email protected]). Introduction: NASA has tasked the nine US process for cleaning, digitizing each slide at 4000 Regional Planetary Image Facilities (RPIFs) to digit- dpi as TIFF images, and manual color and exposure ize their holdings of hardcopy and photographic correction (caused by aging of the slides). The total materials and place them online, so that they will be cost to digitize the 14,435 slide collection is more accessible to the wider planetary science ~$9,300, and the quote is included in the Budget community. The Ronald Greeley Center for Plane- Justification. tary Studies, the NASA RPIF at Arizona State Uni- After receiving the 1 terrabyte hard drive with versity (ASU), received a 3-year grant in 2014 from the digitized photos, RGCPS Data Manager David NASA’s Planetary Data Archiving, Restoration, and Nelson will cross-reference each folder of scans with Tools (PDART) program to digitize our unique ar- its slide sheet, including with each slide any descrip- chive of field and aerial photographs that ASU pro- tive information that Dr. Greeley wrote on the out- fessor Ronald Greeley (1939-2011) collected of ter- side of each slide. Many of the slides include the restrial geologic features as planetary analogs. As date (month and year) in which the slide was made. we continue to implement that project, this year we Mr. Nelson will the generate PDS4 labels and in- received a new 1-year PDART grant to digitize the clude any metadata available, following the proce- 35mm slide collection of Dr.
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