Internal Structure and Early Thermal Evolution of Mars from Mars Global Surveyor Topography and Gravity-Reference-Cited by-同舟云学术

Internal Structure and Early Thermal Evolution of Mars from Mars Global Surveyor Topography and Gravity

Published:2000-03-10 Issue:5459 Volume:287 Page:1788-1793
ISSN:0036-8075
Container-title:Science
language:en
Short-container-title:Science

Author:

Zuber Maria T.¹²,Solomon Sean C.³,Phillips Roger J.⁴,Smith David E.²,Tyler G. Leonard⁵,Aharonson Oded¹,Balmino Georges⁶,Banerdt W. Bruce⁷,Head James W.⁸,Johnson Catherine L.³,Lemoine Frank G.²,McGovern Patrick J.³,Neumann Gregory A.¹²,Rowlands David D.²,Zhong Shijie¹

Affiliation:

1. Department of Earth, Atmospheric, and Planetary Sciences, Massachusetts Institute of Technology, Cambridge, MA 02139, USA.

2. Earth Sciences Directorate, NASA/Goddard Space Flight Center, Greenbelt, MD 20771, USA.

3. Department of Terrestrial Magnetism, Carnegie Institution of Washington, Washington, DC 20015, USA.

4. Department of Earth and Planetary Sciences, Washington University, St. Louis, MO 63130, USA.

5. Center for Radio Astronomy, Stanford University, Stanford, CA 94035–9515, USA.

6. Groupe de Recherches de Geodesie Spatiale, Toulouse, France.

7. Jet Propulsion Laboratory, Pasadena, CA 91109, USA.

8. Department of Geological Sciences, Brown University, Providence, RI 02912, USA.

Abstract

Topography and gravity measured by the Mars Global Surveyor have enabled determination of the global crust and upper mantle structure of Mars. The planet displays two distinct crustal zones that do not correlate globally with the geologic dichotomy: a region of crust that thins progressively from south to north and encompasses much of the southern highlands and Tharsis province and a region of approximately uniform crustal thickness that includes the northern lowlands and Arabia Terra. The strength of the lithosphere beneath the ancient southern highlands suggests that the northern hemisphere was a locus of high heat flow early in martian history. The thickness of the elastic lithosphere increases with time of loading in the northern plains and Tharsis. The northern lowlands contain structures interpreted as large buried channels that are consistent with northward transport of water and sediment to the lowlands before the end of northern hemisphere resurfacing.

Publisher

American Association for the Advancement of Science (AAAS)

Subject

Multidisciplinary

Reference66 articles.

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4. The topographic field was derived from the MOLA (1) and represents an improvement of (11). The spherical harmonic model is to degree and order 720 with a spatial resolution of 15 km and a radial accuracy of 1 to 5 m. The spherical harmonic model was fit to more than 2 × 10 8 elevation measurements and 2 × 10 6 altimetric crossovers.

5. The gravity field was derived from X-band Doppler tracking of the MGS spacecraft and 7000 altimetric crossovers and is updated from previous Doppler-only solutions (9 41). The solution used herein (42) is to degree and order 80 but is interpreted to degree and order 60 which represents an estimate of the coefficient limit of a field that can be produced without a power law constraint (43) on the gravitational field inversion as is commonly imposed for solution stability. This constraint stabilizes the least squares inversion for the gravity field for planets with nonuniform data distribution but also suppresses short-wavelength power. The Doppler data have a typical accuracy of 0.03 to 0.05 mm s –1 averaged over 10 s. The interpreted field has an accuracy of about ±10 mGal at the poles ±20 mGal at the equator and ±100 mGal over the Tharsis Montes and Olympus Mons. Note that 1 Gal = 10 –2 m s –2 .

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