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Science 20 May 1977:
Vol. 196. no. 4292, pp. 869 - 871
DOI: 10.1126/science.196.4292.869
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Articles

Geomorphic Degradations on the Surface of Venus: An Analysis of Venera 9 and Venera 10 Data

C. P. FLORENSKY 1, L. B. RONCA 1, and A. T. BASILEVSKY 1

1 V. I. Vernadsky Institute of Geochemistry and Analytical Chemistry, Academy of Sciences of the U.S.S.R., Moscow, U.S.S.R.

On the basis of the physical and chemical measurements made on the surface of Venus and transmitted back to Earth by the Soviet automatic landers Venera 9 and Venera 10, a geomorphically inactive environment should be expected. An analysis of the television photographs reveals, however, that at least two processes of degradation occur. One operates on a scale of decimeters to meters and is responsible for the fracturing of a layered source rock and the subsequent downslope movement of the fragments. Mass-wasting, perhaps activated by venusian quakes or by unknown geological processes, is likely to be the agent. Another geomorphic degradation process occurs on the scale of a centimeter or less and is responsible for the rounding of edges and the pitting of rock surfaces. The agents of this process are not known, but atmospheric action, perhaps in connection with volcanic episodes, may be the cause. From a geomorphic point of view, the landscape of the Venera 9 landing site can be considered young and that of the Venera 10 landing site, mature.

Submitted on October 15, 1976
Revised on January 11, 1977


THIS ARTICLE HAS BEEN CITED BY OTHER ARTICLES:
Venera 13 and Venera 14: Sedimentary Rocks on Venus?.
C. P. Florensky, C. P. FLORENSKY, A. T. BASILEVSKY, V. P. KRYUCHKOV, R. O. KUSMIN, O. V. NIKOLAEVA, A. A. PRONIN, I. M. CHERNAYA, YU. S. TYUFLIN, A. S. SELIVANOV, et al. (1983)
Science 221, 57-59
   Abstract »    PDF »
Venus Thermosphere: In situ Composition Measurements, the Temperature Profile, and the Homopause Altitude.
U. VON ZAHN, D. KRANKOWSKY, K. MAUERSBERGER, A. O. NIER, and D. M. HUNTEN (1979)
Science 203, 768-770
   Abstract »    PDF »
Mars and Earth: Origin and Abundance of Volatiles.
E. Anders, E. Anders, and T. Owen (1977)
Science 198, 453-465
   Abstract »    PDF »


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