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1

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Venus banded terrain: Evaluation of tectonic models for the origin of banding (1984)

Solomon, S. C. ; Head, J. W.

In: CASI

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Publication Date: 2006-04-06

Description: A tectonic orgin for Venus banded terrain is consistent with band spacing. Both compressional (folding) and extensional models for band formation can fit present observations. Band spacing cannot distinguish among scenarios for global heat loss and for the origin of highland terrain. Tectonic models for band formation indicate that the surface brittle layer in the venus highlands is no more than a few kilometers thick.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: NASA. Washington Repts. of Planetary Geol. Program; p 74-75

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2

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Elysium Region, Mars: Characterization of tectonic features (1984)

Head, J. W. ; Mouginis-Mark, P. J. ; Hall, J. L. ; [et al.]

In: CASI

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Publication Date: 2006-04-06

Description: In this paper the tectonic features of the Elysium region are identified and characterized. Identification of features was made using USGS controlled photomosaics (Elysium quadrangle, and portions of Amenthes and Cebrenia quadrangles); Viking Orbiter photographic data were used in individual cases to assist in identification. The positions and orientations of tectonic features can then be used, in conjunction with estimates of the mass of the volcanic load obtained from gravity modelling, to constrain the thickness of the elastic lithosphere in the region.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: NASA. Washington Rept. of Planetary Geology Program, 1983; p 291-292

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3

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Topography of Venus and earth - A test for the presence of plate tectonics (1981)

Head, J. W. ; Solomon, S. C. ; Yuter, S. E.

In: Other Sources

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Publication Date: 2011-08-18

Description: Comparisons of earth and Venus topography by use of Pioneer/Venus radar altimetry are examined. Approximately 93% of the Venus surface has been mapped with a horizontal resolution of 200 km and a vertical resolution of 200 m. Tectonic troughs have been indicated in plains regions which cover 65% of Venus, and hypsometric comparisons between the two planets' elevation distributions revealed that while the earth has a bimodal height distribution, Venus displays a unimodal configuration, with 60% of the planet surface within 500 m of the modal planet radius. The effects of mapping the earth at the same resolution as the Venus observations were explored. Continents and oceans were apparent, and although folded mountains appeared as high spots, no indications of tectonic activity were discernible. A NASA Venus Orbiting Imaging radar is outlined, which is designed to detect volcanoes, folded mountain ranges, craters, and faults, and thereby allow definition of possible plate-tectonic activity on Venus.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: American Scientist; 69; Nov

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4

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Magellan: Preliminary description of Venus surface geologic units (1991)

Mcgill, G. E. ; Saunders, R. S. ; Head, J. W., III ; [et al.]

In: CASI

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Publication Date: 2013-08-31

Description: Observations from approximately one-half of the Magellan nominal eight-month mission to map Venus are summarized. Preliminary compilation of initial geologic observations of the planet reveals a surface dominated by plains that are characterized by extensive and intensive volcanism and tectonic deformation. Four broad categories of units have been identified: plains units, linear belts, surficial units, and terrain units.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Lunar and Planetary Inst., 22nd Lunar and Planetary Science Conference; p 57-58

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Overview

5

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Rift systems on Venus: An assessment of mechanical and thermal models (1985)

Head, J. W. ; Solomon, S. C.

In: CASI

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Publication Date: 2016-06-07

Description: The formation and distribution of major tectonic features on Venus are closely linked to the dominant mechanism of lithospheric heat loss. Among the most spectacular and extensive of the major tectonic features on Venus are the Chasmata, deep linear valleys generally interpreted to be the products of lithospheric extension and rifting. Systems of chasmata and related features can be traced along several tectonic zones up to 20,000 km in linear extent. Mechanical and thermal models for terrestrial continental-rifting are applied to the rift systems of Venus. The models are tested against known topographic and tectonic characteristics of Venus chasmata as well as independent information on the physical properties of the Venus crust and lithosphere.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Lunar and Planetary Inst. Papers Presented to the Conference on Heat and Detachment in Crustal Extension on Continents and Planets; p 138 - 141

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Overview

6

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Venus Chasmata: A Lithospheric Stretching Model (1985)

Head, J. W. ; Solomon, S. C.

In: CASI

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Publication Date: 2014-10-08

Description: An outstanding problem for Venus is the characterization of its style of global tectonics, an issue intimately related to the dominant mechanism of lithospheric heat loss. Among the most spectacular and extensive of the major tectonic features on Venus are the chasmata, deep linear valleys generally interpreted to be the products of lithospheric extension and rifting. Systems of chasmata and related features can be traced along several tectonic zones up to 20,000 km in linear extent. A lithospheric stretching model was developed to explain the topographic characteristics of Venus chasmata and to constrain the physical properties of the Venus crust and lithosphere.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: NASA, Washington Repts. of Planetary Geol. and Geophys. Program, 1984; p 117-118

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7

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Elysium Region, Mars: Tests of Lithospheric Loading Models for the Formation of Tectonic Features (1985)

Hall, J. L. ; Solomon, S. C. ; Head, J. W.

In: CASI

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Publication Date: 2014-10-09

Description: In an effort to constrain the tectonic history and mechanical properties of the lithosphere in the Elysium province, the stress fields predicted by different models are compared to the observed tectonic features of the region. The models are all products of volcanic loading of the Martian lithosphere, but at three different scales: global (Tharsis), regional (Elysium Planitia), and local (individual shields). Conclusions: The concentric graben surrounding Elysium Mons can be ascribed to the flexural response of an approximately 50-km-thick elastic lithosphere to loading by the volcano. No tectonic evidence for the support of larger-scale Elysium Planitia volcanic units by lithospheric flexure. The quasi-global loading of the Tharsis rise appears to have produced identifiable tectonic effects in the Elysium region.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: NASA, Washington Repts. of Planetary Geol. and Geophys. Program, 1984; p 500-502

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8

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The Deep Structure of Lunar Basins: Clues to the Understanding of Basin Formation and Modification (1985)

Thurber, C. H. ; Bratt, S. R. ; Head, J. W. ; [et al.]

In: CASI

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Publication Date: 2014-10-09

Description: Basin excavation has played a major role in shaping the surface and subsurface of the Moon. Though photogeologic observations provide estimates for the present volumes of lunar impact basins and their ejecta deposits, there is not sufficient information to describe completely either the geometry of the basins at the time of impact or their modification with time. Determination of the structure of the crust and upper mantle beneath large basins can provide important insight into the thermal and mechanical processes associated with basin formation and modification as well as the differences in these processes as functions of basin age and size. Using observed gravity and topography together with the seismically determined crustal thickness of the central nearside, a model for the structure of the crust and upper mantle of the nearside of the Moon is presented. With this model the deep structure of the largest lunar basins are compared. The implications for the processes of basin formation and modification at different stages in lunar history are explored.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: NASA, Washington Repts. of Planetary Geol. and Geophys. Program, 1984; p 491-493

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9

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Origin and thermal evolution of Mars (1992)

Turcotte, D. L. ; Drake, M. J. ; Sleep, N. H. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: The thermal evolution of Mars is governed by subsolidus mantle convection beneath a thick lithosphere. Models of the interior evolution are developed by parameterizing mantle convective heat transport in terms of mantle viscosity, the superadiabatic temperature rise across the mantle, and mantle heat production. Geological, geophysical, and geochemical observations of the composition and structure of the interior and of the timing of major events in Martian evolution are used to constrain the model computations. Such evolutionary events include global differentiation, atmospheric outgassing, and the formation of the hemispherical dichotomy and Tharsis. Numerical calculations of fully three-dimensional, spherical convection in a shell the size of the Martian mantle are performed to explore plausible patterns of Martian mantel convection and to relate convective features, such as plumes, to surface features, such as Tharsis. The results from the model calculations are presented.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: In: Mars (A93-27852 09-91); p. 147-183.

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10

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Mars - Thickness of the lithosphere from the tectonic response to volcanic loads (1985)

Solomon, S. C. ; Comer, R. P. ; Head, J. W.

In: Other Sources

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Publication Date: 2019-06-28

Description: The response to loading of the elastic lithosphere of Mars by seven large volcanic features is estimated based on the hypothesis of a flexural origin for a definable set of load-concentric graben. From the locations of such graben, or from their absence, the lithospheric thickness and flexural rigidity are inferred. For the Tharsis montes, Alba Patera, and Elysium Mons, elastic lithospheric thicknesses at the time of loading range from 20 to 50 km, assuming a Young's modulus of a trillion dyn/sq cm. The thickness exceeded 120 km beneath Olympus Mons and Isidis Planitia. The corresponding ranges in flexural rigidity are approximately 10 to the 30th to 31st dyn cm and greater than 10 to the 32nd dyn cm, respectively. These results indicate a local thinning of the lithosphere beneath portions of the central regions of the Tharsis and Elysium volcanic provinces at the time of loading-induced fracturing.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Reviews of Geophysics (ISSN 8755-1209); 23; 61-92

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