Surface processes in the Venus highlands: Results from analysis of Magellan and Arecibo data

Campbell, B. A.; Campbell, D. B.; DeVries, Christopher H.

doi:10.1029/1998je900022

Cited by 30 publications

(25 citation statements)

References 39 publications

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“…The commonly assumed rapid global resurfacing event has been questioned by Campbell et al (1999) and more recently by Bond and Warner (2006) and Bjonnes et al (2012). According to the latter authors, the cratering record allows a variety of interpretations in terms of volcanic resurfacing including a global decrease with time in the rate of an otherwise statistically distributed volcanic activity.…”

Section: Venusmentioning

confidence: 99%

Dynamics and Thermal History of the Terrestrial Planets, the Moon, and Io

Breuer

Moore

2015

Treatise on Geophysics

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Section: Venusmentioning

confidence: 99%

Dynamics and Thermal History of the Terrestrial Planets, the Moon, and Io

Breuer

Moore

2015

Treatise on Geophysics

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“…The end result is that the template approach characterizes the “typical” topography of a footprint, whereas thresholding provides an approximate upper bound on elevation within a footprint. One way to deal with these problems is to automatically dispose of off‐nominal footprints and to interpolate from the remaining data [ Campbell et al , 1999; Rappaport et al , 1999]; however, given that analyzing topography at geologic contacts is a key part of this study, other methods are used here.…”

Section: Datamentioning

confidence: 99%

Poludnista Dorsa, Venus: History and context of a deformation belt

Young

Hansen

2005

J. Geophys. Res.

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[1] Rolling lowlands comprise 80% of Venus's surface, and thus developing a geological understating of resurfacing and tectonism is critical for our understanding of Venus' evolution. In this paper, global, regional, and local approaches to interpreting Magellan synthetic aperture radar and altimetry radar data are used to constrain modes of lowland evolution, convection processes, and lithospheric structure. Detailed geologic mapping is combined with altimetry data test models of deformation belt evolution in Venus's lowlands. Poludnista Dorsa, a complex 2000-km-long deformation belt, is highly segmented and broadly time transgressive. Long-wavelength deformation is spatially independent of local short-wavelength deformation within the deformation belt and temporally predates regional deformation marked by wrinkle ridges. A mechanically layered lithosphere of regional extent is not required by the local geologic history; local lithospheric thinning or progressive regional thickening of the mechanical layer better explains the observed sequence of events.

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“…Values of m l > 1/3 may indicate unusual scattering behavior, and have been observed on ice sheets and glaciers [Rignot et al, 1993;Rignot, 1995;Haldemann, 1997] at C band, on the Galilean satellites at PLAUT ET AL. : RADAR PROPERTIES OF SILICIC LAVA DOMES S band (13 cm [Ostro et al, 1992]), and in the Venus highlands at S band [Campbell et al, 1999]. Values of m l on lava flows are shown in Figure 4.…”

Section: Polarization Ratiosmentioning

confidence: 99%

The unique radar properties of silicic lava domes

et al. 2004

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[1] Silicic lava domes exhibit distinct morphologic characteristics at scales of centimeters to kilometers. Multiparameter radar observations capture the unique geometric signatures of silicic domes in a set of radar scattering properties that are unlike any other natural geologic surfaces. Backscatter cross-section values are among the highest observed on terrestrial lava flows and show only a weak decrease with incidence angle. Crosspolarization backscatter (HV) shows a unique behavior, increasing with increasing wavelength. Circular polarization ratios are relatively high, in the 0.3-0.95 range, and increase with increasing wavelength. Field measurements of boulder size frequency distributions and microtopography indicate that silicic dome surfaces are among the roughest ever measured. Rms heights at a 1 m lateral scale range from 13 cm to 50 cm. Rms slopes at 1 m spacing range from 12 to 43 degrees. Modeling of the scattering behavior suggests it results from a combination of rough surface (facet) scattering and scattering from block edges that act as a random collection of dipoles. The unusual wavelength dependence of the radar parameters appears to result from a higher component of edge scattering at large wavelengths, producing, for example, higher cross-polarized backscatter at P band (68 cm). Steep-sided volcanic domes on Venus superficially resemble terrestrial silicic domes in plan view gross morphology, but few similarities remain when the radar scattering and three-dimensional shapes of the features are compared. The unique radar scattering properties suggest that such volcanic surfaces can be identified with multiparameter radar observations in future planetary radar missions and in active terrestrial volcanoes, where dome development can represent serious hazards.

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Surface processes in the Venus highlands: Results from analysis of Magellan and Arecibo data

Cited by 30 publications

References 39 publications

Dynamics and Thermal History of the Terrestrial Planets, the Moon, and Io

Dynamics and Thermal History of the Terrestrial Planets, the Moon, and Io

Poludnista Dorsa, Venus: History and context of a deformation belt

The unique radar properties of silicic lava domes

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