Add to ORKGA heat-pipe mechanism is proposed for the transport of heat through the lithosphere of Venus. This mechanism allows the crust and lithosphere on Venus to be greater than 150 km. thick. A thick basaltic crust on Venus is expected to transform eclogite at a depth of 60 to 80 km; the dense eclogite would contribute to lithospheric delamination that returns the crust to the interior of the planet completing the heat-pipe cycle. Topography and the associated gravity anomalies can be explained by Airy compensation of the thick crust. The principal observation that is contrary to this hypothesis is the mean age of the surface that is inferred from crater statistics; the minimum mean age is about 130 Myr and this implies an upper limit of 2 cubic k...
The uncompressed density of Venus is a few percent less than the Earth. The high upper mantle temper...
Lithospheric strength envelopes on Venus are reviewed and their implications for large scale rifting...
Over the past year, much of the tectonic analysis of Venus we have done has centered on global prope...
The high surface temperature of Venus implies a permanently buoyant lithosphere and a thick basaltic...
Though there is no plate tectonics per se on Venus, recent Magellan radar images and topographic pro...
The impact craters with diameters from 1.5 to 280 km compiled from Magellan observations indicate th...
The topography of Venus is studied in order to learn about hot lithosphere tectonic processes of Arc...
The relationship between the dominant global heat loss mechanism and planetary size has motivated th...
The disparate evolution of sibling planets Earth and Venus has left them markedly different. Venus’ ...
The outer layers of the Venusian lithosphere appear to dissipate heat from the interior through mant...
High-resolution Magellan images and altimetry of Venus reveal a wide range of styles and scales of s...
Venus has been thought to possess a globally continuous lithosphere, in contrast to the mosaic of mo...
Venus has a nearly perfectly random distribution of craters on its surface. This implies that the Ve...
International audienceThe disparate evolution of sibling planets Earth and Venus has left them marke...
Two of the most important constraints are known from Pioneer Venus data: the lack of a system of spr...
The uncompressed density of Venus is a few percent less than the Earth. The high upper mantle temper...
Lithospheric strength envelopes on Venus are reviewed and their implications for large scale rifting...
Over the past year, much of the tectonic analysis of Venus we have done has centered on global prope...
The high surface temperature of Venus implies a permanently buoyant lithosphere and a thick basaltic...
Though there is no plate tectonics per se on Venus, recent Magellan radar images and topographic pro...
The impact craters with diameters from 1.5 to 280 km compiled from Magellan observations indicate th...
The topography of Venus is studied in order to learn about hot lithosphere tectonic processes of Arc...
The relationship between the dominant global heat loss mechanism and planetary size has motivated th...
The disparate evolution of sibling planets Earth and Venus has left them markedly different. Venus’ ...
The outer layers of the Venusian lithosphere appear to dissipate heat from the interior through mant...
High-resolution Magellan images and altimetry of Venus reveal a wide range of styles and scales of s...
Venus has been thought to possess a globally continuous lithosphere, in contrast to the mosaic of mo...
Venus has a nearly perfectly random distribution of craters on its surface. This implies that the Ve...
International audienceThe disparate evolution of sibling planets Earth and Venus has left them marke...
Two of the most important constraints are known from Pioneer Venus data: the lack of a system of spr...
The uncompressed density of Venus is a few percent less than the Earth. The high upper mantle temper...
Lithospheric strength envelopes on Venus are reviewed and their implications for large scale rifting...
Over the past year, much of the tectonic analysis of Venus we have done has centered on global prope...