Paleo-heat flows, radioactive heat generation, and the cooling and deformation history of Mercury



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Ruiz Pérez, Javier and López, Valle and Egea González, Isabel (2013) Paleo-heat flows, radioactive heat generation, and the cooling and deformation history of Mercury. Icarus (New York, N.Y. 1962), 225 (1). pp. 86-92. ISSN 0019-1035

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Estimates of lithospheric strength for Mercury, based on the depth of thrust faults associated with large lobate scarps (which were most probably formed previously to similar to 3 Ga) or on the effective elastic thickness of the lithosphere supporting a broad rise in the northern smooth plains (whose formation is poorly constrained, but posterior to 3.8 Ga), serve as a basis for the calculation of paleo-heat flows, referred to the time when these structures were formed. The so-obtained paleo-heat flows can give information on the Urey ratio (Ur), the ratio between the total radioactive heat production and the total surface heat loss. By imposing the condition Ur < 1 (corresponding to a cooling Mercury, consistent with the observed widespread contraction), we obtain an upper limit of 0.4 times the average surface value for the abundance of heat-producing elements in the outer solid shell of Mercury. We also find that if the formation of the northern rise occurred in a time posterior to 3 Ga, then in that time the Urey ratio was lower, and the cooling more intense, than when most of large lobate scarps were formed. Thus, because largest lobate scarps deform older terrains (suggesting more intense contraction early in the mercurian history), we conclude that the northern rise was formed previously to similar to 3 Ga. If the age of other smooth plains large wavelength deformations is similar, then tectonic activity in Mercury would have been limited in the last 3 billion of years.

Item Type:Article
Uncontrolled Keywords:Mercury; Mercury, Interior; Tectonics; Thermal histories
Subjects:Sciences > Geology > Geodynamics
ID Code:31393
Deposited On:10 Jul 2015 09:59
Last Modified:14 Jul 2015 07:30

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