Ancient heat flow, crustal thickness, and lithospheric mantle rheology in the Amenthes region, Mars

“…The use of a "standard" wet diabase for the Martian crust is consistent with extensive evidence for water-related geologic activity in early Mars (e.g., Fairén et al, 2003). For strain rates, we use values of 10 − 16 s − 1 and 10 − 19 s − 1 , a range usually considered for Mars (e.g., McGovern et al, 2004;Ruiz et al, 2008).…”

“…This relation has been previously used in order to calculate surface heat flows for several regions of Mars (e.g., Solomon and Head, 1990;Zuber et al, 2000;McGovern et al, 2004;Grott et al, 2005;Ruiz et al, 2006;Kronberg et al, 2007;Ruiz et al, 2008). Moreover, the use of crustal heat sources in this kind of calculation increases the obtained heat flow values and potentially constrains crustal thickness estimates (Ruiz et al, 2006(Ruiz et al, , 2008. Thus, we calculate surface heat flows from the best-fit effective elastic thicknesses and crustal densities obtained for Claritas rise (Fig.…”

“…The link to heat flow comes from the dependence of the ductile strengths on the temperature profile. For details on the implementation of the methodology used here, please see Ruiz et al (2008). Temperature profiles in the crust are calculated by assuming heat sources homogeneously distributed.…”

“…Finally, for the topography curvature, we use values of 2 and 7 × 10 − 7 m − 1 , which limit a range including the majority of values published for Mars (e.g., Grott et al, 2005;Ruiz et al, 2006;Kronberg et al, 2007;Ruiz et al, 2008). Fig.…”

“…After the crustal model of Neumann et al (2004), the crust at the Claritas rise is~80 km thick. These authors assumed a mean thickness of 45 km for the Martian crust, whereas Wieczorek and Zuber (2004), by simultaneously considering several geophysical and geochemical considerations, constrained the average thickness of the crust to be between 38 and 62 km, and Ruiz et al (2008), through calculations of heat flows from the effective elastic thickness and faulting depth for the Amenthes region, found an average thickness of~45-65 km if the crustal density is taken as 2900 kg m − 3 . Thus, for the average crustal density value used in the model of Neumann et al (2004), the crustal thickness beneath Claritas rise would be between~75 and~100 km, which further constrain the effective elastic thickness to be lower than 23 km.…”

Claritas rise, Mars: Pre-Tharsis magmatism?

“…The use of a "standard" wet diabase for the Martian crust is consistent with extensive evidence for water-related geologic activity in early Mars (e.g., Fairén et al, 2003). For strain rates, we use values of 10 − 16 s − 1 and 10 − 19 s − 1 , a range usually considered for Mars (e.g., McGovern et al, 2004;Ruiz et al, 2008).…”

“…This relation has been previously used in order to calculate surface heat flows for several regions of Mars (e.g., Solomon and Head, 1990;Zuber et al, 2000;McGovern et al, 2004;Grott et al, 2005;Ruiz et al, 2006;Kronberg et al, 2007;Ruiz et al, 2008). Moreover, the use of crustal heat sources in this kind of calculation increases the obtained heat flow values and potentially constrains crustal thickness estimates (Ruiz et al, 2006(Ruiz et al, , 2008. Thus, we calculate surface heat flows from the best-fit effective elastic thicknesses and crustal densities obtained for Claritas rise (Fig.…”

“…The link to heat flow comes from the dependence of the ductile strengths on the temperature profile. For details on the implementation of the methodology used here, please see Ruiz et al (2008). Temperature profiles in the crust are calculated by assuming heat sources homogeneously distributed.…”

“…Finally, for the topography curvature, we use values of 2 and 7 × 10 − 7 m − 1 , which limit a range including the majority of values published for Mars (e.g., Grott et al, 2005;Ruiz et al, 2006;Kronberg et al, 2007;Ruiz et al, 2008). Fig.…”

“…After the crustal model of Neumann et al (2004), the crust at the Claritas rise is~80 km thick. These authors assumed a mean thickness of 45 km for the Martian crust, whereas Wieczorek and Zuber (2004), by simultaneously considering several geophysical and geochemical considerations, constrained the average thickness of the crust to be between 38 and 62 km, and Ruiz et al (2008), through calculations of heat flows from the effective elastic thickness and faulting depth for the Amenthes region, found an average thickness of~45-65 km if the crustal density is taken as 2900 kg m − 3 . Thus, for the average crustal density value used in the model of Neumann et al (2004), the crustal thickness beneath Claritas rise would be between~75 and~100 km, which further constrain the effective elastic thickness to be lower than 23 km.…”

Claritas rise, Mars: Pre-Tharsis magmatism?

Preservation of Midlatitude Ice Sheets on Mars

Hemispheric Dichotomy in Lithosphere Thickness on Mars Caused by Differences in Crustal Structure and Composition