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Geologic Evolution of the Martian Dichotomy and Plains Magnetization in the Ismenius Area of Mars (2004)

Smrekar, S. E. ; McGill, G. E. ; Dimitriou, A. M. ; [et al.]

In: CASI

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Publication Date: 2018-06-11

Description: The global dichotomy divides the northern lowlands from the southern highlands, except where interrupted by relatively young volcanic provinces and impact basins. An elevation change of 2-4 km is typical across the dichotomy, and more than 6 km locally, over distances of several 100s km to as much as 1300 km [1,2]. A variety of exogenic and endogenic formation models have been proposed. Distinguishing between these models would help constrain the overall thermal evolution of the planet, possibly timing of core formation, and the associated mantle heat flux over time. A first step is to determine whether or not gravitational relaxation plays a role in modifying the boundary. Nimmo and Stevenson [3] examined 10 profiles across the dichotomy and used models of gravitational relaxation to conclude the relaxation has not occurred. In this study we begin by considering the geologic history in detail as inputs for modeling [4].

Keywords: Geophysics

Type: Lunar and Planetary Science XXXV: Mars Geophysics; LPI-Contrib-1197

Format: text

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Relaxation of the Martian Crustal Dichotomy Boundary in the Ismenius Region (2004)

Guest, A. ; Smrekar, S. E.

In: CASI

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Publication Date: 2018-06-11

Description: The origin of the Martian crustal dichotomy remains a puzzle that when solved can provide an insight to the geological and geophysical evolution of Mars. In this study we model crustal relaxation in order to better constrain the original topographic shape, rheology, and temperature of the Martian crust. Our approach is to model the detailed geologic history of the Ismenius region of Mars, including slope, strain, and timing of faulting [1]. This region may contain the best preserved section of the dichotomy boundary as it is relatively unaffected by large impacts and erosion. So far the only study Martian crustal relaxation [2] suggests that the original topographic shape of the dichotomy is preserved. However, in this area strain from faulting implies at least some relaxation [1].

Keywords: Geophysics

Type: Lunar and Planetary Science XXXV: Mars Geophysics; LPI-Contrib-1197

Format: text

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Joint Inversion and Forward Modeling of Gravity and Magnetic Data in the Ismenius Region of Mars (2005)

Jewell, J. B. ; Smrekar, S. E. ; Milbury, C. A. ; [et al.]

In: CASI

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Publication Date: 2017-10-02

Description: The unexpected discovery of remanent crustal magnetism on Mars was one of the most intriguing results from the Mars Global Surveyor mission. The origin of the pattern of magnetization remains elusive. Correlations with gravity and geology have been examined to better understand the nature of the magnetic anomalies. In the area of the Martian dichotomy between 50 and 90 degrees E (here referred to as the Ismenius Area), we find that both the Bouguer and the isostatic gravity anomalies appear to correlate with the magnetic anomalies and a buried fault, and allow for a better constraint on the magnetized crust].

Keywords: Geophysics

Type: Lunar and Planetary Science XXXVI, Part 13; LPI-Contrib-1234-Pt-13

Format: application/pdf

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Insights into Corona Formation Through Statistical Analyses (2002)

Stofan, E. R. ; Smrekar, S. E. ; Glaze, L. S. ; [et al.]

In: Other Sources

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Publication Date: 2019-08-15

Description: Statistical analysis of an expanded database of coronae on Venus indicates that the populations of Type 1 (with fracture annuli) and 2 (without fracture annuli) corona diameters are statistically indistinguishable, and therefore we have no basis for assuming different formation mechanisms. Analysis of the topography and diameters of coronae shows that coronae that are depressions, rimmed depressions, and domes tend to be significantly smaller than those that are plateaus, rimmed plateaus, or domes with surrounding rims. This is consistent with the model of Smrekar and Stofan and inconsistent with predictions of the spreading drop model of Koch and Munga. The diameter range for domes, the initial stage of corona formation, provides a broad constraint on the buoyancy of corona-forming plumes. Coronae are only slightly more likely to be topographically raised than depressions, with Type 1 coronae most frequently occurring as rimmed depressions and Type 2 coronae most frequently occurring with flat interiors and raised rims. Most Type 1 coronae are located along chasmata systems or fracture belts, while Type 2 coronae are found predominantly as isolated features in the plains. Coronae at hot spot rises tend to be significantly lager than coronae in other settings, consistent with a hotter upper mantle at hot spot rises and their active state.

Keywords: Solar Physics

Type: Journal of Geophysical Research (ISSN 0148-0227); 107; E12; 1-12

Format: text

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