• Refine Query
  • Source
  • Publication year
  • to
  • Language
  • 1
  • Tagged with
  • 2
  • 2
  • 1
  • 1
  • 1
  • 1
  • 1
  • 1
  • 1
  • 1
  • 1
  • 1
  • 1
  • 1
  • 1
  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Structural and Geomorphic Mapping of Northern Claritas Fossae and the Thaumasia Graben, Mars: Implications for Formation

January 2019 (has links)
abstract: In this thesis, I investigate possible formation processes in the northern Claritas Fossae and the large Thaumasia graben on Mars. In particular, I assess three proposed formation hypotheses for the region: a mega-landslide across the Thaumasia plateau, originating in Tharsis and moving to the south-west; a rift system pulling apart Claritas Fossae and opening the large Thaumasia graben generally propagating in a north-south direction: and extension caused by uplifting from underlying dike swarms. Using digital terrain models (DTMs) from the High Resolution Stereo Camera (HRSC) aboard Mars Express and visual images from the Context Camera (CTX) aboard the Mars Reconnaissance Orbiter (MRO), I analyzed the geomorphic and structural context of the region. Specifically, I produced geomorphologic and structural feature maps, conducted sector diagram analyses of fault propagation direction, calculated and compared extension and strain in local and regional samples, analyzed along strike throw-profiles of faults, and conducted surface age estimates through crater counting. I found that no single formation mechanism fully explains the surface features seen in Northern Claritas Fossae today. Instead I, propose the following sequence of events led to the surface characteristics we now observe. The region most likely underwent two episodes of uplift and extension due to sub-surface magmatic intrusions, then experienced an extensional event which produced the large Thaumasia graben. This was followed by the emplacement of a layer of lava burying the bottom of the Thaumasia graben and the eastern edge of the region. Additional extension followed across the eastern portion of the study area, and finally of a young lava flow was emplaced abutting and overprinting the southwestern edge. / Dissertation/Thesis / Masters Thesis Geological Sciences 2019
2

Geology of Sinai Tholus, Thaumasia Plateau, Mars

Mosher, Haley 30 August 2024 (has links) (PDF)
A new geologic map of the Sinai Tholus region on the Thaumasia plateau, Mars reveals the structural, magmatic, and stratigraphic complexity that can be found in the Tharsis region on Mars, and may help answer key questions about the origin of the subvolcanic basement, evolution of the regional stress field, development of Valles Marineris, and magmatic history of the region. Sinai Tholus is a topographic high in a relatively flat, lava flow covered part of Thaumasia Plateau, just south of the central part of Valles Marineris. Here, five stratigraphic units and one generalized impact unit have been mapped at a 1:200,000 scale. The Late Noachian Sinai Tholus Formation (lNst) is the oldest (at least 3.65 Ga based on crater retention age), and the most rugged. This unit is likely megaregolith consisting of altered impact breccia, sedimentary units, and lava flows. Numerous grabens strike NW (159°), NE (42°), and EW (86°), with EW-striking faults being unique to lNst and the oldest of the three sets. Similarly unique to lNst are linear ridges; these likely exhumed igneous dikes have higher olivine abundances according to the spectral analyses of CRISM and are erosionally resistant topographic highs. Their average strikes (18° and 74°) are different enough from the grabens to indicate an earlier, magmatic-related extension resulting in their formation. lNst is only exposed along an eroded normal fault face; much of it is covered by the Late Hesperian Highlands of the Sinai Dorsa Formation (lHsd) (3.6 Ga). A patera in this region may have been an eruptive source for this unit, indicating an igneous origin. However, CRISM data indicate higher abundances of low temperature alteration minerals than in the underlying Sinai Tholus Formation. This, combined with its highly erodible nature, makes it appear that lHsd was deposited or altered during a wet, oxidizing period. It was then cut by the NE-striking faults and uplifted about 1 to 1.5 km along an EW-trending normal fault. These two units were subsequently eroded in the south, exposing lNst and its igneous dikes and fault sets. This is further supported by the presence of erosional, seemingly fluvial, escarpments defining the boundary between lNst and lHsd. The Late Hesperian Nia Fossae Formation (lHnf) was deposited as a series of fissure-fed basaltic lavas around 3.6 Ga, and its vents likely covered. Further extension caused NW-trending faults to cut all units. The Late Hesperian Ridged Plains of the Sinai Planum Formation (lHsp) also formed around 3.6 Ga as a younger series of fissure-fed basaltic flood lavas. lHsp covered much of lHsd, lHnf, and the patera. The region then underwent tectonic contraction, possibly due to planetary cooling, as evidenced by wrinkle ridges with a consistent strike (146°) similar to those found globally. The uniquely stratified Early Amazonian Louros Valles Formation (eAlv) formed about 1.9 Ga and buries the northern exposures of lHsd and lHsp. CRISM and CTX imagery indicate that this unit consists of thin alternating light and dark layers containing clays and sulfates. Similar beds have been noted on the north side of Valles Marineris and could have been part of a large, ephemeral lake before being cut by the canyon.

Page generated in 0.7062 seconds