Abstract
Geologic and geophysical mapping has been so far limited to the traditional single-method GIS-based mapping. A new approach combining integrated analysis of data on geology, gravity, topography and geomorphology is presented for regional characterization of the geophysical setting in Mongolia: the Gobi Altai Mountains, the Khangai Mountains and Khentii Mountains with surrounding areas. Nine new maps have been produced from the high-resolution datasets: GEBCO, gravity raster, USGS geological data and SRTM-90 DEM geomorphological grid. Methodology includes three tools for cartographic data visualization: i) Generic Mapping Tools (GMT), ii) R programming language (‘raster’ and ‘tmap’ libraries); iii) QGIS. The results demonstrated strong agreement between the estimated values in gravity and topography grids, distribution of geological units and provinces over the country and geomorphological landforms with respect to the mountain ranges: Altai, Khangai and Khentii Mountains. The highest values in the gravity anomalies correspond to the mountain ranges in the Altai Mountains and Khangai Mountains (<80 mGal); high values correspond to the Khentii Mountains (20–60 mGal). Contrariwise, the basins of the Uvs Nuur and Khyargas Nuur show negative values (<-80 mGal). The NE- to NNE-oriented faulting and rift basins are clearly visible in the geophysical grids and geologic maps. The geomorphometric analysis performed based on the SRTM-90 DEM using R scripting demonstrated (1) slope, (2) aspect, (3) hillshade and (4) elevation models of Mongolia supported by histograms of data distribution and frequency. The study contributed to the cartographic methods and regional geological studies of Mongolia.
Highlights
Analysis of the correlations between the geophysical setting, topographic structure and subsurface geological processes is one of the challenging research problems in Earth sciences
This paper presents an integrated cartographical analysis of the geophysical and geological setting of the Mongolian region, which has extremely specific and diverse geographic, geophysical and geological setting
Fig. 1 shows the relief of Mongolia which presents a plateau with elevated plain at an altitude of 571-1320 m above sea level according to the GEBCO grid
Summary
Analysis of the correlations between the geophysical setting, topographic structure and subsurface geological processes is one of the challenging research problems in Earth sciences. Mongolia is unique due to its geospatial location in the region of the Central Asia, and the location between the oldest and largest tectonic structural elements of Asia On the north, it crosses the Siberian platform which consists of the Proterozoic and Phanerozoic strata overlying the Archaean basement of the Siberian Craton. Besides technical issues of the cartographic data representation and mapping, regional geophysical aspects related to gravity and geoid of the terrain, geologic maps reflecting the tectonic processes, lithological and stratigraphic setting and early geologic evolution of the region are important for complex mapping of the region. Methodological applications of GIS were under investigation both in pure cartographic research focused on technical issues of geoinformatics and data representation
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