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Auteurs principaux: van der Wal, Jorien L N, Nottebaum, Veit, Gailleton, Boris, Stauch, Georg, Weismüller, Christopher, Batkhishig, Ochirbat, Lehmkuhl, Frank, Reicherter, Klaus
Format: Dataset Open Access
Langue:en
Publié: PANGAEA 2024
Sujets:
Accès en ligne:https://doi.org/10.1594/PANGAEA.913739
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author van der Wal, Jorien L N
Nottebaum, Veit
Gailleton, Boris
Stauch, Georg
Weismüller, Christopher
Batkhishig, Ochirbat
Lehmkuhl, Frank
Reicherter, Klaus
author_facet van der Wal, Jorien L N
Nottebaum, Veit
Gailleton, Boris
Stauch, Georg
Weismüller, Christopher
Batkhishig, Ochirbat
Lehmkuhl, Frank
Reicherter, Klaus
collection Datos científicos de ciencias marinas y ambientales
contents The database consists of two shapefiles that show the locations of unmanned aerial vehicle (UAV) surveys and of ground-penetrating-radar analyses. The raw data of these surveys may be shared upon request and after publication. Additionally, one shapefile consisting of geomorphological alluvial fan mapping has been added. UAV surveys were conducted with the DJI Phantom 4 (12 MP sensor) and DJI Phantom 4 Advanced (20 MP sensor) drones to create high-resolution digital elevation models (DEMs). In the 'Drone_areas' shapefile, the column 'Name' refers to the survey name given in the field, and the column 'Reference' indicates the catchment referred to in van der Wal et al. (submitted to Geomorphology in 2019). The 'GPR_profiles' shapefile includes the locations of all GPR data collected in September 2017. All measurements were conducted using a SIR-3000 field computer and a 100 MHz GSSI radar antenna (model 3207A), with a survey wheel (model 620) to calibrate distance data. Dielectric permittivity values were set between 4 and 7. Van der Wal et al. (submitted to Geomorphology in 2019) includes GPR profiles 005, 003, 006 (G-1, G-2, G-3, respectively) and 064 (Hustiyn am). The 'AlluvialFanLevels' shapefile includes a geomorphological map of alluvial fans along the Ikh Bogd mountain front. The method for mapping is discussed in van der Wal et al. (submitted to Geomorphology in 2019). Some minor alluvial fan levels were excluded from publication (e.g. levels 1+ and 1t) because of their minor scale and lack of relevance in the discussed context.
format Dataset Open Access
id pangaea_https___doi_org_10_1594_PANGAEA_913739
institution PANGAEA
language en
publishDate 2024
publisher PANGAEA
record_format pangaea
spellingShingle Morphotectonics of the Bogd fault and the Orog Nuur Basin (southern Mongolia) - UAV surveys, GPR locations and alluvial fan mapping
van der Wal, Jorien L N
Nottebaum, Veit
Gailleton, Boris
Stauch, Georg
Weismüller, Christopher
Batkhishig, Ochirbat
Lehmkuhl, Frank
Reicherter, Klaus
Bogd_fault; CAME-II_Q-TIP; Crossing Climatic Tipping Points - Consequences for Central Asia; MULT; Multiple investigations
The database consists of two shapefiles that show the locations of unmanned aerial vehicle (UAV) surveys and of ground-penetrating-radar analyses. The raw data of these surveys may be shared upon request and after publication. Additionally, one shapefile consisting of geomorphological alluvial fan mapping has been added. UAV surveys were conducted with the DJI Phantom 4 (12 MP sensor) and DJI Phantom 4 Advanced (20 MP sensor) drones to create high-resolution digital elevation models (DEMs). In the 'Drone_areas' shapefile, the column 'Name' refers to the survey name given in the field, and the column 'Reference' indicates the catchment referred to in van der Wal et al. (submitted to Geomorphology in 2019). The 'GPR_profiles' shapefile includes the locations of all GPR data collected in September 2017. All measurements were conducted using a SIR-3000 field computer and a 100 MHz GSSI radar antenna (model 3207A), with a survey wheel (model 620) to calibrate distance data. Dielectric permittivity values were set between 4 and 7. Van der Wal et al. (submitted to Geomorphology in 2019) includes GPR profiles 005, 003, 006 (G-1, G-2, G-3, respectively) and 064 (Hustiyn am). The 'AlluvialFanLevels' shapefile includes a geomorphological map of alluvial fans along the Ikh Bogd mountain front. The method for mapping is discussed in van der Wal et al. (submitted to Geomorphology in 2019). Some minor alluvial fan levels were excluded from publication (e.g. levels 1+ and 1t) because of their minor scale and lack of relevance in the discussed context.
title Morphotectonics of the Bogd fault and the Orog Nuur Basin (southern Mongolia) - UAV surveys, GPR locations and alluvial fan mapping
topic Bogd_fault; CAME-II_Q-TIP; Crossing Climatic Tipping Points - Consequences for Central Asia; MULT; Multiple investigations
url https://doi.org/10.1594/PANGAEA.913739