@misc{10481/90631,
year = {2023},
month = {11},
url = {https://hdl.handle.net/10481/90631},
abstract = {The goal of this paper is the construction of computerized 3D visualization of geological
structures. Several Python applications have been used to adapt the paper map-based
geological classical information to numerical geological maps represented in HTML files. The
models include a map with the stratigraphic and structural contacts and symbols, five serial
vertical sections, and a geological block diagram, all with real topography. This block
diagram made with 2D figures allows a 3D visualization. Palomeque area (Murcia region,
southeastern Spain) has been used as a key-case. This area consists of a deformed Upper
Cretaceous to Oligocene succession belonging to the Internal Zone Malaguide Complex. The
main structure consists of two thrust-fold sheets forming an imbricate system, also affected
by a set of strike-slip faults with a sinistral regime. The constructed maps show a good
agreement with the published classical geological maps and cross-sections
demonstrating the benefits of using these Python applications.},
organization = {Ministerio de Ciencia e Innovación:
[Grant Number PID2020-114381GB-100]},
organization = {semigrupos.ugr.es from University of Granada
and Research Groups FQM-343 of the Junta de Andalucía},
organization = {Research Groups and Projects of the Generalitat
Valenciana-University of Alicante},
publisher = {Informa UK Limited},
keywords = {Python applications},
keywords = {Geological map and vertical sections},
keywords = {Geological block diagram},
title = {3D Visualization of geological structures using Python: the case study of the Palomeque sheets (SE, Spain)},
doi = {10.1080/17445647.2023.2282593},
author = {Bullejos Lorenzo, Manuel and Martín Martín, Manuel},
}