Pitfalls of multiplied 3D landforms projection: mapping deep multilevel cave systems in the Alps (Gamssteig Cave System, Göll Massif)

Authors

Mateusz Golicz, Caving Committee of Polish Mountaineering Association, PolandFollow
Jacek Szczygieł, University of Silesia, PolandFollow

Highlights

• Complex ceilings, floors, and pits require flexible mapping strategies
• LiDAR yields precise 3D data but not inherently readable maps
• Cartographic generalization remains essential for communicative cave maps
• Traditional mapping remains crucial in extensive multi-kilometer systems

Abstract

Cave mapping represents one of the most complex challenges in geomorphological cartography, as it must convey the true three-dimensional geometry of subterranean spaces such as overlapping passages, irregular cross-sections, and variable ceiling and floor morphologies, within a two-dimensional framework. This study examines the methodological and interpretive challenges of cave mapping, utilizing the Gamssteighöhle cave in the Austrian Alps as a case study. During the 11 years of exploration, over 10 km of passages were surveyed using the DistoX vector survey method. Yet, the complex morphological forms necessitated deviations from the standard symbology recommended by the International Union of Speleology. Several key visualization challenges are analyzed, including subvertical pits, overlapping passages, and 3D maze-like networks. Solutions such as multiple projection planes, transparency effects, perpendicular cross-sections, and splitting maps into separate sheets are proposed to maintain readability and spatial context. We evaluate traditional vs. LiDAR-based mapping, concluding that while dense 3D point clouds offer exceptional precision, they do not inherently yield readable or informative maps. Cartographic generalization, with its interpretative input of the cartographer, remains indispensable for transforming spatial data into coherent and communicative cave maps. LiDAR and photogrammetry greatly enhance visualization and quantitative analysis but complement rather than replace traditional mapping.

DOI

https://doi.org/10.5038/1827-806X.ijs2583

Creative Commons License

This work is licensed under a Creative Commons Attribution-Noncommercial-Share Alike 3.0 License.

Recommended Citation

Golicz, M., Szczygieł, J., 2026. Pitfalls of multiplied 3D landforms projection: mapping deep multilevel cave systems in the Alps (Gamssteig cave system, Göll Massif, Austria). International Journal of Speleology, 55(1), ijs2583. https://doi.org/10.5038/1827-806X.ijs2583