Comparative analysis of manual and digital approaches for extracting geological hiatuses. A case study from China

Dynamic topography is a crucial geodynamic observable that emerges as a consequence of flow in the mantle. Buoyancies associated with mantle convection induce vertical deflections at the Earth’s surface. Negative surface deflections create depositional environments and allow sedimentation to occur, while positive surface deflections create erosional/non-depositional environments, that induce gaps (hiatuses) in the geological record. The temporal and spatial extent of these gaps can be mapped using geological maps and regional studies, thus providing a means of tracking mantle processes through geological time. Here, we compare a manual and digital extraction of hiatus distributions in China. We utilise a manually compiled dataset of un/conformable contacts from a previous publication and compare it to a digital contact extraction using the recently published digital geological map of China. The digital approach is limited to surface data, whereas the manual approach allows the utilisation of subsurface information. We find that the digital approach is substantially faster than the manual extraction. Our results indicate that the optimal methodology combines digital processing with refinement of manual subsurface information. Furthermore, we observe that mapping the absence and presence of a geological series shows very similar results when processed using either approach. The current limitation to a wider application of this approach is the limited availability of digital geological maps. A standardised digital database of geological maps enhanced with subsurface information (i.e., covered geological maps) is necessary to promote the use of geological data within the wider Earth science community, and would increase the opportunities for interdisciplinary collaboration.

@article{id3102,
  author = {Vilac{\'\i}s, Berta and Carena, Sara and Hayek, Jorge N. and Robl, Gabriel  and Bunge, Hans-Peter and Ma, Jincheng},
  doi = {10.1016/j.jsg.2025.105565},
  journal = {Journal of Structural Geology},
  language = {en},
  number = {C},
  pages = {105565},
  title = {Comparative analysis of manual and digital approaches for extracting geological hiatuses. A case study from China},
  url = {https://www.sciencedirect.com/science/article/pii/S0191814125002408},
  volume = {202},
  year = {2025},
}

%O Journal Article
%A Vilacís, Berta
%A Carena, Sara
%A Hayek, Jorge N.
%A Robl, Gabriel 
%A Bunge, Hans-Peter
%A Ma, Jincheng
%R 10.1016/j.jsg.2025.105565
%J Journal of Structural Geology
%G en
%N C
%P 105565
%T Comparative analysis of manual and digital approaches for extracting geological hiatuses. A case study from China
%U https://www.sciencedirect.com/science/article/pii/S0191814125002408
%V 202
%D 2025