Gravimetric detection of sinkhole hazard at abandoned coal mine Čáry (Slovakia) using Growth inversion – preliminary results
DOI:
https://doi.org/10.31577/congeo.2026.56.1.4Keywords:
near surface geophysics; 3D microgravimetry; inverse problem; subsurface voids; growing source bodies; sinkhole hazardAbstract
Microgravimetry has been used in near surface investigations for detecting cavities. It has already proven its success in revealing unknown crypts and tombs in archaeological prospection. It was involved in searching for new cave spaces in karst. It was also employed in detecting void spaces in shallow-mining areas to mitigate sinkhole hazard. In our study we focus on the applicability, benefits and limitations of using the 3D Growth inversion approach for inverting the high-resolution high-precision micro-gravity data observed in undermined areas with the purpose of detecting shallow void space that could lead to sinkhole development, slow surface subsidence or collapses. Growth inversion has several free, user-specified inversion parameters that shape the Growth solution. Our case study presented here is related to sinkhole hazard due to abandoned shallow brown-coal mining under fields with agricultural activities. We pay attention to tuning these parameters for specific needs of cavity detection in terms of long and narrow shallow mining shafts.
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Copyright (c) 2026 Jozef Bódi, Peter Vajda, Pavol Zahorec, Roman Pašteka, Juraj Papčo, René Putiška, Bibiana Brixová, José Fernández
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
