Abstract:
Agriculture and mining are two key industries that govern the growth of the socio-economic
systems of a country. Detrimental effects on the socio-environment during mining activities are
unavoidable. Hence, a proper balance between social, environmental, and economic aspects
needs to be promoted in mining industries. Developing robust real-time monitoring systems
will prevent overexploitation of resources, negative impact on the socio-environmental system,
illegal mining activities, and abandoned mines without proper reclamation. This study aims to
recommend utilising no-cost satellite data to assess effects on the environment due to mining.
Further, the machine learning approach in this study is expected to lead to an autonomous realtime monitoring mechanism. Based on accessibility and stakeholder interest, a cluster of
abandoned and operating quarry sites in the Anuradhapura District, Sri Lanka, was selected as
the study area. Freely available high spatial resolution satellite images were obtained from
Google Earth and Copernicus Open Access Hub (Sentinel 2 satellite data). Imageries acquired
were subjected to object-based land cover classification. Machine learning algorithms, namely,
Decision Tree, Random Forest, and Support Vector Machine, were used in the classification
process. The best performing algorithm in land cover classification was chosen for multitemporal analysis of the area of interest. In addition, false colour composites and spectral
indices were generated using Sentinel 2 images to differentiate human-induced negative
impacts and natural changes. The results show that Support Vector Machine outperformed other
algorithms in classifying land cover near mining areas. Further, multitemporal analysis of land
cover changes using this algorithm implies autonomous monitoring using satellite data was
viable. Additionally, auxiliary information such as false colour composites and spectral indices
confirmed that the increased proportion of water bodies in the area was due to leaving the
abandoned mines without proper rehabilitation. This study provides evidence that the fusion of
machine learning based classification with spectral indices helps develop robust monitoring
systems.