Turk, YilmazBalaban, Berkan2025-10-112025-10-1120250104-7760https://doi.org/10.1590/01047760202531013473https://hdl.handle.net/20.500.12684/21684Background: Mining has a long history and significantly impacts national economies, but it also causes considerable environmental damage. Forest areas are particularly affected, and sustainable management practices are essential for natural resource utilization. Effective rehabilitation of openpit mining sites is crucial before, during, and after mining operations This study focuses on the rehabilitation process of an open-pit mining site located at the boundary of mountainous forest areas. Landform (slope geometries) measurements and boundary checks were conducted using the UAV-based PPK method. UAV flights were conducted at two different times over a period of approximately seven months. Orthophoto images and DEMs from both flights were used to measure slope width, height, and angle, and to monitor boundary violations during the rehabilitation process. The calculation of slope geometry values was performed using ArcGIS software. Results: Results indicate that the quarry area expanded by 1,044 m2, its perimeter increased by 25 meters, and the slope grade changed over the seven months. According to the results of the first and second flights, the average slope width, height, and angle were 7.39 m, 12.45 m, and 83.46 degrees, respectively, in the first flight, and 16.09 m, 13.33 m, and 40.48 degrees, respectively, in the second flight. Additionally, no boundary violations of the quarry were detected. Conclusions: The UAV-based PPK method effectively prevented data loss in rugged and difficultto-access quarry areas. This study demonstrates that public administration can use UAV systems to monitor and control rehabilitation works during and after mining activities.en10.1590/01047760202531013473info:eu-repo/semantics/openAccessRehabilitationPPK ModeSlope GeometryField SurveyT & uuml;rkiyeArticle312-s2.0-105008231592WOS:001537478100001Q3Q3