A multistage algorithm to generate a predictive porphyry intrusion evidential map with low uncertainty for mineral prospectivity mapping, case study in Pariz Area, Iran

• Published in: Journal of applied geophysics Vol. 233; p. 105637
• Main Authors: Elyasi, Gholam-Reza, Bahroudi, Abbas, Abedi, Maysam
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.02.2025
• Subjects: Magnetic signature; Mineral prospectivity mapping; Multistage algorithm; Pariz; Porphyry intrusion evidential map; Multistage algorithm; Mineral prospectivity mapping; Magnetic signature; Porphyry intrusion evidential map; Pariz
• ISSN: 0926-9851
• DOI: 10.1016/j.jappgeo.2025.105637

The quest for creating more reliable evidential maps with elevated prediction accuracy and minimal uncertainty remains a formidable challenge in mineral prospectivity mapping (MPM), particularly in the case of covered or concealed deposits. This study introduces a multistage algorithm to generate a predictive porphyry intrusion evidential map using magnetic data. Rooted in the formation model of porphyry copper deposits (PCDs), the algorithm encompasses several key steps: (1) initiating with a radial symmetry transformation to detect circular geological features (i.e., porphyry intrusions), (2) none-minimum suppression of circularity responses and thresholding to identify the center of these features, (3) amplitude contrast transformation to highlight the extent of the features, and finally (4) employing the active contour algorithm to determine the size and geometry of probable porphyry targets. Implemented on aeromagnetic data from the Pariz region in southeastern Iran, the results were evaluated by location of previously known PCDs and 3D Cu isoshells derived from exploratory boreholes. Remarkably, all six known deposits in the area were identified, alongside the discovery of a new porphyry copper deposit, boasting 2847 MT with a copper grade of 0.42 %. Additionally, five new prospective targets that may serve as fertile environments for porphyry mineralization were proposed for further exploration. The results demonstrated that the proposed algorithm significantly enhances MPM of PCDs by effectively narrowing the exploration search space, delineating 20 % (126 of 629 km2) of the study area as prospective targets. Furthermore, the findings indicate that the magnetic signatures of PCDs on the generated map are notably sharper than those on the original reduction to pole map, affirming the algorithm's efficacy in delineating buried porphyry copper deposits. [Display omitted] •A multistage algorithm for processing of aeromagnetic data.•Investigating the magnetic signature of porphyry copper deposits.•Generating porphyry intrusion evidential map with high prediction rate and low level of uncertainty.•Decreasing the exploration search space for mineral prospectivity mapping.•Efficient tools for delineating the magnetic signature of covered and deep targets.