Communications in Science and Technology
Vol 11 No 1 (2026)

Integrated GEE–ERT–XRF framework for detecting in-situ rare oxide formation in tropical lowland clays

Uyu Saismana (Department of Geological Engineering, Lambung Mangkurat University, Banjarbaru 70714, Indonesia
Environmental Science Doctoral Program, Lambung Mangkurat University, Banjarmasin 70123, Indonesia)

Agus Mirwan (Department of Chemical Engineering, Lambung Mangkurat University, Banjarbaru 70714, Indonesia)
Sunardi (Department of Chemistry, Lambung Mangkurat University, Banjarbaru 70714, Indonesia)
Suryajaya (Department of Physics, Lambung Mangkurat University, Banjarbaru 70714, Indonesia)
Doni Rahmat Wicakso (Department of Chemical Engineering, Lambung Mangkurat University, Banjarbaru 70714, Indonesia)



Article Info

Publish Date
02 Jul 2026

Abstract

Understanding in-situ rare oxide formation in tropical lowlands remains challenging due to the extensive peat–clay cover and the limited surface accessibility. This study presents a reproducible integrated workflow combining cloud-based hydrographic analysis in Google Earth Engine (GEE), two-dimensional electrical resistivity tomography (ERT), and X-ray fluorescence (XRF) geochemistry to investigate rare oxide occurrence in South Kalimantan, Indonesia. MERIT Hydro data that had been processed within the GEE framework were utilized for the delineation of buried palaeochannel traces. This was followed by ERT profiling and core drilling to characterize the subsurface lithology. XRF analyses indicate Yb2O3 concentrations of 0.01–0.04 wt% and Re2O7 of 0.00–0.08 wt% within clay layers at approximately 3–4 m depth. The results of spatial correlation analysis demonstrate weak relationships between oxide distribution and palaeochannel proximity (|r| < 0.3) but strong positive relationship between resistivity and oxide concentrations (r > 0.75). The results obtained lend significant support to an in-situ formation model, primarily controlled by lithological and geochemical processes as opposed to fluvial transport. The proposed GEE–ERT–XRF workflow offers a preliminary operational framework for detecting subtle, clay-hosted rare oxide signatures in data-limited tropical lowland environments. The findings demonstrate that efficacy of subsurface resistivity as a proxy for identifying geochemical trapping horizons associated with rare oxide enrichment beneath peat–clay cover. The proposed workflow further provides a cost-effective, scalable, and reproducible approach for early-stage mineral exploration and subsurface resource screening in tropical lowland regions where conventional geological mapping is limited by poor surface exposure.

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Journal Info

Abbrev

cst

Publisher

Subject

Engineering

Description

Communication in Science and Technology [p-ISSN 2502-9258 | e-ISSN 2502-9266] is an international open access journal devoted to various disciplines including social science, natural science, medicine, technology and engineering. CST publishes research articles, reviews and letters in all areas of ...