Ekanayake, S.N.B.Premarathna, M.Warnakulasooriya, W.M.K.D.S.Seneviratne, G.2025-11-182025-11-182021-10-29Proceedings of the Postgraduate Institute of Science Research Congress (RESCON) -2021, University of Peradeniya, P 85978-955-8787-09-0https://ir.lib.pdn.ac.lk/handle/20.500.14444/6763Being one of the essential macronutrients for plants, potassium (K) plays a vital role in plant growth and health. In organic agriculture, we cannot use any chemical inputs; therefore, K-rich minerals like K-feldspar will be suitable for replacing muriate of potash (MOP). Unfortunately, K-feldspar is not capable of releasing a sufficient amount of K due to its lower solubility. In the present study, K-feldspar was treated with a biofilm formulation (BF) developed from soil fungi and bacteria to form a bio-mineral fertilizer, i.e. Biofilm-feldspar, and analyzed for its solubility. Here, six treatments viz. (a) feldspar, (b) Biofilm-feldspar, (c) autoclaved (121 °C) Biofilm-feldspar, (d) heat-treated (200 °C) Biofilm-feldspar, (e) MOP, and (f) control (no fertilizer) were compared in a leaching column experiment up to four weeks. Results show that the Biofilm-feldspar released K (ca. 100 ppm) comparable to MOP at the end of four weeks, indicating a potential to replace MOP. In addition, the solubility of Biofilm-feldspar was further increased with the heat treatment. The highest release of K (ca. 115 ppm) was observed in feldspar heated at 200 °C followed by BF treatment. From the heat treatment, microscale cracks might have formed and facilitated the microbial action on the mineral structure. The study revealed the potential of using Biofilm-feldspar as a bio-mineral fertilizer in agriculture. However, further studies should be conducted to evaluate Biofilm-feldspar in soil-plant systems under farmers’ field conditions.en-USBiofilm formulationBio-mineral fertilizerPotassium feldsparArticle