Enhancing fungal diversity in ex-coal mine soils through tillage and organic waste

Zainudin, Roeswitawati D, Sutanto A, Ikhwan A, Kesumaningwati R. 2025. Enhancing fungal diversity in ex-coal mine soils
through tillage and organic waste. Biodiversitas 26: 3516-3527. This study investigates the effects of tillage depth, urban organic waste
application, and incubation period on fungal diversity in soils from former coal mining sites in Samarinda, East Kalimantan, Indonesia.
Using a Box-Behnken design within Response Surface Methodology (RSM), three factors, tillage depth (5-15 cm), incubation period
(60-120 days), and organic waste application (20-60 tons ha⁻¹) were tested across 17 treatment combinations. Fungal populations were
quantified using Potato Dextrose Agar (PDA) through serial dilution and colony counting. Fungal richness increased significantly with
incubation time: four species were found at 60 days (Rhizoctonia sp., Aspergillus fumigatus Fresen., Chrysonilia sp., Aspergillus niger
Tiegh.); six at 90 days (Aspergillus flavus Link, A. fumigatus, A. niger, Gliocladium sp., Trichoderma sp., Penicillium sp.); and seven at
120 days (A. flavus, A. fumigatus, Rhizoctonia sp., A. niger, Gliocladium sp., Trichoderma sp., Colletotrichum sp.). Diversity indices
also improved with time. At 60, 90, and 120 days, Shannon-Wiener index (H) values were 1.369, 1.691, and 1.846 (medium),
dominance (D) values were 0.259, 0.197, and 0.174 (low), and Margalef indices (Dmg) were 1.365, 1.698 (low), and 2.502 (medium).
Evenness values ranged from 0.944 to 0.987, indicating an almost even fungal distribution. Statistical analysis revealed that only the
incubation period significantly affected fungal population density (p < 0.05), while tillage depth (p = 0.3654) and organic waste
application (p = 0.6662) did not. The resulting regression model was: Total fungal colony = 10.24 + 2.12A + 5.63B + 1.0000C. This
study contributes novel insights into the integrated effects of soil management practices on fungal diversity in tropical post-mining soils
an area previously underexplored. The application of RSM allowed optimization of interacting variables. The findings reinforce the
ecological role of fungi as bioindicators and agents for soil restoration, emphasizing incubation duration as a key driver in enhancing
microbial recovery for sustainable land reclamation.