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Bio-Compost-Based Integrated Soil Fertility Management Improves Post-Harvest Soil Structural and Elemental Quality in a Two-Year Conservation Agriculture Practice

M. M. R. JahangirDepartment of Soil Science, Bangladesh Agricultural University, Mymensingh 2202, BangladeshShanta IslamDepartment of Soil Science, Bangladesh Agricultural University, Mymensingh 2202, BangladeshTazbeen Tabara NituDepartment of Soil Science, Bangladesh Agricultural University, Mymensingh 2202, BangladeshShihab UddinDepartment of Soil Science, Bangladesh Agricultural University, Mymensingh 2202, BangladeshAbul Kalam Mohammad Ahsan KabirDepartment of Animal Science, Bangladesh Agricultural University, Mymensingh 2202, BangladeshMohammad Bahadur MeahDepartment of Plant Pathology, Bangladesh Agricultural University, Mymensingh 2202, BangladeshK. R. IslamSoil, Water and Bioenergy Resources, The Ohio State University South Centers, Piketon, OH 45661, USA
2021en
ABI

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The impacts of integrated soil fertility management (ISFM) in conservation agriculture need short-term evaluation before continuation of its long-term practice. A split-split plot experiment with tillage (minimum tillage, MT vs. conventional tillage, CT) as the main plot, residue (20% residue, R vs. no residue as a control, NR) as the sub-plot, and compost (Trichocompost, LC; bio-slurry, BS; and recommended fertilization, RD) as the sub-sub plot treatment was conducted for two consecutive years. Composite soils were collected after harvesting the sixth crop of an annual mustard-rice-rice rotation to analyze for nutrient distribution and soil structural stability. The LC increased rice equivalent yield by 2% over RD and 4% over BS, and nitrogen (N) uptake by 11% over RD and 10% over BS. Likewise, LC had higher soil organic carbon (SOC), N, and available sulphur (S) than BS and RD. Conversion of CT to MT reduced rice equivalent yield by 11%, N uptake by 26%, and N-use efficiency by 28%. Conversely, soil structural stability and elemental quality was greater in MT than in CT, indicating the potential of MT to sequester C, N, P, and S in soil aggregates. Residue management increased rice yield in the second year by 4% and corresponding N uptake by 8%. While MT reduced the yield, our results suggest that ISFM with Trichocompost and residue retention under MT improves soil fertility and physical stability to sustain crop productivity.

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