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Exploring Soil Hydro-Physical Improvements Under No-Tillage: A Sustainable Approach for Soil Health

G. Mihu, Tudor George Aostăcioaei, Cosmin Ghelbere, Anca Elena Calistru, Denis Țopa, G. Jităreanu

2025Agriculture8 citationsDOIOpen Access PDF

Abstract

No-tillage (NT) is a key practice in conservation agriculture that minimizes soil disturbance, thereby enhancing soil structure, porosity, and overall quality. However, its long-term effects on soil pore networks and hydro-physical functions remain underexplored. This study evaluated the impacts of NT and conventional tillage (CT) on soil hydro-physical properties using undisturbed soil columns, X-ray computed tomography, and standard physical measurements. A field experiment was conducted under an eight-year continuous cropping system, with a four-year rotation [winter wheat (Triticum aestivum L.)—maize (Zea mays L.)—sunflower (Helianthus annuus L.)—peas (Pisum sativum L.)], comparing NT and CT treatments with three replications. Soil parameters including bulk density (BD), moisture content, total porosity (SP), water-stable aggregates (WSA), and saturated hydraulic conductivity (Ksat) were measured. Results showed that NT increased BD (1.45 g/cm3) compared to CT (1.19 g/cm3), likely due to reduced soil disturbance. Moisture content under NT was up to 78% higher than CT. Saturated hydraulic conductivity was also higher in NT, with 17% and 43% increases observed at harvest in 2022 and 2023, respectively, except in the 0–30 cm layer immediately after sowing. Micro-CT analysis revealed a 34–115% increase in macropores (>1025 μm) under NT at 10–40 cm depth. These findings demonstrate that long-term NT improves key soil hydro-physical properties, supporting its integration into sustainable farming systems to balance productivity and environmental stewardship.

Topics & Concepts

Soil healthTillageEnvironmental scienceSoil physicsAgroforestryAgronomySoil scienceAgricultural engineeringSoil organic matterSoil waterEngineeringBiologySoil Management and Crop YieldSoil Carbon and Nitrogen DynamicsSoil erosion and sediment transport