Assessing the impact of the no-tillage system on soil physical parameters and water conservation in corn crops

Abstract

This study investigated the impact of two tillage systems, conventional tillage (CT) and no-tillage (NT), on soil physical properties and soil water conservation capacity in an experiment conducted on the Big Island of Braila during two agricultural years (2022–2023). The aim was to evaluate the implications of the NT system on soil physical properties – bulk density (BD), water-stable aggregates (WTS) and soil moisture – compared with the CT system. The designated area, the Big Island of Braila, has specific climatic conditions that make this research of great interest for assessing the possibility of imple-menting NT practice in the future. The results showed that NT significantly improved soil quality, demonstrating higher structural stability and superior water retention in the upper soil layer. Although BD was higher with NT than with CT, it was within the optimal range (1.0– 1.4 g/cm³) without affecting plant growth. CT showed greater BD fluctuation, especially in the surface layers, due to intense mechanical disturbance. For NT, WTS was higher at all depths, with a difference of up to 13.67% compared with CT in the first year. Soil moisture was also higher for NT, especially in the 0–10 cm layer, due to plant residues that reduced evaporation and improved water infiltration.