Abstract:
The aim of this paper was to quantify the impact on soil quality induced by three tillage regimes: conventional tillage
with plough at depths of 20 cm (CT), tillage with chisel plough (MT) and direct drilling (NT). Soil physical properties
measured were aggregate size distribution (DSAS) and stability soil (WSA), soil water retention characteristics, soil
organic carbon (OC) and total N content (Ntot), under local climatic conditions.
The experiment was conducted in the north-east of Romania at the Ezăreni experimental farm of the University of
Agricultural Sciences and Veterinary Medicine Iaşi, during 2007-2009, in a cropping systems, viz., rape - wheat
(Brasica napus – Triticum aestivum). Soil samples were collected (0-10; 10-20; 20-30 cm) from all treatments and
separated into six aggregate size classes for assessing proportions of macro- (5-8; 2-5; 1-2; 0,5-1; 0,25-0,5 mm) and
micro- (< 0,25 mm) aggregates by dry sieving.
Tillage treatments significantly influenced water stable aggregates (WSA) and distribution of soil aggregate size
(DSAS). For 0-10 cm WSA and distribution of macro-aggregates (> 0,25 mm) were observed greater for CT that in
others tillage treatments. Under this depth the relative proportion of macro-aggregates was more in NT. Those two
physical properties increased with increase in sol depth and also from sowing time till wheat maturity. For the depth
0-30 cm, the higher organic carbon and total N concentration were found in NT treatment. The data obtained indicate
the importance of NT in improving the soil quality
