Abstract:
To conserve soil fertility and prevent erosion, soil management regimes based on reduced tillage are highly suited to
integrated production systems. Tillage effects on soil properties are usually site specific and depend upon the interaction
of soil and climatic conditions, with soil and crop management practices. Field experiment were carried out in 2010-
2012 at The Experimental Farm of the Agricultural University of Iasi, in the NE of Romania (47o
07’ N latitude,
27o
30’E longitude), on a cambic chernozem (SRTS-2003, or haplic chernozems WRB-SR, 1998), with a clay-loamy
texture, 6.8 pH, 2.7% humus content and a medium level of fertilization. Long-term amount of precipitation at this site
is 517.8 mm at an average air temperature of 9.4oC. However, significant deviations from the long term average and
temperature have been observed in recent years. The aim of this study is to evaluate the influence of tillage on soil
structure and yield in the pedoclimatic conditions of the Moldavian Plain. The experimental soil tillage systems were as
follows: V1 – disc harrow , V2 – paraplow, V3 – chisel plow + rotary harrow, V4 – plough at 20 cm and V5 – plough at
30 cm (control variant). One of the main objectives for the soil tillage system was to create an optimal physicochemical
state of the soil and to preserve this state over the whole vegetation period. Tillage systems significantly affected the
maize yield. In Moldavian plain, in normally climatic conditions, the highest yield was recorded in the control
treatment, plough at 30 cm and fertilized (9471 kg ha-1
), followed by conservation tillage – chisel (9054 kg ha-1
), but
under water stress (2011-2012) we observed that the highest yields was at minimum tillage variants (chisel 3956 kg ha1
, paraplow 3918 kg ha-1
).
