Although the effect of the type of

Although the effect of the type of organic amendment on plant
growth and yield was limited, it was of primary importance for the regulation
of water hydrodynamics and nutrient loss. OM amendment reduced
water runoff and leaching, soil detachment and mineral N loss
by runoff and leaching. Among organic amendments, the lowest water
runoff and leaching, soil detachment and mineral N leaching values
were measured for the vermicompost treatment. Improved soil physical
properties after OM amendment have been observed, including more
elongated macropores, which are very important in terms of water conductivity
and water availability to plants and for improved water holding
capacity (Marinari et al., 2000). Since vermicompost is more stable
and resistant to degradation than compost (Ngo et al., 2013; 2014),
this may explain why the water holding capacity and hydraulic conductivity
of soils increased more in the presence of vermicompost than with
compost. The increased plant growth which follows after the incorporation
of organic amendments may also generate higher transpiration
rates which in turn lead to improved plant nutrient and water use effi-
ciency (Delgado and Follett, 2002). This scenario is consistent with the
higher water retention in soil which was amended with vermicompost,
thus suggesting increased water utilization by the maize plants. These
findings agree with results from previous laboratory studies which
found reduced water and nutrient leaching from vermicompost
amended soils (Jouquet et al., 2010, 2011).