2.4. Field saturated hydraulic cond

2.4. Field saturated hydraulic conductivity
The simplified falling head (SFH) technique was used to
determine the
field saturated soil hydraulic conductivity, Kfs
(Bagarello et al., 2004; Bagarello et al., 2014a). The SFH technique
consists of quickly pouring a known volume of water, V (L3), on the
soil confined inside a ring inserted at a
fixed depth into the soil, d
(L) and measuring the time, ta (T), necessary for the poured
volume, Du (equal to the volume of water equivalent to the
difference us

ui), to fully seep through to the surface area, A (L2). A
choice of the most suitable a* parameter that gives an account of
soil texture/structure, may be estimated according to Elrick and
Reynolds (1992). More details about the original procedure can be
found in the paper by Bagarello et al. (2004). However, since we
used the SFH technique for soil cylinders, a depth equal to the
length of the TDR probe (15 cm) was considered in our onedimensional
infiltration experiment. This depth and the method
used for measuring the soil water content (TDR rather than
thermogravimetric), were the only changes made to the original
procedure reported by Bagarello et al. (2004). Visual inspection of
the soil surface before each infiltration ensured that there were no
preferential pathways, especially at the interface with the edge of
the cylinder. When necessary, the weeds which had grown in the
cylinders were cut down to their base with scissors, while the roots
remained in the soil.