dc.description.abstract |
Irrigation technology envisages the development of irrigation systems that
uses water more effectively for plants. The process of subsurface drip irrigation was
conceived with this objective. One of the subsurface irrigation types is the porous
pipe irrigation. This is a relatively new technology and an evaluation is necessary to
assess the suitability for Indian crops and conditions. With this objective, the
discharge evaluation of porous pipe irrigation was done in the laboratory and field
for Amaranthus spp., to find out the moisture distribution and the optimum depth of
installation. The study was conducted at KCAET, Tavanur entitled "Feasibility
Studies on the Use of Precision Porous Pipes for Subsurface Irrigation".
The chosen variety for the field study was Kannara local which was popular
in the region. Three depths of placement of porous pipes were chosen for the study ie
10, 15 and 20 cm with and without sand envelope. The treatments also comprised
paired and double paired row with three replications each. A drip irrigation plot with
two treatments and a control plot were kept for comparing the yield, water use
efficiency and the cost economics.
The type of soil found in the study area was sandy loam. It has a bulk density
of 1.68 gm/cc and the infiltration rate of the soil was 5.2 cm/hr. The coefficient of
variation of the porous pipe was 13.98% and the emission uniformity was 82.60 %.
Among porous pipe treatments, the water use efficiency was highest in the treatment
with sand envelope and paired row planting at the depth of placement 20 cm. The
water use efficiency of drip irrigated treatment for double paired row planting was
higher than that for porous pipe irrigated treatments.The average distribution efficiency of porous pipe in the field was 86.72%,
24 hours after irrigation and that of drip irrigation was 76.2 %. The optimum
operating pressure for porous pipe irrigation system under field conditions was found
to be 0.2 kg/cm 2 when the discharge was a minimum with less energy requirement.
The discharge in the field under this condition was 1.27 lph/m.
From the statistical analysis, we find that there is no significant difference in
yield between the treatments with and without sand envelope. Hence we conclude
that for amaranthus, sand envelope is not essential in sandy loam soil. The maximum
yield of Amaranthus was obtained from porous pipe irrigation from 20 cm depth of
spacing with sand envelope in paired row planting in sandy loam soil.
The cost of installation of different irrigation systems was evaluated. It was
found that the porous pipe irrigation with paired row spacing incurred the maximum
expenditure. |
en_US |