Abstract:
The Vembanad Kole Wetland in Kerala, particularly the northern kole
lands, holds ecological importance and is crucial for paddy cultivation due to its
fertile, nutrient-rich soil. However, managing seasonal flooding and water
resources presents significant challenges. This study, conducted in Thrissur’s
North kole lands, used hydrological modelling and spatial analysis to address
these issues. By digitizing 132 padavus in ArcGIS, a spatial map of the kole lands
was created, allowing estimation of accumulated runoff volumes based on water
levels, spatial maps and DEM data. The Enamakkal and Idiyanchira regulators,
which manage outflows from the kole lands, were incorporated into simulation
and optimization models due to a lack of operational policies. Kole lands were
classified into three zones based on elevation and a zone-wise dewatering
schedule and crop calendar were prepared. New cropping patterns were proposed
for crop calendar and corresponding two optimization models were developed for
the regulators to minimize water deficit for cultivation. The study estimated a
maximum runoff accumulation volume of 122.67 Mm³, with canal storage
capacities between 29.0 and 53.86 Mm³ in 2022. Zone classification covered
35.65% (Zone -I), 36.13% (Zone- II), and 28.25% (Zone- III) of the total area.
Field surveys in 2022 revealed that 197 petti and para, 50 vertical submersible
pumps, and 16 vertical propeller pumps in present in Thrissur north kole. Based
on the available pump capacities and accumulated runoff volume, a zone-wise
dewatering schedule was developed for the kole lands, with the required
dewatering time ranging from 0 to 20 days. Crop Calendar 1 (August-April) with
a water demand of 135.67 Mm³, and Crop Calendar 2 (September-April) requiring
175.28 Mm³ were estimated using CROPWAT. The optimization models reduced
water deficits by 9.84 Mm³ for Crop Calendar 1 and 33.27 Mm³ for Crop Calendar
2. Additionally, it increased canal storage, thereby enhancing water utilization and
supporting sustainable double cropping practices. The study provides valuable
insights for flood control, efficient dewatering, and sustainable crop management
in the kole lands.
