Objectives:The current research assessed the patterns of precipitation and discharge in the Sagar and Kokkarne catchments in the Western Ghats of Karnataka. Methods: Soil and Water Assessment Tool (SWAT) model was used to find the discharge at the outlets of the catchments. The yearly precipitation and discharge patterns of both the catchments were studied using data from observed data (1991 to 2020) and the projected data (2021-2050). Considering the IMD data (1991-2020) as the reference data, the percentage change in precipitation and discharge were calculated. Findings: For the Sagar catchment, the maximum percentage change in precipitation and discharge were projected to be 24.79 % and 53.71 %, and the minimum percentage change in precipitation and discharge were projected to be -20.29 % and -41.65 %. For the Kokkarne catchment, the maximum percentage change in precipitation and discharge were projected to be 31.30 % and 42.92 %, and the minimum percentage change in precipitation and discharge were projected to be -18.22 % and -16.98 %. In both the catchments, the increase or decrease in precipitation has led to corresponding changes in the discharge of the catchment. Novelty: This present work tries to project and compare the precipitation and discharge patterns in two catchments belonging to two varied river flow regimes in the Western Ghats of Karnataka to establish how the changing climate is affecting the hydrology of the catchments. As the precipitation varies in intensity throughout time and space and Indian agriculture relies heavily on precipitation, the present study can help in formulating water resource management techniques.
Objectives: Precipitation is a major component of the hydrological cycle. Precipitation varies in intensity throughout time and space. The discharge at the outlet of the catchment is directly proportional to the precipitation received in the catchment. The current research looks at the precipitation as well as discharge patterns in the Sagar and Kokkarne catchments in the Western Ghats of Karnataka, India. Methods: In the present research, the soil water assessment tool (SWAT) has been applied to monitor and quantify the streamflow of the Sagar and Kokkarne catchments. Precipitation and discharge analysis for the period of 2021-2050 for both of the catchments is carried out. The seasonal and yearly discharge patterns of the catchments were studied using the Coordinated Regional Downscaling Experiment-South Asia data for the RCP 4.5 scenario for the period 2021-2050. Findings: During the Southwest monsoon and Northeast Monsoon, about 81.44 % and 14.22 % of the precipitation in Sagar catchment and about 87.34 % and 6.93 % of the precipitation in Kokkarne catchment were obtained respectively. The contribution of the Southwest Monsoon in both the catchment is greatest, followed by the Northeast monsoon. During the period 2021-2050, less than 80 % probability of discharge is expected for 23 years and more than 20 % probability of discharge is expected for 4 years. The maximum discharge expected in Sagar and Kokkarne catchments are 16.96 m 3 /sec and 213.87 m 3 /sec respectively. Novelty: The patterns of the precipitation and discharge of two different catchments on each side of the Western Ghats of Karnataka are compared in the current study to understand the impact of climate change on catchment hydrology in these regions.
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