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A platform for research: civil engineering, architecture and urbanism
Identification of critical watershed using hydrological model and drought indices: a case study of upper Girna, Maharashtra, India
The analysis of runoff and drought is very crucial in the semi-arid ungauged catchment. This research quantifies the characteristics of the meteorological and hydrological drought using the hydrological model and drought indices in the upper Girna subbasin, Nashik, India. In order to identify critical watershed, the semi-distributed Soil and Water Assessment (SWAT) model, Reconnaissance drought index (RDI) and Streamflow drought index (SDI) are adopted in the analysis. To achieve this, the SWAT model is calibrated (1981–2000) and validated (2001–2010) with the observed net inflow of the Girna dam on a monthly scale. Further, the calibration of the developed model was performed using SUFI-2 algorithm. The runoff generated from the calibrated SWAT model is used to find the hydrological drought behaviour at a watershed scale. The present research can be a valuable resource for government agencies and local stakeholders in terms of identification of the critical watershed in the semiarid ungauged region to improve the integrated water resource management. Also, the outcome based upon runoff and drought responses can be a stepping stone to reduce the drought impact and to finalise the mitigation measures, water harvesting schemes in an ungauged semiarid river catchment.
Identification of critical watershed using hydrological model and drought indices: a case study of upper Girna, Maharashtra, India
The analysis of runoff and drought is very crucial in the semi-arid ungauged catchment. This research quantifies the characteristics of the meteorological and hydrological drought using the hydrological model and drought indices in the upper Girna subbasin, Nashik, India. In order to identify critical watershed, the semi-distributed Soil and Water Assessment (SWAT) model, Reconnaissance drought index (RDI) and Streamflow drought index (SDI) are adopted in the analysis. To achieve this, the SWAT model is calibrated (1981–2000) and validated (2001–2010) with the observed net inflow of the Girna dam on a monthly scale. Further, the calibration of the developed model was performed using SUFI-2 algorithm. The runoff generated from the calibrated SWAT model is used to find the hydrological drought behaviour at a watershed scale. The present research can be a valuable resource for government agencies and local stakeholders in terms of identification of the critical watershed in the semiarid ungauged region to improve the integrated water resource management. Also, the outcome based upon runoff and drought responses can be a stepping stone to reduce the drought impact and to finalise the mitigation measures, water harvesting schemes in an ungauged semiarid river catchment.
Identification of critical watershed using hydrological model and drought indices: a case study of upper Girna, Maharashtra, India
Ramkar, Preeti (author) / Yadav, S.M. (author)
ISH Journal of Hydraulic Engineering ; 27 ; 471-482
2021-11-02
12 pages
Article (Journal)
Electronic Resource
Unknown
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