Title: Extreme precipitation events simulation under plausible scenarios of climate change in Satluj River basin, India
Authors: Mohammed Sharif; Muhammad Shahzad Khattak; Raj Kumar Joshi
Addresses: Department of Civil Engineering, Jamia Millia Islamia Central University, New Delhi, India ' Department of Agricultural Engineering, University of Engineering and Technology, Pakistan ' Department of Science and Technology, Government of India, New Delhi, India
Abstract: A K-nearest neighbour weather-generating model is applied to simulate: 1) total precipitation during extreme precipitation events; 2) duration of extreme wet spells; 3) duration of extreme dry spells in the Satluj River basin - a key basin in the central Himalayas under climate change scenarios projected by 15 different combinations of global climate models (GCMs) and emission scenarios. The intent is to assess the vulnerability of the basin to extreme hydrological events, including floods and droughts, resulting from extreme precipitation events. The driving data set for the K-NN model was obtained by applying the precipitation change fields obtained from different combinations of the GCM and emission scenarios to the observed data. Results indicate that several extreme wet and dry spells that were more severe than the observed were simulated. Results of frequency analysis of storm depths indicated that ECHAM5 model under A2 scenario produced the highest one-day precipitation maxima for each return period considered.
Keywords: weather generator; climate change; K-nearest neighbour; KNN; perturbation; Satluj; frequency; India.
DOI: 10.1504/IJHST.2017.087926
International Journal of Hydrology Science and Technology, 2017 Vol.7 No.4, pp.323 - 349
Received: 08 Feb 2016
Accepted: 27 Sep 2016
Published online: 13 Nov 2017 *