4.7 Article

Assessment of the climate change impacts on flood frequency (case study: Bazoft Basin, Iran)

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Publisher

SPRINGER
DOI: 10.1007/s00477-016-1263-1

Keywords

Climate change; Flood frequency; LARS-WG; WetSpa; IPF; Bazoft Basin Iran

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The present study attempts to investigate potential impacts of climate change on floods frequency in Bazoft Basin which is located in central part of Iran. A combination of four general circulation models is used through a weighting approach to assess uncertainty in the climate projections. LARS-WG model is applied to downscale large scale atmospheric data to local stations. The resulting data is in turn used as input of the hydrological model Water and Energy Transfer between Soil, plants and atmosphere (WetSpa) to simulate runoff for present (1971-2000), near future (2020-2049) and far future (2071-2100) conditions. Results demonstrate good performance of both WetSpa and LARS-WG models. In addition in this paper instantaneous peak flow (IPF) is estimated using some empirical equations including Fuller, Sangal and Fill-Steiner methods. Comparison of estimated and observed IPF shows that Fill-Steiner is better than other methods. Then different probability distribution functions are fit to IPF series. Results of flood frequency analysis indicate that Pearson III is the best distribution fitted to IPF data. It is also indicated that flood magnitude will decrease in future for all return periods.

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