Affiliation:
1. Department of Natural Resources Engineering, Faculty of Agriculture and Natural Resources, University of Hormozgan, Bandar-Abbas P.O. BOX 3995, Iran
2. Environmental Data Analysis (EDA) Research Center, Faculty of Agriculture and Natural Resources, University of Hormozgan, Bandar Abbas P.O. BOX 3995, Iran
3. Department of Mathematics and Statistics, Faculty of Science, University of Hormozgan, Bandar-Abbas P.O. BOX 3995, Iran
4. Department of Biological and Agricultural Engineering and Zachry, Department of Civil Engineering, Texas A&M University, College Station, TX 77843, USA
Abstract
This study analyzed extreme precipitation events, using daily rainfall data for 1966–2015. A Mann–Kendall trend test was used to evaluate trends in extreme precipitation, copula functions were applied to compute the joint return periods of extreme events, and univariate and bivariate distributions were used to determine risk. The results showed that the decrease in consecutive wet days (CWD) was significant in the west and the northwest of Iran, while the consecutive dry days (CDD) index was increasing therein. The precipitation on more than the 90th percentile (P90) very wet days and annual number of days with precipitation less than the 90th percentile threshold (D90) indices followed similar patterns, with no significant trend in most parts of Iran, but at several stations in the north, west, and northwest, their decline was extreme. Furthermore, the increase of D10 (annual number of days with precipitation less than the 90th percentile threshold) and P10 (total precipitation of D10 of a year) was extreme in the wet regions of Iran, including the north, west, and northwest areas, and also part of the center. More than 50 percent of Iran experienced a low risk level, with a return period of extreme events (CWD, CDD) of more than 27.5 years, and the joint return periods of (D10, D90), (P10, P90), and (D10, P10) pairs were less than 100 years in most regions of Iran. Due to the increasing number of dry days in the north, west, and northwest of Iran, the drought risk increased. Based on the changes in extreme precipitation indices in recent years, the findings of this study will be useful for copula-based frequency analysis under a changing environment at regional and global scales.
Subject
Atmospheric Science,Environmental Science (miscellaneous)
Reference46 articles.
1. Groisman, P.Y., Karl, T.R., Easterling, D.R., Knight, R.W., Jamason, P.F., Hennessy, K.J., and Razuvaev, V.N. (1999). Weather and Climate Extremes, Springer.
2. Copula-based spatio-temporal patterns of precipitation extremes in China;Zhang;Int. J. Climatol.,2013
3. Modeling recent climate change induced extreme events in Bangladesh: A review;Dastagir;Weather Clim. Extrem.,2015
4. Linking synoptic weather types to daily rainfall in Auckland;Jiang;Weather Clim.,2011
5. Changing structure of European precipitation: Longer wet periods leading to more abundant rainfalls;Zolina;Geophys. Res. Lett.,2010