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Frequency Analysis of Precipitation Anomaly Percentage and Stream Flow Drought Using Copula Functions | ||
| Water Harvesting Research | ||
| دوره 5، شماره 2 - شماره پیاپی 8، شهریور 2022، صفحه 168-176 اصل مقاله (1.09 M) | ||
| نوع مقاله: Research Paper | ||
| شناسه دیجیتال (DOI): 10.22077/jwhr.2023.6182.1078 | ||
| نویسندگان | ||
| Mohammad Nazeri Tahroudi* ؛ Rasoul Mirabbasi | ||
| Department of Water Engineering, Shahrekord University, Shahrekord, Iran | ||
| چکیده | ||
| The purpose of this research is to joint frequency analyze of precipitation anomaly percentage as a meteorological drought index and flow rate at Chalekhmaz station located in the Zarinerood basin at south of Lake Urmia in the period of 1995-2016, which is based on the duration of the mentioned indicators. The results of the analysis of investigated copula functions in Zarinerood basin showed that, based on evaluation criteria, Frank's copula function describes well the dependence between two variables of the duration of anomaly percentage and the duration of hydrological drought. In Chalekhmaz station, the expectation of drought duration of 4 to 7 months for the hydrological variable and 9 to 12 months for the meteorological variable in the coming years is not far from reality. The results of the study of the return period of drought characteristics showed that in the case of the frequency of the stream flow drought index, the return period also increases with the increase in the severity of the drought. The joint frequency analysis of drought characteristics shows how meteorological and hydrological drought characteristics can be determined simultaneously in one station by using joint probabilities. This can provide users and researchers with very useful information related to the probable behavior of drought characteristics in order to optimally use of surface water. For the duration of a certain meteorological drought in a station, the duration of the hydrological drought in the hydrometric station can be determined based on the conditional probability of occurrence and also certain return periods. | ||
| کلیدواژهها | ||
| Bivariate Copula؛ Drought؛ Precipitation؛ Return period؛ Trend | ||
| مراجع | ||
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Abdi, A., Hassanzadeh, Y., Talatahari, S., Fakheri-Fard, A., & Mirabbasi, R. (2017). Regional bivariate modeling of droughts using L-comoments and copulas. Stochastic Environmental Research and Risk Assessment, 31, 1199-1210. Ahangi, G., Khalili, K., & Nazeri Tahroudi, M. (2023). Frequency analysis and joint simulation of qualitative variables of river flow using copula functions. Water Harvesting Research, 5(1): 131-143. Chebana, F., & Ouarda, T. B. (2009). Index flood–based multivariate regional frequency analysis. Water Resources Research, 45(10). Chen, L., Singh, V. P., Shenglian, G., Hao, Z., & Li, T. (2012). Flood coincidence risk analysis using multivariate copula functions. Journal of Hydrologic Engineering, 17(6), 742-755. Dastourani, M., & Nazeri Tahroudi, M. (2022). Toward coupling of groundwater drawdown and pumping time in a constant discharge. Applied Water Science, 12(4), 74. De Michele, C., Salvadori, G., Canossi, M., Petaccia, A., & Rosso, R. (2005). Bivariate statistical approach to check adequacy of dam spillway. Journal of Hydrologic Engineering, 10(1), 50-57. Favre, A. C., El Adlouni, S., Perreault, L., Thiémonge, N., & Bobée, B. (2004). Multivariate hydrological frequency analysis using copulas. Water resources research, 40(1). Genest, C., Favre, A. C., Béliveau, J., & Jacques, C. (2007). Metaelliptical copulas and their use in frequency analysis of multivariate hydrological data. Water Resources Research, 43(9). Joe, H. (1997). Multivariate models and multivariate dependence concepts. CRC Press Kao, S. C., & Govindaraju, R. S. (2008). Trivariate statistical analysis of extreme rainfall events via the Plackett family of copulas. Water Resources Research, 44(2). Khashei, A., Shahidi, A., Nazeri-Tahroudi, M., & Ramezani, Y. (2022). Bivariate simulation and joint analysis of reference evapotranspiration using copula functions. Iranian Journal of Irrigation & Drainage, 16(3), 639-656. Khashei‐Siuki, A., Shahidi, A., Ramezani, Y., & Nazeri Tahroudi, M. (2021). Simulation of potential evapotranspiration values based on vine copula. Meteorological Applications, 28(5), e2027. Mirabbasi, R., Anagnostou, E. N., Fakheri-Fard, A., Dinpashoh, Y., & Eslamian, S. (2013). Analysis of meteorological drought in northwest Iran using the Joint Deficit Index. Journal of Hydrology, 492, 35-48. Mirabbasi, R., Fakheri-Fard, A., & Dinpashoh, Y. (2012). Bivariate drought frequency analysis using the copula method. Theoretical and Applied Climatology, 108(1-2), 191-206. Mirakbari, M., Ganji, A., & Fallah, S. R. (2010). Regional bivariate frequency analysis of meteorological droughts. Journal of Hydrologic Engineering, 15(12), 985-1000. Nalbantis, I., & Tsakiris, G. (2009). Assessment of hydrological drought revisited. Water resources management, 23, 881-897. Nazeri Tahroudi, M., Ramezani, Y., De Michele, C., & Mirabbasi, R. (2022). Application of copula‐based approach as a new data‐driven model for downscaling the mean daily temperature. International Journal of Climatology. Nazeri Tahroudi, M., Ramezani, Y., De Michele, C., & Mirabbasi, R. (2021). Flood routing via a copula-based approach. Hydrology Research, 52(6), 1294-1308. Nazeri Tahroudi, M., Ramezani, Y., De Michele, C., & Mirabbasi, R. (2020). A new method for joint frequency analysis of modified precipitation anomaly percentage and streamflow drought index based on the conditional density of copula functions. Water Resources Management, 34, 4217-4231. Pronoos Sedighi, M., Ramezani, Y., Nazeri Tahroudi, M., & Taghian, M. (2022). Joint frequency analysis of river flow rate and suspended sediment load using conditional density of copula functions. Acta Geophysica, 1-13. Ramezani, Y., Nazeri Tahroudi, M., De Michele, C., & Mirabbasi, R. (2023). Application of copula-based and ARCH-based models in storm prediction. Theoretical and Applied Climatology, 1-17. Salvadori, G., & De Michele, C. (2007). On the use of copulas in hydrology: theory and practice. Journal of Hydrologic Engineering, 12(4), 369-380. Shiau, J. T., Wang, H. Y., & Tsai, C. T. (2006). Bivariate frequency analysis of floods using copulas1. JAWRA Journal of the American Water Resources Association, 42(6), 1549-1564. Sklar, M. (1959). Fonctions de repartition an dimensions et leurs marges. Publ. inst. statist. univ. Paris, 8, 229-231. Sung, J. H., Ryu, Y., & Chung, E. S. (2022). Multivariate Frequency Analysis for Streamflow Drought Having Different Time Resolution Using Archimedean Copula Functions. KSCE Journal of Civil Engineering, 26(4), 2013-2021. Tabatabaei, S. M., Dastourani, M., Eslamian, S., & Nazeri Tahroudi, M. (2022). Ranking and optimizing the rain-gauge networks using the entropy–copula approach (Case study of the Siminehrood Basin, Iran). Applied Water Science, 12(9), 214. Xu, P., Wang, D., Wang, Y., & Singh, V. P. (2022). A Stepwise and Dynamic C-Vine Copula–Based Approach for Nonstationary Monthly Streamflow Forecasts. Journal of Hydrologic Engineering, 27(1), 04021043. Yang, X., Chen, Z., & Qin, M. (2023). Joint probability analysis of streamflow and sediment load based on hybrid copula. Environmental Science and Pollution Research, 1-14. Zhang, D. D., Yan, D. H., Lu, F., Wang, Y. C., & Feng, J. (2015). Copula-based risk assessment of drought in Yunnan province, China. Natural Hazards, 75, 2199-2220. Zhang, Q., Li, J., Singh, V. P., & Xu, C. Y. (2013). Copula‐based spatio‐temporal patterns of precipitation extremes in China. international Journal of Climatology, 33(5), 1140-1152. Zhang, Q., Singh, V. P., Li, J., & Chen, X. (2011). Analysis of the periods of maximum consecutive wet days in China. Journal of Geophysical Research: Atmospheres, 116(D23). | ||
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