Full Length Research Paper
References
|
Ahmad I, Tang D, Wang T, Wang M, Wagan B (2015). Precipitation Trends over Time Using Mann-Kendall and Spearman’s rho Tests in Swat River Basin, Pakistan. Adv. Meteorol. P 15. doi:10.1155/2015/431860 |
|
|
Alexandersson H (1986). A homogeneity test applied to precipitation data. J. Climatol. 6(6):661-675. |
|
|
Cecinati F, Rico-Ramirez MA, Heuvelink GBM, Han D (2017). Representing radar rainfall uncertainty with ensembles based on a time-variant geostatistical error modelling approach. J. Hydrol. 548:391-405. |
|
|
Deng S, Li M, Sun H, Chen Y, Qu L, Zhang X (2017). Exploring temporal and spatial variability of precipitation of Weizhou Island, South China Sea. J. Hydrol. Regional Stud. 9:183-198. |
|
|
Ding Y (2017). Sea-Level Rise and Hazardous Storms: Impact Assessment on Coasts and Estuaries. In W.-Y. Chen, T. Suzuki, & M. Lackner (Eds.), Handbook of Climate Change Mitigation and Adaptation. Cham: Springer International Publishing. pp. 621-656 |
|
|
Diodato N, Ceccarelli M (2005). Interpolation processes using multivariate geostatistics for mapping of climatological precipitation mean in the Sannio Mountains (southern Italy). Earth Surf. Process. Landforms 30(3):259-268. |
|
|
Guan Y, Zheng F, Zhang X, Wang B (2017). Trends and variability of daily precipitation and extremes during 1960-2012 in the Yangtze River Basin, China. Int. J. Climatol. 37(3):1282-1298. |
|
|
Ishida K, Kavvas ML (2017). Climate change analysis on historical watershed-scale precipitation by means of long-term dynamical downscaling. Hydrol. Process. 31(1):35-50. |
|
|
Javari M (2016). Trend and Homogeneity Analysis of Precipitation in Iran. Climate 4(3):44. |
|
|
Javari M (2017a). Assessment of Temperature and Elevation Controls on Spatial Variability of Rainfall in Iran. Atmosphere 8(3):45. |
|
|
Javari M (2017b). Spatial variability of rainfall trends in Iran. Arab. J. Geosci. 10(4):78. |
|
|
Kutiel H, TürkeÅŸ M (2017). Spatial and temporal variability of dryness characteristics in Turkey. Int. J. Climatol. |
|
|
Pettitt A (1979). A non-parametric approach to the change-point problem. Appl. Stat. pp. 126-135. |
|
|
Santos M, Fragoso M (2013). Precipitation variability in Northern Portugal: Data homogeneity assessment and trends in extreme precipitation indices. Atmos. Res. 131:34-45. |
|
|
Sung JH, Chung E-S, Kim Y, Lee B-R (2017). Meteorological hazard assessment based on trends and abrupt changes in rainfall characteristics on the Korean peninsula. Theor. Appl. Climatol. 127(1):305-326. |
|
|
Tabari H, Somee BS, Zadeh MR (2011). Testing for long-term trends in climatic variables in Iran. Atmos. Res. 100(1):132-140. |
|
|
Zarei AR, Eslamian S (2017). Trend assessment of precipitation and drought index (SPI) using parametric and non-parametric trend analysis methods (case study: arid regions of southern Iran). Int. J. Hydrol. Sci. Technol. 7(1):12-38. |
|
|
Zeleke TT, Damtie B (2017). Temporal and Spatial Climate Variability and Trends Over Abay (Blue Nile) River Basin. In K. Stave, G. Goshu, & S. Aynalem (Eds.), Social and Ecological System Dynamics: Characteristics, Trends, and Integration in the Lake Tana Basin, Ethiopia. Cham: Springer International Publishing. pp. 59-75. |
|
|
Zilli MT, Carvalho LMV, Liebmann B, Silva Dias MA (2017). A comprehensive analysis of trends in extreme precipitation over southeastern coast of Brazil. Intl. J. Climatol. 37(5):2269-2279. |
|
Copyright © 2025 Author(s) retain the copyright of this article.
This article is published under the terms of the Creative Commons Attribution License 4.0
