TY - JOUR ID - 7901 TI - Determination of Climate Changes on Streamflow Process in the West of Lake Urmia With Used to Trend and Stationarity Analysis JO - International Journal of Advanced Biological and Biomedical Research JA - IJABBR LA - en SN - 2383-2762 AU - KHalili, Keivan AU - Ahmadi, Farshad AU - Dinpashoh, Yagub AU - Fakheri Fard, Ahmad AD - Water Engineering Department, Faculty of Agriculture, Urmia University, Urmia- IRAN AD - Msc Student of Water Engineering Department, Faculty of Agriculture, Tabriz University, Tabriz- IRAN AD - Associate Professorof Water Engineering Department, Faculty of Agriculture, Tabriz University, Tabriz- IRAN AD - Professorof Water Engineering Department, Faculty of Agriculture, Tabriz University, Tabriz- IRAN Y1 - 2013 PY - 2013 VL - 1 IS - 10 SP - 1220 EP - 1235 KW - Climate change KW - Mann-Kendall test KW - Stationarity tests KW - Trend KW - Lake Urmia DO - N2 - One of the most important hydrological time series task is to determine if there is any trend in the data and how to achieve stationarity when there is nonstationarity behavior in data. Detecting trend and stationarity in hydrological time series may help us to understand the possible links between hydrological processes and global climate changes. In this study yearly, monthly and daily streamflow data records of Baranduz Chai, Shahar Chai and Nazlu Chai rivers and Urmia synoptic stattion in the west of Lake Urmia, located in the West Azarbaijan of Iran, used to trend and stationarity analysis. Trend analysis with Mann-Kendall and seasonal Kendall tests showed that most annual and monthly flow series had significant negative trend at 1% and 10% . Five common methods named ADF, DFGLS, ERS, KPSS and PP have been used to examine nonstationarity of river flows. Results demonstrated that most annual, monthly and daily series appear to be stationary after removing trend component from series. Also results illustrated, that mean air temperature of this region increased significantly at 1% level. Increasing air temperature causes changing most of precipitations to rain in the replace of snow that maybe the main reason of river flow decreasing and Lake Urmia depletion in recent years. Furthermore, studied rivers have high dependence on snow melt water, therefore are affected by temperature changes. This showed obviously effect of global warming on the decreasing river flow discharges in the west of Lake Urmia UR - https://www.ijabbr.com/article_7901.html L1 - https://www.ijabbr.com/article_7901_26d3dc324c8dc583a222b6c482c57cb2.pdf ER -