05 level) Over the whole period, the Z-value was 5 6, 5 5 and 5

05 level). Over the whole period, the Z-value was 5.6, 5.5 and 5.3 in the upstream, midstream and downstream areas, respectively. These large Z-values imply a high level of warming trend. The MK test results of seasonal precipitation and temperature variations in the upper, middle and lower HRB from 1960 to 2012 are shown in Fig. 10. In the upstream areas, www.selleckchem.com/erk.html the MK test analysis shows significant increasing in precipitation for the summer. Therefore, the increase of precipitation

in summer was the most important reason for annual precipitation rising in the upstream areas. In the midstream and downstream areas precipitation in the winter shows the most obvious increasing trend compared to other seasons. Temperature increased significantly for all seasons at the α = 0.01 level. The highest increasing trend in the upstream areas occurred in the autumn and winter with Z-value of 5.82, while in the downstream areas the highest increasing

trend occurred in the summer with Z-value of 6.53. However, in the midstream areas, the Z-values for all four seasons were approximately the same, at 3.55, implying a constant increasing trend within the year. Fig. 11(a) shows trends of the annual precipitation and mean temperature spatially. Among the 17 stations, precipitation for only three stations located in the upstream indicates a significant upward trend at the significant level of a = 0.05. Trends of the precipitation are insignificant for the other meteorological stations. Among Epacadostat them, four stations show a slight decreasing trend (one outside the upstream and three in the downstream). For the annual mean temperature, all 17 stations show statistically significant increasing trends with Z-value changes ranging from 3.85 to 6.29. The magnitude of precipitation and temperature changes is shown in Fig. 11(b). On average, the precipitation has increased by about 6–9 mm/decade Casein kinase 1 in the upper HRB, and 3–6 mm/decade in the middle HRB. In the downstream region, the precipitation has decreased by −0.71 mm/decade

in the northwest. For temperature, the magnitude of the increasing tread ranges from 0.30 °C/decade in the southwest to 0.51 °C/decade in the northwest. Change points of the precipitation and temperature were also investigated in this study, and the results are shown in Fig. 12. For precipitation, only three out of 17 stations have a step change point. Two of them exhibited an upward abrupt change occurring in 1981 and 1986, respectively, while the other one exhibited downward abrupt changes occurring in 1997. Unlike precipitation series, all of the annual mean temperature series have an upward abrupt change. Of them, 13 occurred in 1986, three occurred in 1992, and one occurred in 1996. Climate change is the main cause to explain streamflow increasing in the upper HRB for less human activities have occurred in the mountain regions so far.

Leave a Reply

Your email address will not be published. Required fields are marked *

*

You may use these HTML tags and attributes: <a href="" title=""> <abbr title=""> <acronym title=""> <b> <blockquote cite=""> <cite> <code> <del datetime=""> <em> <i> <q cite=""> <strike> <strong>