Article ID Journal Published Year Pages File Type
4577698 Journal of Hydrology 2011 10 Pages PDF
Abstract

SummaryVariability in precipitation plays an important role in the way it influences ecological and agricultural water requirements. This is especially true for semi-humid and semi-arid regions exemplified in certain regions in Northeast China. The temporal variation and spatial distribution of precipitation in Northeast China from 1961 to 2008 was investigated in this study by means of a linear fitted model, the Mann–Kendall test, the moving t-test, and the Morlet wavelet and Kriging (exponential) interpolation methods. Results indicate that: (a) the monthly precipitation rate varied considerably wherein summer precipitation accounted for 65.7% of the annual total value; (b) a decreasing trend in precipitation was found in the data obtained from 77 (annual) and 80 (summer) of the 98 meteorological stations throughout a 48 year period (from 1961 to 2008) while climate jumps were detected in 77% (annual) and 67% (summer); (c) three climate jumps and periods of 2.3 and 3.3 years (significant at a 95% confidence level) were detected on a regional scale; (d) the mean annual and summer precipitation rates decreased in a southeastern to northwestern trajectory throughout the 48 year period due both to the influence of the East Asian monsoon and to topography. All these findings can help provide rational regulatory and managerial policy in relation to water resources to maintain the health of the various ecosystems that make up Northeast China.

► We use diverse methods to characterize precipitation spatially and temporally. ► Temporal trends presented different patterns on both monthly and annual scales. ► Climate jumps were detected at most stations, most exhibiting a downward trend. ► Periods of 2.5 and 3.5 years were detected for both annual and summer precipitation. ► Precipitation decreased in a southeastern to northwestern trajectory.

Related Topics
Physical Sciences and Engineering Earth and Planetary Sciences Earth-Surface Processes
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