黑河流域气温的稳定性与长程相关性（英文）

编号 zgly0001675832

文献类型 期刊论文

文献题名 黑河流域气温的稳定性与长程相关性（英文）

作者 杨静  苏凯  叶思菁 

作者单位 StateKeyLaboratoryofEarthSurfaceProcessesandResourceEcology  BeijingNormalUniversity  KeyLaboratoryofEnvironmentalChangeandNaturalDisaster  CenterforGeodataandAnalysis  FacultyofGeographicalScience  Beij 

母体文献 Journal of Geographical Sciences 

年卷期 2019年09期

年份 2019 

分类号 P423  P339 

关键词 HeiheRiverBasin  airtemperature  long-rangecorrelation  stability  geographicalenvironment 

文摘内容 Air temperature(AT) is a subsystem of a complex climate. Long-range correlation(LRC) is an important feature of complexity. Our research attempt to evaluate AT’s complexity differences in different land-use types in the Heihe River Basin(HRB) based on the stability and LRC. The results show the following:(1) AT’s stability presents differences in different land-use types. In agricultural land, there is no obvious variation in the trend throughout the year. Whereas in a desert, the variation in the trend is obvious: the AT is more stable in summer than it is in winter, with Ta ranges of [8, 20]°C and SD of the AT residual ranges of [0.2, 0.7], respectively. Additionally, in mountainous areas, when the altitude is beyond a certain value, AT’s stability changes.(2) AT’s LRC presents differences in different land-use types. In agricultural land, the long-range correlation of AT is the most persistent throughout the year, showing the smallest difference between summer and winter, with the Hs range of [0.8, 1]. Vegetation could be an important factor. In a desert, the long-range correlation of AT is less persistent, showing the greatest difference between summer and winter, with the Hs range of [0.54, 0.96]. Solar insolation could be a dominant factor. In an alpine meadow, the long-range correlation of AT is the least persistent throughout the year, presenting a smaller difference between summer and winter, with the Hs range of [0.6, 0.85]. Altitude could be an important factor.(3) Usually, LRC is a combination of the Ta and SD of the AT residuals. A larger Ta and smaller SD of the AT residual would be conducive to a more persistent LRC, whereas a smaller Ta and larger SD of the AT residual would limit the persistence of LRC. A larger Ta and SD of the AT residual would create persistence to a degree between those of the first two cases, as would a smaller Ta and SD of the AT residual. In addition, the last two cases might show the same LRC.