黑龙江流域降水变化特征分析

鄢波; 张潇; 夏自强; 郭勉辰; 刘宸希; 罗云英

doi:10.11988/ckyyb.20171298

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长江科学院院报 ›› 2019, Vol. 36 ›› Issue (7) : 14-17. DOI: 10.11988/ckyyb.20171298

水资源与环境

黑龙江流域降水变化特征分析

鄢波¹, 张潇², 夏自强³, 郭勉辰⁴, 刘宸希³, 罗云英¹

作者信息 +

Characteristics of Precipitation Variation in Heilongjiang River Basin

YAN Bo¹, ZHANG Xiao², XIA Zi-qiang³, GUO Mian-chen⁴, LIU Chen-xi³, LUO Yun-ying¹

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文章历史 +

摘要

为了全面研究黑龙江流域降水变化情况,收集黑龙江流域国内外25个气象站的降水资料,通过线性趋势法、距平累积法、变尺度趋势分析法分析降水趋势特征;用Mann-Kendall法分析降水突变特征;用小波分析法分析降水周期性特征。结果表明:在1954—2012年的研究期内,黑龙江流域降水线性趋势变化率仅为-0.74%/(10 a),变尺度趋势分析发现降水在97.7%的有效统计时间段内均无显著趋势变化;距平累积法和Mann-Kendall突变检验结果发现降水具有明显的阶段性变化;小波分析证实了降水存在主周期为28,12,4 a的显著周期性。综上,黑龙江流域降水变化的周期性要明显强于趋势性。研究成果可为中俄跨界河流管理提供现实基础。

Abstract

In a purpose of comprehensively researching the changes in precipitation in the Heilongjiang River Basin, we collected the precipitation data of 25 stations in the basin and examined the features of precipitation trend by linear trend method, accumulative anomaly method and variable scale trend analysis method; moreover, we also looked into the abrupt changes of precipitation by Mann-Kendall method, and the periodic characteristics by wavelet analysis. Results manifested that the linear trend change rate is only -0.74%/(10 a) during 1954-2012. We found no significant trend change in 97.7% of the effective time period. The accumulative anomaly method and Mann-Kendall method revealed that the precipitation changed in apparent stages, while wavelet analysis confirmed the significant periodicity of precipitation in dominant periods of 28, 12 and 4 years. In summary, the periodicity of precipitation changes in the Heilongjiang River Basin is significantly stronger than the trend. Study on the change of precipitation in Heilongjiang River Basin could provide realistic basis for Sino-Russian cross-border river management.

导出引用

鄢波, 张潇, 夏自强, 郭勉辰, 刘宸希, 罗云英. 黑龙江流域降水变化特征分析[J]. 长江科学院院报. 2019, 36(7): 14-17 https://doi.org/10.11988/ckyyb.20171298

YAN Bo, ZHANG Xiao, XIA Zi-qiang, GUO Mian-chen, LIU Chen-xi, LUO Yun-ying. Characteristics of Precipitation Variation in Heilongjiang River Basin[J]. Journal of Changjiang River Scientific Research Institute. 2019, 36(7): 14-17 https://doi.org/10.11988/ckyyb.20171298

中图分类号： P333

参考文献

[1] SOLOMON S. Climate Change 2007: The Physical Science Basis Working Group I Contribution to the Fourth Assessment Report of the IPCC[R]. Cambridge: Cambridge University Press, 2007.
[2] 肖迪芳, 张雪峰. 黑龙江流域水文水资源特性初析[J]. 水文, 1992(1): 51-53.
[3] WANG X L.Penalized Maximal F Test for Detecting Undocumented Mean Shift without Trend Change[J]. Journal of Atmospheric and Oceanic Technology,2008,25(3):368-384.
[4] WANG X L.Accounting for Autocorrelation in Detecting Mean Shifts in Climate Data Series Using the Penalized Maximal t or F Test[J]. Journal of Applied Meteorology and Climatology,2008,47(9):2423-2444.
[5] 朱伯承. 统计天气预报[M]. 上海:上海科学技术出版社, 1981.
[6] 穆兴民, 李靖, 王飞,等. 黄河天然径流量年际变化过程分析[J].干旱区资源与环境, 2003, 17(2):1-5.
[7] KUNDZEWICZ Z W, MERZ B, VOROGUSHYN S, et al. Analysis of Changes in Climate and River Discharge with Focus on Seasonal Runoff Predictability in the Aksu River Basin[J]. Environmental Earth Sciences, 2015, 73(2):501-516.
[8] MANA H B.Non-parametric Test Against Trend[J].Econometrika,1945,13(3):245-259.
[9] 张逸飞, 张中旺, 孙小舟, 等. 1964—2013年汉江生态经济带干湿气候时空变化分析[J]. 长江科学院院报, 2017,34(10):21-27,34.
[10]王文圣, 丁晶, 衡彤,等. 水文序列周期成分和突变特征识别的小波分析法[J]. 工程勘察, 2003(1):32-35.
[11]李绅东. 云南省昭通市多尺度极端降水时空特征分析[J]. 长江科学院院报, 2016, 33(11):127-132.