[1]刘吉峰,靳莉君,张永生.近60年渭河流域极端降水和洪水演变特征[J].山地学报,2023,(2):192-203.[doi:10.16089/j.cnki.1008-2786.000741]
 LIU Jifeng,JIN Lijun,ZHANG Yongsheng.Evolution Characteristics of Extreme Precipitation and Flood in the Weihe River Basin of China over Last 60 Years[J].Mountain Research,2023,(2):192-203.[doi:10.16089/j.cnki.1008-2786.000741]
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近60年渭河流域极端降水和洪水演变特征
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《山地学报》[ISSN:1008-2186/CN:51-1516]

卷:
期数:
2023年第2期
页码:
192-203
栏目:
山地灾害
出版日期:
2023-03-20

文章信息/Info

Title:
Evolution Characteristics of Extreme Precipitation and Flood in the Weihe River Basin of China over Last 60 Years
文章编号:
1008-2786-(2023)2-192-12
作者:
刘吉峰靳莉君张永生
(黄河水利委员会水文局,郑州 450004)
Author(s):
LIU JifengJIN LijunZHANG Yongsheng
(Hydrological Bureau of Yellow River Conservancy Commission, Zhengzhou 450004, China)
关键词:
极端降水 年最大洪峰流量 趋势分析 小波分析 时空变化 渭河流域
Keywords:
extreme precipitation annual maximum flood peak flow trend analysis wavelet analysis spatiotemporal variation the Weihe River basin
分类号:
P426
DOI:
10.16089/j.cnki.1008-2786.000741
文献标志码:
A
摘要:
渭河流域地处中国西北地区东部,是气候敏感区和生态环境脆弱区,极端降水事件往往引发洪水、泥石流等灾害。现有研究主要集中在降水引发的流域径流变化,而极端降水和洪水变化规律有待挖掘。本文基于1961—2021年气象水文资料,选用8个极端降水指数、4个代表水文站年最大洪峰流量,采用百分位阈值法、Kriging空间插值法、线性回归法、滑动平均法、小波分析法, 分析了渭河流域极端降水和洪水时空演变特征、周期特征以及2021年极端降水和洪水特性。结果表明:(1)近60年渭河流域极端降水总量和暴雨频次显著增加的同时,极端降水强度亦有所增强,而弱降水事件减少。极端洪水整体呈不显著减少趋势。极端降水和洪水均在2000年以后显著增加,特别是极端降水总量和暴雨频次较多年均值偏多12%~22%,并且各极端降水指数极大值均出现在2000年以后。(2)极端降水和洪水年内分布不均,前者主要集中在7月和8月,后者除“七下八上”期外,9月也是多发期。(3)各极端降水指数均呈现由上游向下游递增的分布,中游南部极端降水普遍强于北部。流域内大部分站点极端降水指数呈增加趋势,显著增加地区位于中游周至—临潼区间以及长武—宁县。(4)极端降水和洪水存在多个周期变化特征,且极端洪水周期年代际特征显著。(5)2021年渭河流域极端降水强度、大雨以上降雨日数均为近61年来之最,华县站出现2012年以来最大洪水过程,咸阳站出现1935年有实测资料以来9月份同期最大洪水。研究结果可为渭河流域水旱灾害防御以及治理规划提供参考依据。
Abstract:
The Weihe River basin lies in the east of northwest China. It is a climate-sensitive and a fragile ecological environment area. Extreme precipitations often cause floods, debris flows and other disasters in the basin. Previous research mainly concerned about the regional runoff change caused by rainfall, but the change law of extreme precipitation and flood remained unknown.
In this study, it collected meteorological and hydrological data of 1961-2021, and eight extreme precipitation indices and annual maximum flood peak flow records at four representative hydrological stations were selected for statistical analysis. The method of percentile threshold, Kriging spatial interpolation, linear regression, and moving average and wavelet analysis was used to analyze the evolution pattern of extreme precipitation and flood in the Weihe River basin of China, the periodic change, and the extremity of precipitation and flooding in 2021.
The results show that:(1)In the past 60 years, while the total amount of extreme precipitation and the frequency of rainstorm increased significantly, the intensity of extreme precipitation also increased, but the weak precipitation events decreased in the Weihe River basin. Extreme floods generally showed a non-significant reduction trend. Both extreme precipitation and flooding increased significantly after 2000. In particular, the total amount of extreme precipitation and the rainstorm frequency were 12%~22% higher than those of the annual average, and the maximum value of each extreme precipitation index all appeared after 2000.(2)The distribution of extreme precipitation and flood was not uniform within a year. The former was mainly concentrated in July and August, while the latter was also frequent in September except for a period of late July to early August.(3)Each extreme precipitation index showed an increasing distribution from upstream to downstream, and the extreme precipitation in the south of the middle reaches of the basin was generally stronger than that in the north. The extreme precipitation index of the most stations in the basin showed an increasing trend, and the significantly increasing areas were in the Zhouzhi-Lintong section and Changwu-Ning.(4)There were multiple periodic changes of extreme precipitation and flood, and the period of extreme flood changed significantly on interchronological scale.(5)In 2021, the extreme precipitation intensity and rainfall days above heavy rain in the Weihe River basin had been highest for the past 61 years. The Huaxian station recorded the largest flood since 2012. The largest flood was observed at Xianyang station in September since the measured data in 1935. The research results can provide reference for the prevention and control planning of flood and drought disasters in the Weihe River basin.

参考文献/References:

[1] EASTERLING D R, KUNKEL K E, WEHNER M F, et al. Detection and attribution of climate extremes in the observed record [J]. Weather and Climate Extremes, 2016, 11: 17-27. DOI: 10.1016/j.wace.2016.01.001
[2] DONAT M G, LOWRY A L, ALEXANDER L V, et al. More extreme precipitation in the world's dry and wet regions [J]. Nature Climate Change, 2016, 6(5): 508-513. DOI: 10.1038/NCLIMATE2941
[3] 李莹, 赵珊珊. 2001—2020年中国洪涝灾害损失与致灾危险性研究[J]. 气候变化研究进展, 2022, 18(2): 154-165. [LI Ying, ZHAO Shanshan. Floods losses and hazards in China from 2001 to 2020 [J]. Climate Change Research, 2022, 18(2): 154-165] DOI: 10.12006/j.issn.1673-1719.2021.196
[4] 尹家波, 郭生练, 顾磊, 等. 中国极端降水对气候变化的热力学响应机理及洪水效应[J]. 科学通报, 2021, 66(33): 4315-4325. [YIN Jiabo, GUO Shenglian, GU Lei, et al. Thermodynamic response of precipitation extremes to climate change and its impacts on floods over China [J]. Chinese Science Bulletin, 2021, 66(33): 4315-4325] DOI: 10.1360/TB-2021-0438
[5] 齐月, 陈海燕, 房世波, 等. 1961—2010年西北地区极端气候事件变化特征[J]. 干旱气象, 2015, 33(6): 963-969. [QI Yue, CHEN Haiyan, FANG Shibo, et al. Variation characteristics of extreme climate events in northwest China during 1961-2010 [J]. Journal of Arid Meteorology, 2015, 33(6): 963-969] DOI: 10.11755/j.issn.1006-7639(2015)-06-0963
[6] 赵庆云, 张武, 王式功, 等. 西北地区东部干旱半干旱区极端降水事件的变化[J]. 中国沙漠, 2005, 25(6): 904-909. [ZHAO Qingyun, ZHANG Wu, WANG Shigong, et al. Change of extreme precipitation events in arid and semi-arid regions in the east of northwest China [J]. Journal of Desert Research, 2005, 25(6): 904-909] DOI: 10.3321/j.issn.1000-694X.2005.06.015
[7] 汪宝龙, 张明军, 魏军林, 等. 西北地区近50a气温和降水极端事件的变化特征[J]. 自然资源学报, 2012, 27(10): 1720-1733. [WANG Baolong, ZHANG Mingjun, WEI Junlin, et al. The change in extreme events of temperature and precipitation over northwest China in recent 50 years [J]. Journal of Natural Resources, 2012, 27(10): 1720-1733] DOI: 10.11849/zrzyxb.2012.10.010
[8] 杨金虎, 江志红, 王鹏祥, 等. 中国西北极端降水事件年内非均匀性特征分析[J]. 中国沙漠, 2008, 28(1): 178-184. [YANG Jinhu, JIANG Zhihong, WANG Pengxiang, et al. Analysis on inner-annual inhomogeneity characteristic of extreme precipitation events over northwest China [J]. Journal of Desert Research, 2008, 28(1): 178-184]
[9] 蔡新玲, 吴素良, 贺皓, 等. 变暖背景下陕西极端气候事件变化分析[J]. 中国沙漠, 2012, 32(4): 1095-1101. [CAI Xinling, WU Suliang, HE Hao, et al. Change of extreme climate events in Shaanxi province under global warming background [J]. Journal of Desert Research, 2012, 32(4): 1095-1101]
[10] 邹磊, 余江游, 王飞宇, 等. 渭河流域极端降水时空演变规律及其对大气环流因子的响应[J]. 干旱区研究, 2021, 38(3): 764-774. [ZOU Lei, YU Jiangyou, WANG Feiyu, et al. Spatial-temporal variations of extreme precipitation indices and their response to atmospheric circulation factors in the Weihe River Basin [J]. Arid Zone Research, 2021, 38(3): 764-774] DOI: 10.13866/j.azr.2021.03.18
[11] 周旗, 张海宁, 任源鑫. 1961—2016年渭河流域极端降水事件研究[J]. 地理科学, 2020, 40(5): 833-841. [ZHOU Qi, ZHANG Haining, REN Yuanxin. Extreme precipitation events in the Weihe River Basin from 1961 to 2016 [J]. Scientia Geographica Sinica, 2020, 40(5): 833-841] DOI: 10.13249/j.cnki.sgs.2020.05.018
[12] 徐瑞瑞, 高鹏, 穆兴民, 等. 渭河流域水沙时空变化及其对人类活动的响应[J]. 人民黄河, 2020, 42(3): 17-24. [XU Ruirui, GAO Peng, MU Xingmin, et al. Dynamic of streamflow and sediment load and its response to human activities in the Weihe River Basin [J]. Yellow River, 2020, 42(3): 17-24] DOI: 10.3969/j.issn.1000-1379.2020.03.003
[13] 黄晨璐, 杨勤科. 渭河与泾河流域水沙变化规律及其差异性分析[J]. 干旱区地理, 2021, 44(2): 327-336. [HUANG Chenlu, YANG Qinke. Runoff and sediment variation rules and differences in Wei River and Jing River Basins [J]. Arid Land Geography, 2021, 44(2): 327-336] DOI: 10.12118/j.issn.1000-6060.2021.02.04
[14] 邱德勋, 穆兴民, 赵广举, 等. 渭河流域极端降雨变化趋势及其对水沙情势的影响[J]. 水土保持研究, 2022, 29(6): 65-72. [QIU Dexun, MU Xingmin, ZHAO Guangju, et al. Effects of precipitation extremes change on streamflow and sediment load in Weihe River Basin [J]. Research of Soil and Water Conservation, 2022, 29(6): 65-72] DOI: 10.13869/j.cnki.rswc.20220919.002
[15] 张海宁, 周旗, 毛雨唯, 等. 渭河流域极端降水特性指标分析[J]. 水土保持研究, 2022, 29(3): 128-134. [ZHANG Haining, ZHOU Qi, MAO Yuwei, et al. Analysis of extreme precipitation characteristics in Weihe River Basin [J]. Research of Soil and Water Conservation, 2022, 29(3): 128-134] DOI: 10.13869/j.cnki.rswc.2022.03.013
[16] 尚潇瑛, 曲艳, 辛琛, 等. 2021年渭河秋汛降雨与气象背景[J]. 陕西水利, 2022(5): 68-72. [SHANG Xiaoying, QU Yan, XIN Chen, et al. Rainfall and meteorological background of Weihe River autumn flood in 2021 [J]. Shaanxi Water Resources, 2022(5): 68-72] DOI: 10.16747/j.cnki.cn61-1109/tv.2022.05.016
[17] 肖洁, 罗军刚, 解建仓, 等. 渭河干流径流年际及年内变化趋势分析[J]. 人民黄河, 2012, 34(11): 32-36. [XIAO Jie, LUO Jungang, XIE Jiancang, et al. Analysis on interannual and annual variation trend of runoff in the main stream of Weihe River [J]. Yellow River, 2012, 34(11): 32-36] DOI: 10.3969/j.issn.1000-1379.2012.11.011
[18] 赵静, 黄强, 刘登峰. 渭河流域水沙演变规律分析[J]. 水力发电学报, 2015, 34(3): 14-20. [ZHAO Jing, HUANG Qiang, LIU Dengfeng. Analysis of runoff and sediment evolution in Wei River [J]. Journal of Hydroelectric Engineering, 2015, 34(3): 14-20]
[19] 鞠琴, 吴佳杰, 姚婷月, 等. 基于IHA-RVA法的渭河流域水文情势变化分析[J]. 水文, 2022, 42(4): 76-82. [JU Qin, WU Jiajie, YAO Tingyue, et al. Analysis of hydrological regime change in Weihe River Basin based on IHA-RVA method [J]. Journal of China Hydrology, 2022, 42(4): 76-82] DOI: 10.19797/j.cnki.1000-0852.20210202
[20] 江善虎, 刘亚婷, 任立良, 等. 变化环境下渭河流域生态水文情势演变归因研究[J]. 水资源保护, 2022, 38(6): 9-14. [JIANG Shanhu, LIU Yating, REN Liliang, et al. Attribution analysis of eco-hydrological regime evolution in the Weihe River Basin under changing environment [J]. Water Resources Protection, 2022, 38(6): 9-14] DOI: 10.3880/j.issn.1004-6933.2022.06.002
[21] 冯绍杰, 穆兴民, 高鹏, 等. 泾河水沙变化特征及其影响因素分析[J]. 干旱区资源与环境, 2022, 36(10): 151-157. [FENG Shaojie, MU Xingmin, GAO Peng, et al. Trends of runoff and sediment loads in the Jinghe River Basin and influencing factors [J]. Journal of Arid Land Resources and Environment, 2022, 36(10): 151-157] DOI: 10.13448/j.cnki.jalre.2022.262
[22] 任立良, 沈鸿仁, 袁飞, 等. 变化环境下渭河流域水文干旱演变特征剖析[J]. 水科学进展, 2016, 27(4): 492-500. [REN Liliang, SHEN Hongren, YUAN Fei, et al. Hydrological drought characteristics in the Weihe catchment in a changing environment [J]. Advances in Water Science, 2016, 27(4): 492-500] DOI: 10.14042/j.cnki.32.1309.2016.04.002
[23] BONSAL B R, ZHANG Xuebin, VINCENT L A, et al. Characteristics of daily and extreme temperatures over Canada [J]. Journal of Climate, 2001, 14(9): 1959-1976. DOI: 10.1175/1520-0442(2001)014<1959:codaet>2.0.co; 2
[24] 吴梦雯, 罗亚丽. 中国极端小时降水2010—2019年研究进展[J]. 暴雨灾害, 2019, 38(5): 502-514. [WU Mengwen, LUO Yali. Extreme hourly precipitation over China: Research progress from 2010 to 2019 [J]. Torrential Rain and Disasters, 2019, 38(5): 502-514] DOI: 10.3969/j.issn.1004-9045.2019.05.012
[25] 张菁, 张珂, 王晟, 等. 陕甘宁三河源区1971—2017年极端降水时空变化分析[J]. 河海大学学报(自然科学版), 2021, 49(3): 288-294. [ZHANG Jing, ZHANG Ke, WANG Sheng, et al. Spatiotemporal variation analysis of extreme precipitation in the Three River Source Area of the Shaanxi-Gansu-Ningxia contiguous region from 1971 to 2017 [J]. Journal of Hohai University(Natural Sciences), 2021, 49(3): 288-294] DOI: 10.3876/j.issn.1000-1980.2021.03.012
[26] 王金, 冉启华, 刘琳, 等. 长江中下游流域极端洪水事件影响机制研究[J]. 中国农村水利水电, 2022(6): 119-124. [WANG Jin, RAN Qihua, LIU Lin, et al. Research on the dominant mechanism of extreme flow events in the middle and lower reaches of the Yangtze River [J]. China Rural Water and Hydropower, 2022(6): 119-124]
[27] 王芸, 赵鹏祥. 黄河流域极端气候事件的时空变异特征研究[J]. 西北林学院学报, 2021, 36(3): 190-196. [WANG Yun, ZHAO Pengxiang. Temporal and spatial variation characteristics of extreme climate events in the Yellow River Basin [J]. Journal of Northwest Forestry University, 2021, 36(3): 190-196] DOI: 10.3969/j.issn.1001-7461.2021.03.28
[28] 苏茂林, 魏向阳, 李保国. 2021年黄河秋汛洪水处理策略与实践[J]. 人民黄河, 2023, 45(1): 56-60. [SU Maolin, WEI Xiangyang, LI Baoguo. Strategies and practices of flood management in 2021 autumn flood season [J]. Yellow River, 2023, 45(1): 56-60] DOI: 10.3969/j.issn.1000-1379.2023.01.011

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备注/Memo

备注/Memo:
收稿日期(Received date): 2022-12-29; 改回日期(Accepted date):2023-04-07
基金项目(Foundation item): 国家重点研发计划项目专题(2021YFC3201104-02)。 [National Key Research and Development Program of China(2021YFC3201104-02)]
作者简介(Biography): 刘吉峰(1972-),男,山东聊城人,博士,教授级高工,主要研究方向:黄河流域水文预报。[LIU Jifeng(1972-), male, born in Liaocheng, Shandong province, Ph.D., professor of engineering, research on hydrological forecast of the Yellow River basin] E-mail: jifengliu@163.com
更新日期/Last Update: 2023-03-30