1. School of Water Conservancy and Environment, University of Jinan, 250022, Jinan, China;
2. Department of Sediment Research, China Institute of Water Resources and Hydropower Research, 100048, Beijing, China;
3. Research Center on Soil and Water Conservation of the Ministry of Water Resource, 100048, Beijing, China
Abstract:[Background] Extreme precipitation events occurred frequently in China due to the climate change and global warming, resulting in severe soil erosion events and huge property and personnel losses, such as the torrential rains in Wudinghe Basin in 2017. Thus, studies on the extreme precipitation events and their spatial-temporal variations are of great importance for soil and water conservation planning and management. Currently, there are abundant researches on this issue across China, however, the results of these studies have not been fully and comprehensively analyzed, which limited us for better understanding the extreme precipitation events in China.[Methods] In this study, s researches on extreme precipitation in China have been collected, important information such as the extreme precipitation indices, diagnostic methods for trend analysis, interpolation methods for spatial interpolation, and the results on spatial-temporal variations were extracted from literatures according to different regions of China and then, summarized and compared with each other with carefulness.[Results] After the comprehensively review of published literature, it is found that the spatial-temporal trends were mainly analyzed based on daily precipitation from meteorological stations and a nonsignificant increasing trend for extreme precipitation was reported on the national scale, of which, the increasing trends were mainly in South China and Southwest China, while the decreasing trends in North China, Northwest China and Northwest China. However, there are still some deficiencies which may limit the further researches:first, currently the densities of rain gauges in many studies are usually sparse; second, the effects of topographical factors on extreme precipitation are usually not taken consideration, probably due to the rain gauges are sited preferably in the flatland; third, the spatial-temporal trends may be greatly affected by the inter-decadal quasi-periodic oscillations in rainfall since the study period in many studies are relatively short. These deficiencies may have lower down the reliability of current studies and then make different studies less comparable. Under this circumstance, some advices aiming to improve the further studies have been proposed in this study:first, more meteorological station should be established quickly to get more available precipitation data; second, studies on the effects of topographic factors on extreme precipitation should be strengthened, which can be initiated from small scale watershed with plenty rainfall and hydrological data and then extend to wider regions; third, the precipitation data from meteorological stations should be used combinedly with spatial coverage data, such as TRMM to improve the station based data.[Conclusions] The researches on extreme precipitation events in China have been reviewed from published literature in this study, it can bee seen that many valuable results have been reported while there are still some deficiencies. Some advices were proposed in this study for future researches and it is expected more valuable results can be acquired in the future, which are also important for practical works, such as flood control, soil conservation, etc..
程诗悦, 秦伟, 郭乾坤, 徐立荣. 近50年我国极端降水时空变化特征综述[J]. 中国水土保持科学, 2019, 17(3): 155-161.
CHENG Shiyue, QIN Wei, GUO Qiankun, XU Lirong. Review on spatio-temporal variation of extreme precipitation events in China in the past 50 years. SSWC, 2019, 17(3): 155-161.
ALEXANDER L V, ZHANG X, PETERSON T C, et al. Global observed changes in daily climate extremes of temperature and precipitation[J]. Journal of Geophysical Research, 2006, 111(D5):1042.
[2]
KLEIN TANK A M G, KONNEN G P. Trends in indices of daily temperature and precipitation extremes in Europe, 1946-1999[J]. Journal of Climate, 2003, 16(22):3665.
[3]
中国气象局. 中国气象灾害年鉴[M]. 北京:气象出版社, 2004-2015. China Meteorological Administration. China meteorological disaster yearbooks (2004-2015)[M]. Beijing:Meteorology Press.
[4]
BENISTON M, STEPHENSON D B, CHRISTENSEN O B, et al. Future extreme events in European climate:an exploration of regional climate model projections[J]. Climatic Change, 2007, 81(S1):71.
[5]
孔锋, 史培军, 方建, 等. 全球变化背景下极端降水时空格局变化及其影响因素研究进展和展望[J]. 灾害学, 2017, 32(2):165. KONG Feng, SHI Peijun, FANG Jian, et al. Advances and prospects of spatiotemporal pattern variation of extreme precipitation and its affecting factors under the background of global climate change[J]. Journal of Catastrophology, 2017, 32(2):165.
[6]
王占礼, 邵明安, 常庆瑞. 黄土高原降雨因素对土壤侵蚀的影响[J]. 西北农业大学学报, 1998, 26(4):106. WANG Zhanli, SHAO Mingan, CHANG Qingrui. Effects of rainfall factors on soil erosion in Loess Plateau[J]. Acta Univ. Agric. Boreali-occidentalis, 1998, 26(4):106.
[7]
高涛, 谢立安. 近50年来中国极端降水趋势与物理成因研究综述[J]. 地球科学进展, 2014, 29(5):577. GAO Tao, XIE Lian. Study on progress of the trends and physical causes of extreme precipitation in China during the last 50 years[J]. Advances in Earth Science, 2014, 29(5):577.
[8]
王苗, 郭品文, 邬昀, 等. 我国极端降水事件研究进展[J]. 气象科技, 2012, 40(1):79. WANG Miao, GUO Pinwen, WU Yun, et al. Research progress on extreme precipitation events in China[J]. Meteorological Science and Technology, 2012, 40(1):79.
[9]
胡宜昌, 董文杰, 何勇. 21世纪初极端天气气候事件研究进展[J]. 地球科学进展, 2007, 22(10):1066. HUYichang, DONG Wenjie, HE Yong. Progress of the study of extreme weather and climate events at the beginning of the twenty first century[J]. Advances in Earth Science, 2007, 22(10):1066.
[10]
任正果, 张明军, 王圣杰, 等. 1961-2011年中国南方地区极端降水事件变化[J]. 地理学报, 2014, 69(5):640. REN Zhengguo, ZHANG Mingjun, WANG Shengjie, et al. Changes in precipitation extremes in south China during 1961-2011[J]. Acta Geographica Sinica, 2014, 69(5):640.
[11]
王冀, 江志红, 严明良, 等. 1960-2005年长江中下游极端降水指数变化特征分析[J]. 气象科学, 2008, 28(4):384. WANG Ji, JIANG Zhihong, YAN Mingliang, et al. Trends of extreme precipitation indices in the mid-lower Yangtze River valley of China during 1960-2005[J]. Scientia Meteorologica Sinica, 2008, 28(4):384.
[12]
袁文德, 郑江坤, 董奎. 1962-2012年西南地区极端降水事件的时空变化特征[J]. 资源科学, 2014, 36(4):766. YUAN Wende, ZHENG Jiangkun, DONG Kui. Spatial and temporal variation in extreme precipitation events in Southwestern China during 1962-2012[J]. Resources Science, 2014, 36(4):766.
[13]
丁文荣. 西南地区极端降水的时空变化特征[J]. 长江流域资源与环境, 2014, 23(7):1071. DING Wenrong. Temporal and spatial variation characteristics of extreme precipitation in Southwest China[J]. Resources and Environment in the Yangtze Basin, 2014, 23(7):1071.
[14]
LIAN Lishu, XU Shujing, LI Zhifu, et al. Spatial-temporal variation of extreme precipitation events in Northwest China during 1961-2010[J]. Meteorological and Environmental Research, 2014, 5(1):12.
[15]
潘晓华. 近五十年中国极端温度和降水事件变化规律的研究[D]. 北京:中国气象科学研究院, 2002:65. PAN Xiaohua. Research on the change law of extreme temperature and precipitation events in China in the past fifty years[D]. Beijing:Chinese Academy of Meteorological Sciences, 2002:65.
[16]
贺振, 贺俊平. 1960年至2012年黄河流域极端降水时空变化[J]. 资源科学, 2014, 36(3):490. HE Zhen, HE Junping. Temporal and spatial variation of extreme precipitation in the Yellow River Basin from 1960 to 2012[J]. Resources Science, 2014, 36(3):490.
[17]
杨素英, 孙凤华, 马建中. 增暖背景下中国东北地区极端降水事件的演变特征[J]. 地理科学, 2008, 28(2):224. YANG Suying, SUN Fenghua, Ma Jianzhong. Evolvement of precipitation extremes in northeast China on the background of climate warming[J]. Scientia Geographica Sinica, 2008, 28(2):224.
[18]
张爱英, 高霞, 任国玉. 华北中部近45a极端降水事件变化特征[J]. 干旱气象, 2008, 26(4):46. ZHANG Aiying, GAO Xia, REN Guoyu. Characteristic of extreme precipitation events change in central north China in recent 45 years[J]. Arid Meteorology, 2008, 26(4):46.
[19]
高霞, 王宏, 于成文, 等. 近45年来河北省极端降水事件的变化研究[J]. 气象, 2009, 35(7):10. GAO Xia, WANG Hong, YU Chengwen, et al. Analysis of extreme precipitation events change for Hebei province[J]. Meteorological Monthly, 2009, 35(7):10.
[20]
刘丽, 陶云. 云南省汛期极端强降水事件的气候特征[J]. 干旱气象, 2012, 30(1):15. LIU Li, TAO Yun. Climatic characteristics of extremely heavy precipitation events in flood season in Yunnan province[J]. Journal of Arid Meteorology, 2012, 30(1):15.
[21]
VICENTE-SERRANO S M, BEGUERÍA S, LÍPEZ-MORENO J I. A multiscalar drought index sensitive to global warming:The standardized precipitation evapotranspiration index[J]. Journal of Climate, 2010, 23(7):1696.
[22]
张应华, 宋献方. 水文气象序列趋势分析与变异诊断的方法及其对比[J]. 干旱区地理, 2015, 38(4):652. ZHANG Yinghua, SONG Xianfang. Techniques of abrupt change detection and trends analysis in hydroclimatic time-series:Advances and evaluation[J]. Arid Land Geography, 2015, 38(4):652.
[23]
LUO Yan, LIU Shen, FU Shenlei, et al. Trends of precipitation in Beijiang River basin, Guangdong province, China[J]. Hydrological Processes, 2008, 22(13):2377.
[24]
简虹, 骆云中, 谢德体. 基于Mann-Kendall法和小波分析的降水变化特征研究:以重庆市沙坪坝区为例[J]. 西南师范大学学报(自然科学版), 2011, 36(4):217. JIAN Hong, LUO Yunzhong, XIE Deti. Precipitation variation feature research based on Mann-Kendall and Wavelei analysis:Taking the Shapingba in Chongqing as an example[J]. Journal of Southwest China Normal University (Natural Science Edition), 2011, 36(4):217.
[25]
何红艳, 郭志华, 肖文发. 降水空间插值技术的研究进展[J]. 生态学杂志, 2005(10):1187. HE Hongyan, GUO Zhihua, XIAO Wenfa. Review on spatial interpolation techniques of rainfall[J]. Chinese Journal of Ecology, 2005(10):1187.
[26]
钱维宏, 符娇兰, 张玮玮, 等. 近40年中国平均气候与极端气候变化的概述[J]. 地球科学进展, 2007, 22(7):673. QIAN Weihong, FU Jiaolan, ZHANG Weiwei, et al. Changes in mean climate and extreme climate in China during the last 40 years[J]. Advances in Earth Science, 2007, 22(7):673.
[27]
ZHAI Panmao, ZHANG Xuebin, WAN Hui, et al. Trends in total precipitation and frequency of daily precipitation extremes over China[J]. Journal of Climate, 2005, 18(18):1096.
[28]
孔锋, 王铸, 刘凡, 等. 全球、大洲、区域尺度暴雨时空格局变化(1981-2010年)[J]. 北京师范大学学报(自然科学版), 2016, 52(2):228. KONG Feng, WANG Zhu, LIU Fan, et al. Temporal and spatial pattern changes of rainstorms on global, continent and regional scales (1981-2010)[J]. Journal of Beijing Normal University (Natural Science), 2016, 52(2):228.
[29]
WANG Yuqing, ZHOU Li. Observed trends in extreme precipitation events in China during 1961-2001 and the associated changes in large-scale circulation[J]. Geophysical Research Letters, 2005, 32(17):1.
[30]
QIAN Weihong, LIN Xiubin. Regional trends in recent precipitation indices in China[J]. Meteorology and Atmospheric Physics, 2005, 90(3):193.
[31]
LI Zhi, ZHENG Fenli, LIU Wenzhao, et al. Spatial distribution and temporal trends of extreme temperature and precipitation events on the Loess Plateau of China during 1961-2007[J]. Quaternary International, 2010, 226(1/2):92.
[32]
王少平, 姜逢清, 吴小波, 等. 1961-2010年西北干旱区极端降水指数的时空变化分析[J]. 冰川冻土, 2014, 36(2):318. WANG Shaoping, JIANG Fengqing, WU Xiaobo, et al. Temporal and spatial variability of the extreme precipitation indices over the arid regions in Northwest China from 1961 to 2010[J]. Journal of Glaciology and Geocryology, 2014, 36(2):318.
[33]
赵丽, 杨青, 韩雪云, 等. 1961-2009年新疆极端降水事件时空差异特征[J]. 中国沙漠, 2014, 34(2):550. ZHAO Li, YANG Qing, HAN Xueyun, et al. Spatial and temporal differences of extreme precipitation during 1961-2009 in Xinjiang, China[J]. Journal of Desert Research, 2014, 34(2):550.
[34]
LI Zongxing, HE Yuanqing, WANG Puyu, et al. Changes of daily climate extremes in southwestern China during 1961-2008[J]. Global and Planetary Change, 2012, 80(80/81):255.
[35]
孙小婷, 李清泉, 王黎娟. 我国西南地区夏季长周期旱涝急转及其大气环流异常[J]. 大气科学, 2017, 41(6):1332. SUN Xiaoting, LI Qingquan, WANG Lijuan. Characteristics of long-cycle abrupt drought-flood alternations in Southwest China and anomalies of atmospheric circulation in summer[J]. Chinese Journal Atmospheric Science, 2017, 41(6):1332.
[36]
胡庆芳. 基于多源信息的降水空间估计及其水文应用研究[D]. 北京:清华大学, 2013. HU Qingfang. Precipitation space estimation based on multi-source information and its hydrological application research[D]. Beijing:Tsinghua University, 2013.
[37]
陈利群, 刘昌明, 郝芳华. 站网密度和地形对模拟产流量和产沙量的影响[J]. 水土保持学报, 2005, 19(1):18. CHEN Liqun, LIU Changming, HAO Fanghua. Impact of network density and topography on simulated water and sediment yields[J]. Journal of Soil Water Conservation, 2005, 19(1):18.
[38]
焦菊英, 王万中, 郝小品. 黄土高原不同类型暴雨的降水侵蚀特征[J]. 干旱区资源与环境, 1999, 13(1):34. JIAO Juying, WANG Wanzhong, HAO Xiaopin. Precipitation erosion characteristics of different types of heavy rains on the Loess Plateau[J]. Journal of Arid Land Resources and Environment, 1999, 13(1):34.
[39]
MEYER S P, SALEM T H, LABADIE J W. Geographic information systems in urban storm-water management[J]. Journal of Water Resources Planning& Management, 1993, 119(2):206.
[40]
穆振侠, 姜卉芳, 刘丰. 基于TRMM/TMI与实测站点的降水垂直分布差异性探讨[J]. 干旱区研究, 2010, 27(4):515. MU Zhenxia, JIANG Huifang, LIU Feng. Discussion on difference of vertical distribution pattern of precipitation based on TRMM/TMI and observed data[J]. Arid Zone Research, 2010, 27(4):515.
[41]
宇婧婧, 沈艳, 潘旸, 等. 中国区域逐日融合降水数据集与国际降水产品的对比评估[J]. 气象学报, 2015, 73(2):394. YU Jingjing, SHEN Yan, PAN Yang, et al. Comparative assessment between the daily merged precipitation dataset over China and the world's popular counterparts[J]. Acta Meteorologica Sinica, 2015, 73(2):394.
[42]
刘硕. TRMM卫星与地面雨量站网的降水数据融合及其水文模拟应用[D]. 武汉:武汉大学, 2017. LIU Shuo. Precipitation data fusion and its application in hydrological simulation of TRMM satellite and ground rainfall network[D]. Wuhan:Wuhan University, 2017.
[43]
万新宇, 王光谦. 近60年中国典型洪水灾害与防洪减灾对策[J]. 人民黄河, 2011, 33(8):1. WAN Xinyu, WANG Guangqian. Typical flood disasters during last sixty years and strategies of flood control and disaster mitigation in China[J]. Yellow River, 2011, 33(8):1.
[44]
刘洪伟, 刘舒, 朱金良, 等. 城市内涝症结探讨及政策建议[J]. 中国防汛抗旱, 2014, 24(2):39. LIU Hongwei, LIU Shu, ZHU Jinliang, et al. Discussion on the crux of the city and its policy recommendations[J]. China Flood & Drought Management, 2014, 24(2):39.
[45]
张大伟. 极端强降雨条件下小水库溃决失事过程及应对措施浅析[J]. 中国防汛抗旱, 2017, 27(5):93. ZHANG Dawei. A brief discussion on the process of the collapse of small reservoirs under extreme weather events and emergency response countermeasures[J]. China Flood & Drought Management, 2017, 27(5):93.