[1]何雪莉a,李亚男a,b,等.1961—2018年太行山东西侧降水变化[J].山地学报,2022,(1):43-55.[doi:10.16089/j.cnki.1008-2786.000654]
 HE Xuelia,LI Yanana,b,et al.Precipitation Changes to the Eastern and Western Sides of the Taihang Mountains from 1961 to 2018[J].Mountain Research,2022,(1):43-55.[doi:10.16089/j.cnki.1008-2786.000654]
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1961—2018年太行山东西侧降水变化
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《山地学报》[ISSN:1008-2186/CN:51-1516]

卷:
期数:
2022年第1期
页码:
43-55
栏目:
山地环境
出版日期:
2022-01-25

文章信息/Info

Title:
Precipitation Changes to the Eastern and Western Sides of the Taihang Mountains from 1961 to 2018
文章编号:
1008-2786-(2022)1-43-13
作者:
何雪莉a李亚男ab石天宇a周学文a刘德新ab*
河南大学 a.地理与环境学院; b.黄河中下游数字地理技术教育部重点实验室,河南 开封 475004
Author(s):
HE Xuelia LI Yananab SHI Tianyua ZHOU Xuewena LIU Dexinab*
a. College of Geography and Environment; b. Key Laboratory of Geospatial Technology for Middle and Lower Yellow River Region, Henan University, Kaifeng 475004, Henan, China
关键词:
降水 降水日数 时空差异 太行山
分类号:
P426.6
DOI:
10.16089/j.cnki.1008-2786.000654
文献标志码:
A
摘要:
太行山年降水量较少,周边人口密集用水量大,存在水资源短缺的问题。全球变暖影响太行山区水资源和生态环境,但现有研究并未涉及太行山脉两侧的降水变化的时空差异。本文基于1961—2018年太行山区109个气象站点的逐日降水数据,采用反距离权重插值法、线性趋势法、Mann-Kendall突变检验和Morlet连续复小波,探究太行山东西侧降水时空变化特征。结果表明:(1)太行山年降水量呈减少趋势,其中西侧于1973年形成年降水量减少突变。东侧的小雨、暴雨、大暴雨及以上级别降水日数和西侧的小雨、中雨和暴雨日数呈减少趋势。(2)太行山年降水量由东南向西北递减。小雨日数的减少东西两侧基本持平,中雨日数的减少主要集中在西侧,暴雨、大暴雨及以上降水日数的减少主要集中在东侧。(3)太行山东西两侧年降水量的第一主周期均为28 a; 东侧和西侧小雨、中雨、大雨、暴雨和大暴雨及以上级别降水日数的第一主周期分别为22 a、21 a、22 a、28 a、28 a和22 a、22 a、28 a、28 a、6 a。研究结果可为太行山区防灾减灾和气候变化应对提供参考。

参考文献/References:

[1] 苏勃,高学杰,效存德.IPCC《全球1.5℃增暖特别报告》冰冻圈变化及其影响解读[J].气候变化研究进展,2019, 15(4):395-404. [SU Bo, GAO Xuejie, XIAO Cunde. Interpretation of IPCC SR1.5 on cryosphere change and its impacts [J]. Climate Change Research, 2019, 15(4):395-404] DOI: 10.12006/j.issn.1673-1719.2019.139
[2] TRENBERTH K E. Changes in precipitation with climate change [J]. Climate Research, 2011, 47(47):123-138. DOI: 10.3354/cr00953
[3] DONAT M G, ALEXANDER L V, YANG H, et al. Updated analyses of temperature and precipitation extreme indices since the beginning of the twentieth century: The HadEX2 dataset [J]. Journal of Geophysical Research: Atmospheres, 2013, 118(5):2098-2118. DOI: 10.1002/jgrd.50150
[4] GREVE P, ORLOWSKY B, MUELLER B, et al. Global assessment of trends in wetting and drying over land [J]. Nature Geoscience, 2014, 7(11):848-853. DOI: 10.1038/NGEO2247
[5] 孙颖.人类活动对气候系统的影响——解读IPCC第六次评估报告第一工作组报告第三章[J].大气科学学报,2021, 44(5):654-657. [SUN Ying. Impact of humanactivities on climate system: An interpretation of Chapter III of WGI report of IPCC AR6 [J]. Transactions of Atmospheric Science, 2021, 44(5):654-657] DOI: 10.13878/j.cnki.dqkxxb.20210816009
[6] 任国玉,任玉玉,战云健,等. 中国大陆降水时空变异规律—Ⅱ.现代变化趋势[J].水科学进展,2015, 26(4):451-465. [REN Guoyu, REN Yuyu, ZHAN Yunjian, et al. Spatial and temporal patterns of precipitation variability over mainland China: Ⅱ: Recent trends [J]. Advances in Water Science, 2015, 26(4):451-465] DOI: 10.14042/j.cnki.32.1309.2015.04.001
[7] 丁一汇,任国玉,赵宗慈,等.中国气候变化的检测及预估[J].沙漠与绿洲气象,2007, 1(1):1-10. [DING Yihui, REN Guoyu, ZHAO Zongci, et al. Detection, attribution and projection of climate change over China [J]. Desert and Oasis Meteorology, 2007, 1(1):1-10]
[8] HAN Longfei, XU Youpeng, YANG Liu, et al. Changing structure of precipitation evolution during 1957—2013 in Yangtze River Delta, China [J]. Stochastic Environmental Research and Risk Assessment, 2015, 29(8):2201-2212. DOI: 10.1007/s00477-015-1034-4
[9] HUO Ran, LI Lu, CHEN Hua, et al. Extreme precipitation changes in Europe from the last millennium to the end of the twenty-first century [J]. Journal of Climate, 2021, 34(2):567-588. DOI: 10.1175/JCLI-D-19-0879.1
[10] 卢珊,胡泽勇,王百朋,等.近56年中国极端降水事件的时空变化格局[J].高原气象,2020, 39(4):683-693. [LU Shan, HU Zeyong, WANG Baipeng, et al. Spatio-temporal patterns of extreme precipitation events over China in recent 56 years [J]. Plateau Meteorology, 2020, 39(4):683-693] DOI: 10.7522/j.issn.1000-0534.2019.00058
[11] 顾西辉,张强,孔冬冬.中国极端降水事件时空特征及其对夏季温度响应[J].地理学报,2016, 71(5):718-730. [GU Xihui, ZHANG Qiang, KONG Dongdong. Spatiotemporal patterns of extreme precipitation with their responses to summer temperature [J]. Acta Geographica Sinica, 2016, 71(5):718-730] DOI: 10.11821/dlxb201605002
[12] 钱维宏,符娇兰,张玮玮,等.近40年中国平均气候与极值气候变化的概述[J].地球科学进展,2007, 22(7):673-684. [QIAN Weihong, FU Jiaolan, ZHANG Weiwei, et al. Changes in mean climate and extreme climate in China during the last 40 years [J]. Advance in Earth Sciences, 2007, 22(7):673-684]
[13] 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):577-589. [GAO Tao, XIE Li’an. Study on progress of the trends and physical causes of extreme precipitation in China during the last 50 years [J]. Advance in Earth Sciences, 2014, 29(5):577-589] DOI: 10.11867/j. issn.1001-8166.2014.05.0577
[14] WANG Huailiang, GAO Tao, XIE Lian. Correction to: Extreme precipitation events during 1960-2011 for the northwest China: Space-time changes and possible causes [J]. Theoretical and Applied Climatology, 2019, 137(1-2):997-999. DOI:10.1007/s00704-018-2668-1
[15] 葛京凤,黄志英,梁彦庆,等.河北太行山区土地利用/覆被变化及其环境效应[J].地理与地理信息科学,2005, 21(2):62-65. [GE Jingfeng, HUANG Zhiying, LIANG Yanqing, et al. Land use change and its environmental effects in the Taihang Mountain areas in Hebei province [J]. Geography and Geo-Information Science, 2005, 21(2):62-65]
[16] 薛朝浪,赵宇鸾,魏小芳,等.基于CCA的太行山区土地利用变化驱动机制分析[J].贵州师范大学学报(自然科学版),2019, 37(1):93-103. [XUE Chaolang, ZHAO Yuluan, WEI Xiaofang, et al. Analysis of driving mechanism of land-use change in Taihang mountainous areas based on CCA [J]. Journal of Guizhou Normal University(Natural Sciences), 2019, 37(1):93-103] DOI: 10.16614/j.gznuj.zrb.2019.01.016
[17] 高会,刘金铜,朱建佳,等.基于可持续发展的太行山区生态系统服务垂直分类管理[J].自然杂志,2018, 40(1):47-54. [GAO Hui, LIU Jintong, ZHU Jianjia, et al. Ecosystem services management based on vertical variation for sustainable development of Taihang Mountain areas [J]. Chinese Journal of Nature, 2018, 40(1):47-54] DOI: 10.3969/j.issn.0253-9608.2018.01.007
[18] 宋献方,李发东,刘昌明,等.太行山区水循环及其对华北平原地下水的补给[J].自然资源学报,2007, 22(3):398-408. [SONG Xianfang, LI Fadong, LIU Changming, et al. Water cycle in Taihang Mountain and its recharge to groundwater in north China Plain [J]. Journal of Natural Resources, 2007, 22(3):398-408]
[19] XIA Rudi, ZHANG Dalin. An observational analysis of three extreme rainfall episodes of 19—20 July 2016 along the Taihang Mountains in north China [J]. Monthly Weather Review, 2019, 147(11):4199-4220. DOI: 10.1175/MWR-D-18-0402.1
[20] 王坚红,张萌,任淑媛,等.太行山脉地形坡度对下山锋面气旋暴雨影响模拟研究[J].地球科学进展,2019, 34(7): 717-730. [WANG Jianhong, ZHANG Meng, REN Shuyuan, et al. Simulation study on the impact of Taihang Mountain slopes on downhill front cyclone rainstorm [J]. Advances in Earth Science, 2019, 34(7):717-730] DOI: 10.11867/j.issn.1001-8166.2019.07.0717
[21] 王滨,张发旺,陈立,等.太行山区泥石流暴发的临界雨量判别式研究[J].水土保持研究,2009, 16(5):213-215. [WANG Bin, ZHANG Fawang, CHEN Li, et al. Study on critical activating rainfall discriminant of debris flow in Taihang Mountain area [J]. Research of Soil and Water Conservation, 2009, 16(5):213-215]
[22] 柴艳,祁颖辉.太行山区泥石流灾害降雨触发条件的研究[J].地下水,2011, 33(3):165-176. [CHAI Yan, QI Yinghui. Study on the rainfall trigger conditions of debris flow in Taihang Mountains area [J]. Ground Water, 2011, 33(3):165-176]
[23] 俞琳飞,张永强,张佳华,等.卫星降水产品在太行山区的适用性初步评估[J].高原气象,2020, 39(4):819-829. [YU Linfei, ZHANG Yongqiang, ZHANG Jiahua, et al. Preliminarily evaluate the applicability of satellite precipitation products over the Taihang Mountains [J]. Plateau Meteorology, 2020, 39(4):819-829] DOI: 10.7522/j.issn.1000-0534.2020.00007
[24] 俞琳飞,杨永辉,周新尧,等.中国融合降水产品在太行山区的质量评估[J].水资源与水工程学报,2020, 31(1):33-43. [YU Linfei, YANG Yonghui, ZHOU Xinyao, et al. Quality assessment of Chinese merged precipitation product over Taihang Mountains [J]. Journal of Water Resources and Water Engineering, 2020, 31(1):33-43] DOI: 10.11705/j.issn.1672-643X.2020.01.06
[25] 宋安安,王慧敏,郑艳东,等.太行山区耕地整理适宜性评价及障碍因子诊断—以河北省涞源县为例[J].中国农业资源与区划,2017, 38(10):45-53. [SONG Anan, WANG Huimin, ZHENG Yandong, et al. Suitability evaluation of arable land consolidation and diagnosis of obstacle indicators in Taihang Mountainous area: A case study in Laiyuan county of Hebei [J]. Chinese Journal of Agricultural Resources and Regional Planning, 2017, 38(10):45-53] DOI: 10.7621/cjarrp.1005-9121.20171007
[26] 符淙斌,王强.气候突变的定义和检测方法[J].大气科学,1992, 16(4):482-493. [FU Congbin, WANG Qiang. The defintion and detection of the abrupt climatic change [J]. Scientia Atmospherica Sinica, 1992, 16(4):482-493]
[27] 张楠,苗春生,邵海燕.1951—2007年华北地区夏季气温变化特征[J].气象与环境学报,2009, 25(6):23-28. [ZHANG Nan, MIAO Chunsheng, SHAO Haiyan. Summer air temperature variation from 1951 to 2007 in northern China [J]. Journal of Meteorology and Environment, 2009, 25(6):23-28]
[28] 杨修群,谢倩,朱益民,等.华北降水年代际变化特征及相关的海气异常型[J].地球物理学报,2005, 48(4):789-797. [YANG Xiuqun, XIE Qian, ZHU Yimin, et al. Decadal-to-interdecadal variability of precipitation in north China and associated atmospheric and oceanic anomaly patterns [J]. Chinese Journal of Geophysics, 2005, 48(4):789-797]
[29] 张书萍,祝从文,周秀骥.华北水资源年代际变化及其与全球变暖之间的关联[J].大气科学,2014, 38(5):1005-1016. [ZHANG Shuping, ZHU Congwen, ZHOU Xiuji. Decadal variability of water resources in north China and its linkage to global warming [J]. Chinese Journal of Atmospheric Sciences, 2014, 38(5):1005-1016] DOI: 10.3878/j.issn.1006-9895.1401.13231
[30] 任国玉,封国林,严中伟.中国极端气候变化观测研究回顾与展望[J].气候与环境研究,2010, 15(4):337-353. [REN Guoyu, FENG Guolin, YAN Zhongwei. Progresses in observation studies of climate extremes and changes in mainland China [J]. Climate and Environment Research, 2010, 15(4):337-353]
[31] 杨若子,邢佩,杜吴鹏,等.1961-2017年华北地区降水气候特征分析[J].地理科学,2020, 40(9):1573-1583. [YANG Ruozi, XING Pei, DU Wupeng, et al. Climatic characteristics of precipitation in north China from 1961 to 2017 [J]. Scientia Geographica Sinica, 2020, 40(9):1573-1583] DOI: 10.13249/j.cnki.sgs.2020.09.019
[32] 艾卉,张耀存,卢伟.我国东部地区夏季不同等级降水日数年际变化特征分析[J].气象科学,2009, 29(3):299-306. [AI Hui, ZHANG Yaocun, LU Wei. Characteristics of the interannual variations of summer precipitation days with different class intervals over eastern China [J]. Scientia Meteorologica Sinica, 2009, 29(3):299-306]
[33] 胡实,韩建,占车生,等.太行山区遥感卫星反演降雨产品降尺度研究[J].地理研究,2020,39(7):1680-1690. [HU Shi, HAN Jian, ZHAN Chesheng, et al. Spatial downscaling of remotely sensed precipitation in Taihang Mountains [J]. Geographical Research, 2020, 39(7):1680-1690] DOI: 10.11821/d1yj020190545
[34] 黄荣辉,顾雷,陈际龙,等.东亚季风系统的时空变化及其对我国气候异常影响的最近研究进展[J].大气科学,2008, 32(4):691-719. [HUANG Ronghui, GU Lei, CHEN Jilong, et al. Recent progresses in studies of the temporal-spatial variations of the east Asian monsoon system and their impacts on climate anomalies in China [J]. Chinese Journal of Atmospheric Sciences, 2008, 32(4):691-719]
[35] 黄荣辉,陈际龙,黄刚,等.中国东部夏季降水的准两年周期振荡及其成因[J].大气科学,2006, 30(4):545-560. [HUANG Ronghui, CHEN Jilong, HUANG Gang, et al. The quasi-biennial oscillation of summer monsoon rainfall in China and its cause [J]. Chinese Journal of Atmospheric Sciences, 2006, 30(4):545-560]
[36] REN Hongli, ZHANG Fei, LUO Jingjia, et al. A review of research on tropical air-sea interaction, ENSO dynamics, and ENSO prediction in China [J]. Journal of Meteorological Research, 2020, 34(1):43-62. DOI: 10.1007/s13351-020-9155-1
[37] 李可军,苏同卫,梁红飞.现代黑子观测的太阳黑子活动的周期性[J].科学通报,2004, 49(24):2511-2516. [LI Kejun, SU Tongwei, LIANG Hongfei. Periodicity of sunspot activity in modern sunspot observation [J]. Chinese Science Bulletin, 2004, 49(24):2511-2516]
[38] 曲维政,邓声贵,黄菲,等.深海温度变化对太阳活动的响应[J].第四纪研究,2004, 24(3):285-292. [QU Weizheng, DENG Shenggui, HUANG Fei, et al. Response of change of deep sea temperature to sun activity [J]. Quaternary Sciences, 2004, 24(3):285-292]
[39] 王延吉, 神祥金, 姜明.1961—2018年长白山区不同等级降水时空变化特征[J].气候与环境研究, 2021, 26(2):227-238. [WANG Yanji, SHEN Xiangjin, JIANG Ming. Spatial-temporal variation characteristics of different grades of precipitation in Changbai Mountain from 1961 to 2018 [J]. Climatic and Environmental Research, 2021, 26(2): 227-238] DOI: 10.3878/j.issn.1006-9585.2020.20093

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备注/Memo

备注/Memo:
收稿日期(Received date):2021-07-13; 改回日期( Accepted date):2022-01-12
基金项目(Foundation item):国家自然科学基金(41907382); 中国博士后科学基金(2019M652520)[National Natural Science Foundation of China(41907382); China Postdoctoral Science Foundation(2019M652520)]
作者简介(Biography):何雪莉(1998-),女,河南信阳人,硕士研究生,主要研究方向:气候变化与环境演变。[HE Xueli(1998-), female, born in Xinyang, Henan province, M.Sc. candidate, research on climate change and environmental evolution] E-mail: hexl981@163.com
*通讯作者(Corresponding author):刘德新(1989-),男,博士,讲师,主要研究方向:气候变化与环境演变。[LIU Dexin(1989-), male, Ph.D., lecturer, research on climate change and environmental evolution] E-mail: dxliu@vip.henu.edu.cn
更新日期/Last Update: 2022-01-30