近60 a来西秦岭及周边地区降水的分布格局

Abstract

Abstract: West Qinling Mountains is located to the east edge of the Tibetan Plateau and in the monsoon fringe area, its climate is affected by the thermal effects of Tibetan Plateau and is very sensitive to the monsoon variability. However, the spatial and temporal characteristics of precipitation in West Qinling over the past 60 years are still unclear. Based on the instrumental monthly precipitation and temperature in 1951-2014 of 15 meteorological stations in West Qinling Mountains and the surrounding areas, the temporal and spatial characteristics of wet and dry spells over the past 60 years are analyzed using the relevant statistical analysis, the non-parametric tests and the improved empirical orthogonal function method. The results show that the precipitation has a downward trend in the West Qinling Mountains and the surrounding areas since 1951. The autumn precipitation the most significant downward trend than that of the other seasons, with -18.6 mm· (10 a)^-1. Moreover, the temperature has an upward trend with 0.28℃· (10 a)^-1 over the last 60 years. The temperature incre-ased 1℃, while the precipitation decreased 37 mm at the study area. Compared with the Niño3.4 index, the study area has less precipitation and high temperature, and tends to drought at the EI Niño year. Through the empirical orthogonal function analysis(EOF), the variance of the precipitation is explained by the EOF1 with 49.0%, and the EOF1 of the temperature explained 78.8% total variance. Two patterns all display consistency changes in whole West Qinling regions, and the eastern West Qinling have larger precipitation decreased rate and smaller temperature increased rate than that of the western. These results fill the gaps in the regional precipitation research in West Qinling and provide a reference for understanding the climate change in the monsoon marginal areas.

Key words: West Qinling, Precipitation, Dry wet spells, Spatial pattern

CLC Number:

426.6

YANG Feng-mei, WANG Nai-ang, WANG Shi-gong, NIU Zhen-min. Spatial and temporal patterns of precipitation in the west Qinling over the past 60 years[J]., 2015, 38(5): 867-879.

References

[1] TRENBERTH K E, JONES P D, AMBENJE P, et al. Observations:Surface and Atmospheric Climate Change. In:Climate Change 2007:The Physical Science Basis. Contribution of Working Groups I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change[Solomon, S., D. Qin, M. Manning, Z. Chen, M. Marquis, K.B. Averyt, M. Tignor and H.L. Miller(eds.)] [M]:IPCC, 2007.

[2] LAU K M, SHEU P J. Annual cycle, quasi-biennial oscillation, and southern oscillation in global precipitation[J]. Journal of Climate, 1988, 93(D9):10975-10988.

[3] SCHNEIDER T. Analysis of incomplete climate data:Estimation of mean values and covariance matrices and imputation of missing values. Journal of Climate, 2001, 14(5):853-871.

[4] BRADLEY R S, DIAZ H F, EISCHEID J K, et al. Precipitation fluctuations over Northern Hemisphere land areas since the mid-19th century[J]. Science, 1987, 237(4811):171-175.

[5] HULME H, MARSH R, JONES P D. Global changes in a humidity index between 1931-1960 and 1961-1990[J]. Climate Research, 1992, 2:1-22.

[6] 符淙斌,曾昭美.季风区——全球降水变化率最大的地区[J].科学通报, 1997, 42(21):2306-2310.[FU Congbin, ZENG Zhaomei. Monsoon regions:the highest rate of precipitation changes observed from global data[J]. Chinese Science Bulletin, 1998, 43(8):662-666.]

[7] 龚道溢,王绍武.近百年ENSO对全球陆地及中国降水的影响[J].科学通报, 1999, 44(3):315-320.[GONG Daoyi, WANG Shaowu. Impacts of ENSO on rainfall of global land and China[J]. Chinese Science Bulletin, 1999, 44(9):852-857.]

[8] KATTSOV V M, WALSH J E. Twentieth-century trends of Arctic precipitation from observational data and a climate model simulation[J]. Journal of Climate, 2000, 13(4):1362-1370.

[9] VINNIKOV K Y, GROISMAN P Y, LUGINA K M. Empirical data on contemporary climate changes(temperature and precipitation)[J]. Journal of Climate, 1990, 3:662-677.

[10] 林学椿,于淑秋.近40年我国气候趋势[J].气象, 1990, 16(10):16-21.[LIN Xuechun, YU Shuqiu. Climatic trend in China for the last 40 years[J]. Meteorology Journal, 1990, 16(10):16-21.]

[11] 肖子牛,李崇银. El Niño期间印度洋海温异常对亚洲气候的影响[J].大气科学, 2000, 24(4):461-469.[XIAO Ziniu, LI Chongyin, Influence of the Indian Ocean SSTA on Asian climate during an El Niño Period[J]. Chinese Journal of Atmospheric Sciences, 2000, 24(4):461-469.]

[12] 唐佑民.我国西北夏季降水异常与太平洋海温季节演变的关系[J].地理学报, 1992, 47(5):419-429.[TANG Youmin, Relationship between summer precipitation anomaly in the north-western part of china and the seasonal variation of sea surface temperature in the Pacific Ocean[J]. Acta Geographica Sinica, 1992, 47(5):419-429.]

[13] 刘海文,丁一汇.华北夏季降水的年代际变化[J].应用气象学报, 2011, 22(2):129-137.[LIU Haiwen, DING Yihui. The interdecadal Variability of Summer Precipitation over North China[J]. Journal of applied meteorological science, 2011, 22(2):129-137.]

[14] 靳立亚,李静,王新,等.近50年来中国西北地区干湿状况时空分布[J].地理学报, 2005, 59(6):847-854.[JIN Liya, LI Jing, WANG Xin, et al. The temporal and spatial distribution of surface dry-wet conditions over northwestern China in recent 50 years[J]. Acta Gepgraphica Sinica, 2005, 59(6):847-854.]

[15] 徐康,何金海,祝从文.近50年中国东部夏季降水与贝加尔湖地表气温年代际变化的关系[J].气象学报, 2011, 69(4):570-580.[XU kang, HE Jinhai, ZHU Congwen. The interdecadal linkae of the summer precipitation in eastern China with the surface air temperature over lake Baikal in the past 50 years[J]. Acta Meteorologica Sinica, 2011, 69(4):570-580.]

[16] 罗哲贤.中国西北干旱气候动力学引论,气象出版社,北京气象出版社, 2005:1-3.[LUO Zhexian. Introduction to the climate dynamics of arid area in Northwest China[M]. China Meteorological Press, 2005:1-3.]

[17] 焦北辰,刘明光.中国自然地理图集[M].北京中国地图出版社:新华书店, 2006.[JIAO Beicheng, LIU Mingguang. The atlas of Chinese Phyiscal Geography[M]. Beijing:China Map Publis-hing House, 2006.]

[18] 秦大河,丁一汇.中国西部环境的演变及其影响研究[J]. 2007:1-4.[QIN Dahe, DING Yihui. Study on the environmental change of western Chian and its effetion[M]. Resources environment and development, 2007:1-4.]

[19] 李玮,董云鹏,郭安林,等.西秦岭徽成盆地沉积充填过程及其对中生代陆内构造演化的制约[J].中国科学(地球科学), 2013,(5):6.[LI Wei, DONG Yunpeng, GUO Anlin, et al. Sedimentary fill history of the Huicheng Basin in the West Qinling Mountains and associated constraints on Mesozoic intracontinental tectonic evolution[J]. Science China(Earth Sciences), 2013, (5):6.]

[20] YANG F, WANG N, SHI F, et al. Multi-proxy temperature reconstruction from the West Qinling Mountains, China, for the past 500 years[J]. PloS one, 2013, 8(2):e57638.

[21] 姚玉璧,肖国举,王润元,等.近50 a来西北半干旱区气候变化特征[J].干旱区地理, 2009, 32(2):159-165.[YAO Yubi, XIAO Guoju, WANG Runyuan, et al. Climatic changes of semiarid region over the northwest China in recent 50 a[J]. Arid Land Geography, 2009, 32(2):159-165.]

[22] 任国玉,郭军,徐铭志,等.近50年中国地面气候变化基本特征[J].气象学报, 2005, 63(6):942-952.[REN Guoyu, GUO Jun, XU Mingzhi, et al. Climate changes of China's mainland over the past half century[J]. Acta Meteorologica Sinica, 2005, 63(6):942-952.]

[23] 周长艳,岑思弦,李跃清,等.四川省近50年降水的变化特征及影响[J].地理学报, 2011, 66(5):619-630.[ZHOU Changyan, CEN Sixuan, LI Yueqing et al. Precipitation variation and its impacts in Sichuan in the last 50 years[J] Acta Geographica Sinica, 2011, 66(5):619-630.]

[24] 施雅风.全球和中国变暖特征及未来趋势[J].自然灾害学报, 1996, 5(2):1-9.[SHI Yafeng. Features and tendency of global warm ing and its implications For China[J]. Journal of Natural Disa Sters, 1996, 5(2):1-9.]

[25] 严中伟,季劲钧,叶笃正. 60年代北半球夏季气候跃变-I降水和温度变化[J].中国科学B辑, 1990,(1):97-103.[YAN Zhongwei, JI Jinjun. Climatic jump over the northern hemisphere in 1960s I:Summer precipitation and temperature[J]. Sciences in China(B), 1990,(1) 97-103.]

[26] 马新萍,白红英,冯海鹏,等. 52 a来秦岭南北径流变化对比及影响因素[J].干旱区地理, 2013, 36(6):1032-1040.[MA Xinping, BAI Hongying, FENG Haipeng, et al. Runoff variation and its influencing factors compared between south and north of Qinling Mountains during 50 years[J]. Arid Land Geography, 2013, 36(6):1032-1040.]

[27] 周旗,卞娟娟,郑景云.秦岭南北1951-2009年的气温与热量资源变化[J].地理学报, 2011, 66(9):1211-1218.[ZHOU Qi, BIAN Juanjuan, ZHENG Jingyun. Variation of air temperature and thermal resources in the northern and southern regions of the Qinling Mountains from 1951 to 2009[J]. Acta Geographica Sinica, 2011, 66(9):1211-1218.]

[28] BJORNSSON H, VENEGAS S. A manual for EOF and SVD analyses of climatic data[J]. CCGCR Report, 1997, 97(1):1-52.

[29] 赵红岩,王有恒,王兴,等. 1961-2008年中国西北东部旱涝异常分布及干旱变化特征[J].干旱区地理, 2012, 35(4):552-558.[ZHAO Hongyan, WANG Youheng, WANG Xing, et al. Anomaly distribution of drought-flood and changing characteristics of arid over eastern northwest China during 1961-2008[J]. Arid Land Geography, 2012, 35(4):552-558.]

[30] NEELIN J D, BATTISTI D S, HIRST A C, et al. ENSO theory[J]. Journal of Geophysical Research:Oceans(1978-2012), 1998, 103(C7):14261-14290.

[31] WANG B, WU R, FU X. Pacific-East Asian teleconnection:how does ENSO affect East Asian climate?[J]. Journal of Climate, 2000, 13(9):1517-1536.

[32] ALEXANDER M A, BLADÈ I, NEWMAN M, et al. The atmospheric bridge:The influence of ENSO teleconnections on air-sea interaction over the global oceans[J]. Journal of Climate, 2002, 15(16):2205-2231.

[33] FOLLAND C, RENWICK J, SALINGER M, et al. Relative influences of the interdecadal Pacific oscillation and ENSO on the South Pacific convergence zone[J]. Geophysical Research Letters, 2002, 29(13):21-21-21-24.

[34] BARLOW M, NIGAM S, BERBERY E. ENSO, Pacific decadal variability, and US summertime precipitation, drought, and stream flow[J]. Journal of Climate, 2001, 14(9):2105-2128.

[35] ALLAN R J. ENSO and climatic variability in the past 150 years[R]. ENSO:Multiscale Variability and Global and Regional Impacts, 2000:3-55.

[36] 刘永强,丁一汇. ENSO事件对我国季节降水和温度的影响[J].大气科学, 1995, 19(2):200-208.[LIU Yongqiang, DING Yihui, Reappraisal of the influence ENSO Events on Seasonal Precipitation and Temperature in China[J]. Scientia Atmospherica Sinaca, 1995, 19(2):200-208.]

[37] 卢爱刚,庞德谦,何元庆,等.全球升温对中国区域温度纬向梯度的影响[J].地理科学, 2006, 26(3):345-350.[LU Aigang, PANG Deqian, HE Yuanqing, et al., Asynchronous response of droughts to ENSO in China[J]. Journal of Glaciology And Geocryology, 2006, 26(3):345-350.]

[38] 袁林旺,俞肇元,谢志仁,等. 1965-2005年西北太平洋边缘海区海面变化记录的ENSO信号及其时空分异特征[J].中国科学(D辑), 2009,(5):664-676.[YUAN Linwang, YU Zhaoyuan, XIE Zhiren, et al. ENSO signals and their spatial-temporal variation haracteristics recorded by the sea-level changes in the northwest Pacific margin during 1965-2005[J]. Sci China(Ser D-Earth Sci), 2009,(5):664-676.]

[39] 刘颖,倪允琪. ENSO对亚洲夏季风环流和中国夏季降水影响的诊断研究[J].气象学报, 1998, 56(6):681-691.[LIU Ying, NI Yunqi. Diagnostic research of the effects of ENSO on the Asian Summer monsoon circulation and the Summer Precip-itation in China[J]. Acta Meteorologica Sinica, 1998, 56(6):681-691.]

[40] 李耀辉,李栋梁. ENSO循环对西北地区夏季气候异常的影响[J].高原气象, 2005, 23(6):930-935.[LI Yaohui, LI Dongliang. Effects of ENSO cycle on the summer climate anomaly over northwest China[J]. Plateau Meteorology, 2005, 23(6):930-935.]

[41] 魏凤英.现代气候统计诊断预测技术[M].北京:气象出版社, 2009:99-100.[WEI Fengyin. Strategies of statistical diaglosis and prediction technologies for mordern climate(The second edition)[M]. Beijing:China Meteorological Press, 2009:99-100.]

[42] TORRENCE C, COMPO G. A practical guide to wavelet analysis[J]. Bulletin of the American Meteorological Society, 1998, 79(1):61-78.

[43] 王楠,李栋梁,张杰.黄河中上游流域夏季异常降水的变化特征及环流分析[J].干旱区地理, 2012, 35(5):754-763.[WANG Nan, LI Dongliang, ZHang Jie. Variations and circulation Pattern of drought and flood in summer at middle and upper reaches of Yellow River[J]. Arid Land Geography, 2012, 35(5):754-763.]

[44] 张立伟,延军平,王晓喆,等.气候变化背景下秦岭气候分界线的变化[J].干旱区地理, 2012, 35(4):572-577.[ZHANG Liwei, YAN Junping, WANG Xiaozhe, et al. Climatic boundary variation of Qinling Mountains areas under the background of climate change[J]. Arid Land Geography, 2012, 35(4):572-577.]

Spatial and temporal patterns of precipitation in the west Qinling over the past 60 years

PDF (PC)

Like

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 15

Metrics

Comments

Recommended 0

[1]	WANG Rui, GUO Li, DAI Juncheng, CHENG Zhe. Assessment and spatial pattern of inclusive tourism development in China: Based on panel data of 287 cities [J]. Arid Land Geography, 2024, 47(1): 127-136.
[2]	LIU Wenli, CHEN Zhang, ZHAO Yong, LIANG Yuxin. Influences of soil moisture anomalies in May on June precipitation in Central Asia [J]. Arid Land Geography, 2024, 47(1): 38-47.
[3]	SHI Weiliang, CHE Luyang, LI Tao. Probability distribution and comprehensive risk assessment of extreme precipitation in flood season in Shaanxi Province [J]. Arid Land Geography, 2023, 46(9): 1407-1417.
[4]	NIU Yiying, LI Chunlan, WANG Jun, XU Hanqing, LIU Qing. Performance evaluation of ERA5 reanalysis precipitation data and spatiotemporal characteristics of extreme precipitation in Inner Mongolia [J]. Arid Land Geography, 2023, 46(9): 1418-1431.
[5]	LI Jianhui, CHEN Lin, DANG Zheng. Spatial pattern and influencing factors of patriotic education bases in the Yellow River Basin [J]. Arid Land Geography, 2023, 46(9): 1536-1544.
[6]	CHEN Long, ZHANG Zhibin, ZHAO Xuewei, GUO Qianqian, GUO yan. Formation mechanism and development strategy of regional spatial pattern of Gansu Province [J]. Arid Land Geography, 2023, 46(9): 1556-1566.
[7]	HUANG Xin, JIAO Li, MA Xiaofei, WANG Yonghui, Aerman ABULA. Change characteristics of extreme precipitation events in Central Asia in recent 60 years based on RClimDex model [J]. Arid Land Geography, 2023, 46(7): 1039-1051.
[8]	BAI He, MING Yisen, LIU Qihang, HUANG Chang. Downscaling of GPM satellite precipitation data in the Yellow River Basin based on MGWR model [J]. Arid Land Geography, 2023, 46(7): 1052-1062.
[9]	CHENG Shuo, LI Yanzhong, XING Yincong, YU Zhiguo, WANG Yuangang, HUANG Manjie. Simulation performance of remote sensing precipitation products on hydrological drought characteristics in the source region of the Yellow River [J]. Arid Land Geography, 2023, 46(7): 1063-1072.
[10]	QIU Huimin, WAN Yu, ZHANG Shiming, XIAO Lianyuan, ZHOU Xueying, WEN Chun, JIANG Jujin. Meteorological factor characteristic and index of precipitation types during winter half year in northern Bayingol Prefecture of Xinjiang [J]. Arid Land Geography, 2023, 46(4): 563-573.
[11]	ZHU Lei, LI Yannan, HU Jing, TIAN Xiaobo, XU Jiahui, QING Qi. Multi-scale characteristics and influencing mechanism of spatial pattern on research and practice bases in China [J]. Arid Land Geography, 2023, 46(4): 625-635.
[12]	LIANG Chang’an, DU Guoming, HAO Jun. Spatial-temporal pattern and inducement of agricultural technology innovation in China [J]. Arid Land Geography, 2023, 46(4): 667-677.
[13]	XU Xintong,ZHU Li,LYU Xiaoyu,GUO Hao. Applicability evaluation of MSWEP product for meteorological drought monitoring in the Yellow River Basin [J]. Arid Land Geography, 2023, 46(3): 371-384.
[14]	DIAO Peng,LI Gang,YUAN Xianlei,WEN Chun. Effect of artificial precipitation enhancement in Bayanbulak mountain area in warm seasons based on Budyko model [J]. Arid Land Geography, 2023, 46(12): 1963-1972.
[15]	MA Xiaomin, ZHANG Zhibin, GUO Qianqian, WU Zhixiang, FENG Xueli. Spatial distribution, type structure and influencing factors of popular science education bases in China [J]. Arid Land Geography, 2023, 46(11): 1879-1890.