基于ITPCAS再分析资料中国近地面风速时空变化特征

Abstract

Abstract: Accurate analysis of spatiotemporal variation of near surface wind speed is critical for climate change, evaporation estimation and fog forecast, etc. Using the data of daily near surface wind speed (10 m in height) products provided by ITPCAS reanalyzed dataset from 1979 to 2015 and the daily wind speed data from 110 meteorological stations over China, the applicability of this dataset was analyzed. The wind speed data during the period of 2011-2012 were modified. The spatiotemporal variation of modified wind speed data was analyzed. The results showed that: ① The ITPCAS reanalyzed dataset could basically meet the application requirements, but partial data needed to be modified. The accuracy of the modified wind speed data was greatly improved, which performed satisfactorily, particularly in cold and arid regions of northwest China. There was a good application prospect of the modified wind speed data; ② Wind speed decreased visibly in 62.12% regions of China during 1979-2015, and the decrease rate of the annual mean wind speed was -0.073 m·s^-1 every 10 years over China, in which the highest decrease rate (-0.202 m·s^-1) occurred in the drainage basins in the southeastern; ③ Wind speed in other drainage basins was in a decrease trend except that in the Zhujiang River Basin. The curve of monthly average wind speed over China was unimodal, and the maximum and minimum values appeared in April and December respectively; ④ Decrease of wind speed over China was the most significant from March to June. The change trend of monthly wind speed in the future would maintain in the drainage basins.

Key words: near surface wind speed')">

near surface wind speed, ITPCAS reanalyzed dataset, spatiotemporal variation, applicability analysis; China

ZHANG Xiao-long, SHEN Bing, HUANG Ling-mei. Spatiotemporal Variation of Near Surface Wind Speed over China Based on ITPCAS Reanalyzed Dataset[J].Arid Zone Research, 2020, 37(1): 1-9.

0
/ / Recommend near surface wind speed; ITPCAS reanalyzed dataset; spatiotemporal variation; applicability analysis; China
”. Please open it by linking:http://azr.xjegi.com/EN/abstract/abstract9637.shtml" name="neirong"> near surface wind speed; ITPCAS reanalyzed dataset; spatiotemporal variation; applicability analysis; China
">

Add to citation manager EndNote|Reference Manager|ProCite|BibTeX|RefWorks

URL: http://azr.xjegi.com/EN/

http://azr.xjegi.com/EN/Y2020/V37/I1/1

References 30

[1]	李爽,王羊,李双成.中国近30年气候要素时空变化特征[J].地理研究,2009,28(6):1 593-1 605.[Li Shuang,Wang Yang,Li Shuangcheng.Spatio-temporal patterns of climatic change in China in recent 30 years[J].Geographical Research,2009,28(6):1 593-1 605.]
[2]	Diffenbaugh N S,Fifld C B.Changes in ecologically critical terrestrial climate conditions[J].Science,2013,341(6 145):486-492.
[3]	Hansen J,Sato M,Ruedy R.Perception of climate change[J].Proceedings of the National Academy of Sciences,2012,109(37):2 415-2 423.
[4]	O’Gorman P A,Schneider T.The physical basis for increases in precipitation extremes in simulations of 21st-century climate change[J].Proceedings of the National Academy of Sciences,2009,106(35):14 773-14 777.
[5]	王遵娅,丁一汇,何金海,等.近50年来中国气候变化特征的再分析[J].气象学报,2004,62(2):228-236.[Wang Zunya,Ding Yihui,He Jinhai,et al.An updating analysis of the climate change in China in recent 50 years[J].Acta Meteorologica Sinica,2004,62(2):228-236.]
[6]	史培军,张钢锋,孔峰,等.中国1961—2012年风速变化区划[J].气候变化研究进展,2015,11(6):387-394.[Shi Peijun,Zhang Gangfeng,Kong Feng,et al.Wind speed change regionalization in China in 1961-2012[J].Climate Change Research,2015,11(6):387-394.]
[7]	熊敏诠.近30年中国地面风速分区及气候特征[J].高原气象,2015,34(1):39-49.[Xiong Minquan.Climate regionalization and characteristics of surface wind over China in recent 30 years[J].Plateau Meteorology,2015,34(1):39-49.]
[8]	汪步惟,张雪芹.1971—2014年青藏高原参考蒸散变化及其归因[J].干旱区研究,2019,36(2):269-279.[Wang Buwei,Zhang Xueqin.Change and attribution of reference evapotranspiration over the Tibetan Plateau during the period of 1971-2014[J].Arid Zone Research,2019,36(2):269-279.]
[9]	曹静,阿拉木萨.科尔沁沙地西部蒸发皿蒸发量变化及其影响因子分析[J].干旱区研究,2018,35(2):418-424.[Cao Jing,Aramusa.Variation of pan evaporation and its affecting factors in the west Horqin Sandy Land[J].Arid Zone Research,2018,35(2):418-424.]
[10]	于文金,吴雁,黄亦露,等.河北省雾霾波动变化特征及成因研究[J].大气科学学报,2016,34(4):554-561.[Yu Wenjin,Wu Yan,Huang Yilu,et al.Study on the characteristics and causes of the change of haze in Hebei[J].Journal of Atmospheric Science,2016,34(4):554-561.]
[11]	吴萍,丁一汇,柳艳菊,等.中国中东部冬季霾日的形成与东亚冬季风和大气湿度的关系[J].气象学报,2016,46(3):352-366.[Wu Ping,Ding Yihui,Liu Yanju,et al.The formation of esat-central China winter haze and relations with East Asia winter monsoon and atmospheric humidity[J].Acta Meteorologica Sinica,2016,46(3):352-366.]
[12]	孔峰,王一飞,方佳毅,等.1957—2015年中国低能见度日数时空变化特征[J].干旱区研究,2017,34(6):1 203-1 213.[Kong Feng,Wang Yifei,Fang Jiayi,et al.Spatio-temporal variation of the days of low visibility in China during the period from 1957 to 2015[J].Arid Zone Research,2017,34(6):1 203-1 213.]
[13]	Song L C,Gao R,Li Y,et al.Analysis of China’s haze days in the winter half year and the climatic background during 1961-2012[J].Advances in Climate Change Research,2014,5(5):1-6.
[14]	王存忠,牛生杰,王兰宁.50年来中国沙尘暴的多时间尺度变化特征[J].大气科学学报,2009,32(4):507-512.[Wang Cunzhong,Niu Shengjie,Wang Lanning.Multi-timescale variation of sand-dust storm in China during 1958-2007[J].Transactions of Atmospheric Sciences,2009,32(4):507-512.]
[15]	Vautard R,Cattiaux J,Yiou P,et al.Northern hemisphere atmospheric stilling partly attributed to an increase in surface roughness[J].Nature Geoscience,2010,3(11):756-761.
[16]	McVicar T R,Roderick M L,Donohue R J,et al.Global review and synthesis of trends in observed terrestrial near-surface wind speeds:Implications for evaporation[J].Journal of Hydrology,2012,416(3):182-205.
[17]	McVicar T R,Niel T G V,Li L T,et al.Wind speed climatology and trends for Australia,1975-2006:Capturing the stilling phenomenon and comparison with nearsurface reanalysis output[J].Geophysical Research Letters,2008,35(20):288-299.
[18]	Pryor S C,Barthelmie R J,Riley E S.Historical evolution of wind climates in the USA[J].Journal of Physics:Conference Series,2007.http://doi:10.1088/1742-6596175/1/012065.
[19]	Wan H,Wang X L,Swail V R.Homogenization and trend analysis of Canadian nearsurface wind speeds[J].Journal of Climate,2010,23(5):1 209-1 225.
[20]	Pirazzoli P A,Tomasin A.Recent nearsurface wind changes in the central Mediterranean and Adriatic areas[J].International Journal of Climatology,2003,23(8):963-973.
[21]	Jiang Y,Luo Y,Zhao Z.Maximum wind speed changes over China[J].Acta Meteorologica Sinica,2013,27(1):63-74.
[22]	赵佳莹,徐海明.中国区域探空资料与再分析资料风速场的对比分析[J].气候与环境研究,2014,19(5):587-600.[Zhao Jiaying,Xu Haiming.Comparison of wind velocity among reanalysis and radiosonde datasets over China[J].Climatic and Environmental Research,2014,19(5):587-600.]
[23]	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):942-956.[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):942-956.]
[24]	荣艳淑,梁嘉颖.华北地区风速变化的分析[J].气象科学,2008,28(6):655-658.[Rong Yanshu,Liang Jiaying.Analysis of variation of wind speed over North China[J].Scientia Meteorologica Sinica,2008,28(6):655-658.]
[25]	张志斌,杨莹,张小平,等.我国西南地区风速变化及其影响因素[J].生态学报,2014,34(2):471-481.[Zhang Zhibin,Yang Ying,Zhang Xiaoping,et al.Wind speed changes and its influencing factors in Southwestern China[J].Acta Ecologica Sinica,2014,34(2):471-481.]
[26]	曾淑玲,程一帆,王式功,等.我国西北和内蒙古地区春季沙尘暴的年代际变化及原因探析[J].中国沙漠,2010,30(5):1 200-1 206.[Zeng Shuling,Cheng Yifan,Wang Shigong,et al.Decadal change of spring sand dust storm in Northwest and Inner Mongolia of China and its cause[J].Journal of Desert Research,2010,30(5):1 200-1 206.]
[27]	任国玉,战云健,任玉玉,等.中国大陆降水时空变异规律I:气候学特征[J].水科学进展,2015,26(3):299-310.[Ren Guoyu,Zhan Yunjian,Ren Yuyu,et al.Spatial and temporal patterns of precipitation variability over mainland China I:Climatology[J].Advances in Water Science,2015,26(3):299-310.]
[28]	张晓龙,沈冰,黄领梅,等.基于多源数据集估算缺资料地区地表净辐射及其时空变化特征[J].西安理工大学学报,2018,34(4):379-387.[Zhang Xiaolong,Shen Bing,Huang Lingmei,et al.Estimation of surface net radiation and its temporal and spatial variations in ungauged region based on multisource data sets[J].Journal of Xi’an University of Technology,2018,34(4):379-387.]
[29]	张晓龙,韩颖,黄领梅,等.降水变化及人类活动对金钱河流域径流的影响[J].水资源与水工程学报,2015,26(4):11-14.[Zhang Xiaolong,Han Ying,Huang Lingmei,et al.Impact of precipitation change and human activity on runoff in Jinqian river basin[J].Journal of Water Resources & Water Engineering,2015,26(4):11-14.]
[30]	张晓伟,沈冰,孟彩侠.和田绿洲水文气象要素分形特征与R/S分析[J].中国农业气象,2008,29(1):12-15.[Zhang Xiaowei,Shen Bing,Meng Caixia.Fractal characteristics and R/S analysis of hydrometeor in Hotian Oasis of Xinjiang Autonomous Region[J].Chinese Journal of Agrometeorology,2008,29(1):12-15.]

Spatiotemporal Variation of Near Surface Wind Speed over China Based on ITPCAS Reanalyzed Dataset

PDF (PC)

Like

Knowledge

Abstract

Cite this article

share this article

References 30

Related Articles 15

Metrics

Comments

Recommended 0

[1]	WEN Miaoxia, HE Xuegao, LIU Huan, ZHANG Jing, LUO Chen, JIA Fengming, WANG Yigui, HU Yunyun. Analysis of the spatiotemporal variation characteristics and driving factors of grassland vegetation cover in Ningxia based on geographical detectors [J]. Arid Zone Research, 2023, 40(8): 1322-1332.
[2]	ZHAO Zhuoyi, HAO Xingming. Actual evapotranspiration characteristics and attribution in arid Central Asia based on the Priestley-Taylor method [J]. Arid Zone Research, 2023, 40(7): 1085-1093.
[3]	FANG He,YAN Peiwen,SHI Jian,KANG Juan,LIU Hairong,CHEN Dan,LUO Ji,XU Dong. Temporal and spatial variation of vegetation ecological quality and its driving mechanism in Aksu prefecture [J]. Arid Zone Research, 2022, 39(6): 1907-1916.
[4]	WANG Bo, DUAN Yu-xi, WANG Wei-feng, LI Xiao-jing, LIU Yuan, LIU Zong-qi. Spatial and temporal variability of soil moisture content during vegetation succession in sand-binding areas [J]. Arid Zone Research, 2020, 37(4): 881-889.
[5]	JIAO Wen-hui, ZHANG Bo, HUANG Tao, MA Shang-qian, HOU Qi. Spatiotemporal Change of Extreme Temperature in the Hedong Region in Recent 30 Years [J]. Arid Zone Research, 2019, 36(6): 1466-1477.
[6]	Nijiati Yimier, Mansur Shabiti, Yusufu Maimaiti. Spatiotemporal Variation of Vegetation NDVI and Its Relationship with Climatic Factors on the Northern Slope of the Tianshan Mountains [J]. Arid Zone Research, 2019, 36(5): 1250-1260.
[7]	LI Jian-fei, LI Xiao-bing, ZHOU Yi. Spatiotemporal Variation of NDVI and Its Affecting Factors in Ulanqab City in Growing Season from 2000 to 2015 [J]. Arid Zone Research, 2019, 36(5): 1238-1249.
[8]	CHEN Zhi-qing, SHAO Tian-jie, ZHAO Jing-bo. Spatiotemporal Variation of Ozone Concentration and Its Affecting Factors over Inner Mongolia in Recent 3 Years [J]. Arid Zone Research, 2019, 36(4): 990-996.
[9]	MOU Le, LU Yi-xiao, YANG Hui-min, FENG Qi-sheng. Spatiotemporal Variation of Vegetation Cover in the Pastoral Area in Northwestern China during the Period of 1981-2015 [J]. , 2018, 35(3): 615-623.
[10]	. Spatiotemporal Variation of Drought in the Qaidam Basin [J]. , 2018, 35(2): 387-394.
[11]	XU Jiao-mei, XU Wen-xiu, LI Da-ping. Spatiotemporal Variation of Heat Resources in the Ili River  Basin in Recent 51 Years [J]. , 2014, 31(3): 472-480.
[12]	WAN Hong-Lian, ZHOU Qi, FAN Wei-Han, LIU Xi. Flood Disasters in the Baoji Region during the Period of A.D. 600-2000 [J]. , 2013, 30(4): 697-704.
[13]	WANG Jin-Feng, CHANG Xue-Xiang. Change Trend of Groundwater Depth in Linze County in Middle Reaches of the Heihe River Basin in Recent 30 Years [J]. , 2013, 30(4): 594-602.
[14]	LI Jun-Li, SHENG Yong-Wei. Spatiotemporal Pattern and Process of Inland Lake Change in the Qinghai-Tibetan Plateau during the Period of 1976-2009 [J]. , 2013, 30(4): 571-581.
[15]	YAN Yun-Xia, WANG Sui-Ji, YAN Ming, HE Li. Spatiotemporal Variation of Groundwater Depth in Ganzhou District in Middle Reaches of the Heihe River Basin [J]. , 2013, 30(3): 412-418.