收稿日期: 2011-12-30
修回日期: 2012-04-16
网络出版日期: 2012-08-10
基金资助
中国科学院“西部博士”资助项目“动态植被—气候耦合模式对黄河源区放牧及生态修复工程的生态气候效应研究”;国家自然科学基金重点项目“黄河源区典型下垫面水热循环及其对区域气候的影响研究”(编号:41130961);国家自然科学基金项目“黄河源玛曲牧区草地退化对地表能量输送及碳通量特征的影响研究”(编号:40975008)资助.
Analysis of the Statistical Characteristics of the Turbulent Data at Maqu Area in the Upper Yellow River
Received date: 2011-12-30
Revised date: 2012-04-16
Online published: 2012-08-10
李锁锁 , 吕世华 , 高艳红 , 奥银焕 , 柳媛普 . 黄河上游玛曲草原湍流统计特征分析[J]. 地球科学进展, 2012 , 27(8) : 901 -907 . DOI: 10.11867/j.issn.1001-8166.2012.08.0901
Turbulent motion is the basic characteristics of atmospheric motion and main method of exchange of matter and energy. In this paper, the observed turbulence data from Yellow River source region climate and environment observation and research station is used to calculate and analyze the turbulence transportation characteristic. The turbulence statistical characteristicσu/u*,σv/u*,σw/u* versus stability z/L are in agree with the “1/3”law, under neutral stratification condition,σu/u*,σv/u*,σw/u* is near to a constant 3.42, 3.34, 1.02; The turbulence kinetic energy increases when wind speed increases, especially in day time; The turbulent kinetic energy is smaller in the night time than in day time, and the change trend of turbulent kinetic energy slower in night time than in day time; The change of turbulent kinetic energy virus stability parameter is obvious, and the maximum is under neutral stratification condition. The turbulent intensity increases when wind speed increases; When the wind speed is bigger than 0 and less than 2 m/s, the change of turbulent intensity is very obvious, when the wind speed is bigger than 5 m/s, the change of turbulent intensity is not obvious.
[1]Liu Shuhua, Li Jie, Liu Heping, et al. Characteristics of macroturbulence variables in EBEX-2000[J]. Chinese Journal of Atmospheric Sciences, 2005, 29(4):503-509.[刘树华,李洁,刘和平,等.在EBEX-2000实验资料中的湍流宏观量特征[J].大气科学,2005,29(4):503-509.]
[2]Zhang Hongsheng, Li Fuyu, Chen Jiayi,et al. Statistical characteristics of atmospheric turbulence in different underlying surface conditions[J]. Plateau Meteorlogy, 2004, 23(5):598-604.[张宏升,李富余,陈家宜,等.不同下垫面湍流统计特征研究[J].高原气象, 2004, 23(5):598-604.]
[3]Shang Lunyu, Lü Shihua, Zhang Yu, et al. Analysis on atmospheric surface layer turbulence characteristic during soil freezing and thawing seasons in Eastern Tibet Plateau[J]. Plateau Meteorology, 2011, 30(1):30-37.[尚伦宇,吕世华,张宇,等.青藏高原东部土壤冻融过程中近地层湍流统计特征分析[J].高原气象, 2011,30(1):30-37.]
[4]Li Maoshan, Hu Zeyong, Ma Weiqiang, et al. The turbulent features in the upper reaches of Heihe River[J]. Journal of Glaciology and Geocryology, 2010, 32(2): 309-315.[李茂善,胡泽勇,马伟强,等.黑河流域上游大气湍流特征分析[J].冰川冻土, 2010, 32(2):309-315.]
[5]Zhang Longsheng,Ma Lipeng. Study on desertification in Maqu county, upstream of Huanghe River[J]. Journal of Desert Research, 2001,21(1):84-87.[张龙生,马立鹏. 黄河上游玛曲县土地沙漠化研究[J]. 中国沙漠,2001,21(1):84-87.]
[6]Pan Jinghu, Liu Juling. Land use change and its impact in the eco-environment on the Yellow River source region during the past 15 years[J]. Journal of Arid Land Resource and Environment,2005, 19(4):69-74.[潘竟虎,刘菊玲.黄河源区土地利用和景观格局变化及其生态环境效应[J].干旱区资源与环境,2005,19(4):69-74.]
[7]Arya S P S,Sundararajan A. An assessment of proposed similarity theories for the atmospheric boundary layer[J]. Boundary-Layer Meteorology,1976,10(2):149-166.
[8]Panofsky H A, Tennekes H, Lenschow D H,et al. The characteristic of turbulent velocity components in the surface layer under convective condition[J]. Boundary-Layer Meteorology,1977,11(2):355-361.
[9]Wang Jiemin, Liu Xiaohu, Ma Yaoming. Turbulence structure and transfer characteristics in the surface layer of HEIFE Gobi area[J]. Acta Meteorologica Sinica, 1993,51:343-350.[王介民,刘晓虎,马耀明.HEIFE戈壁地区近地层大气的湍流结构和输送特征[J].气象学报,1993,51:343-350.]
[10]Ma Yaoming, Ma Weiqiang, Hu Zeyong, et al. Similarity analysis of atmospheric turbulent intensity over grassland surface of Qinghai-Xizang Plateau[J]. Plateau Meteorology, 2002,21(5):514-517.[马耀明,马伟强,胡泽勇,等. 青藏高原草甸下垫面湍流强度相似性关系分析[J]. 高原气象, 2002, 21(5):514-517.]
[11]Zhong Lei, Ma Yaoming, Su Zhongbo, et al. Atmospheric turbulence and land-atmosphere energy transfer characteristics in the surface layer of the northern slope of Mt. Qomolangma area[J]. Advances in Earth Science, 2006,21(12):1 293-1 303.[仲雷, 马耀明,苏中波,等. 珠峰北坡地区近地层大气湍流与地气能量交换特征[J]. 地球科学进展, 2006, 21(12):1 293-1 303.]
[12]Li Maoshao, Ma Yaoming, Ma Weiqiang, et al. Analysis of turbulence characteristics over the northern Tibetan Plateau area[J]. Advances in Atmospheric Sciences, 2006, 23(4): 579-585.
[13]Panofsky H A, Dutton J A. Atmospheric Turbulence[M].New York: John Wiley and Sons, 1984.
[14]Panofsky H A, Teanekes H, Lenschow D H, et al. The characteristics of turbulent velocity components in the surface layer under convective conditions[J]. Boundary-Layer Meteorology, 1977, 11:355-361.
[15]Liu Huizhi, Hong Zhongxiang. Turbulent characteristics in the surface layer over Gerze in the Tibetan Plateau[J].Chinese Journal of Atmospheric Sciences, 2000,24(3):289-300.[刘辉志,洪忠祥.青藏高原改则地区近地层湍流特征[J].大气科学,2000,24(3):289-300.]
[16]Liu Huizhi, Hong Zhongxiang, Zhang Hongsheng. The turbulent characteristics in the surface layer over dune at Naiman in Inner Mongolia[J]. Chinese Journal of Atmospheric Sciences, 2003,27(3):389-398.[刘辉志,洪忠祥, 张宏升. 内蒙古奈曼流动沙丘下垫面湍流输送特征初步研究[J]. 大气科学,2003,27(3):389-398.]
[17]Liu Shuhua, Liu Heping, Hong Zhongxiang, et al. The turbulence structure in the near-surface atmospheric layer over the Horqin Grassland[J]. Sciatica Atmospheric Sinica, 1996,20(3):378-383.[刘树华,刘和平,洪忠祥,等. 我国草原下垫面低层大气湍流结构[J].大气科学,1996,20(3):378-383.]
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