Analysis on Surface Energy in Grassland and Gobi in Summer
Received date: 2007-04-15
Revised date: 2007-05-16
Online published: 2007-06-10
Using field observation data, the characteristics of surface energy in summer in grassland of Qilian mountain and Zhangye Gobi of Hexi corridor were analyzed, as well as the relations between environment factors and characteristics of surface energy were discussed. The results indicated that RN and LE flux in grassland is higher than that in Gobi, and Hs and soil heat flux in Gobi is higher than that in grassland on a typical clear day in summer. In grassland LE is three times as large as Hs and soil heat flux. In Gobi Hs and soil heat flux is twice as large as LE. The surface energy is not balance in grassland and Gobi. In grassland the sum of LE, Hs and soil heat flux is smaller than RN. In Gobi the sum of LE, Hs and soil heat flux is bigger than RN. The difference between RN and sum of LE, Hs and soil heat flux on a cloudy day is bigger than that on a clear day as well as it in Gobi is bigger than that in grassland. Main environment factor that influences the difference of RN in grassland and Gobi is sun's radiation. Main environment factors that influence the difference of LE, Hs and soil heat flux in grassland and Gobi are surface vegetation and water.
Key words: Hs; Soil heat flux.; Grassland and Gobi; LE
WANG Run-yuan, LIU Hong-yi, ZHANG Qiang, ZHAO Hong, YANG Xing-guo,et al . Analysis on Surface Energy in Grassland and Gobi in Summer[J]. Advances in Earth Science, 2007 , 22(6) : 642 -648 . DOI: 10.11867/j.issn.1001-8166.2007.06.0642
[1]Zhang Qiang, Hu Yinqiao. Scientific problems and advance of atmospheric boundary layer physics[J].Advances in Earth Science,2001,16(4):526-532.[张强, 胡隐樵.大气边界层物理学的研究进展和面临的科学问题[J].地球科学进展,2001,16(4):526-532.]
[2]Sun Lan, Wu Guoxiong. Impact of evapotranspiration of land surface on climate change[J].Science in China(Series D), 2001,34(1):59-69.[孙岚,吴国雄.陆面蒸散对气候变化的影响[J]. 中国科学:D辑,2001,31(1):59-69.]
[3]Niu Guoyue, Hong Zhongxiang, Sun Shufen. Status and developmental trends of land surface processes study[J].Advances in Earth Science,1997,12(1):20-25.[牛国跃, 洪钟祥, 孙菽芬. 陆面过程研究的现状与发展趋势[J].地球科学进展,1997, 12(1): 20-25.]
[4]Liu Changming, Sun Rui. Ecological Aspects of Water Cycle: Advances in Soil-Vegetation-Atmosphere of Energy and Water Fuxes[J].Advances in Water Science,1999,10(3):251-259. [刘昌明, 孙睿.水循环的生态学方面:土壤—植被—大气系统水分能量平衡研究进展[J].水科学进展, 1999, 10(3):251-259.]
[5]Hu Yinqiao, Gao Youxi. Some new understanding of processes at the land surface in arid area from the HEIFE[J].Acta Meteorological Sinica,1994,52(3):285-296.[胡隐樵,高由禧. 黑河实验(HEIFE)——对干旱地区陆面过程的一些新认识[J].气象学报,1994,52(3):285-296.]
[6]LI Min, Jang Weimei, Li Xin,et al.A test of the dynamical nonstationarity in atmospheric boundary layer turbulence[J].Chinese Journal of Geophysics, 2005,48(3):493-500.[李敏, 蒋维楣, 李昕,等.大气边界层湍流的动力非平稳性的验证[J].地球物理学报, 2005, 48(3):493-500.]
[7]Zhang Qiang, Cao Xiaoyan. Numerical simulation of the land-surface process over desert and Gobi in arid region of northwest China[J].Acta Meteorological Sinica,2003,61(2):219-225.[张强,曹晓彦.西北干旱区荒漠戈壁陆面过程的数值模拟[J].气象学报,2003,61(2):219-225.]
[8]Zhang Qiang, Zhou Yi. The characteristics of budget of radiation and energy as well microclimate of Dunhuang oasis on a typical clear day in summer[J].Journal of Plant Ecology,2002,26(6):717-723.[张强,周毅.敦煌绿洲夏季典型晴天地表辐射和能量平衡及小气候特征[J].植物生态学报,2002,26(6):717-723.]
[9]Zhang Qiang, Song Lianchun, Huang Ronghui. Characteristcs of hydrologic transfer between soil and atmosphere over Gobi near oasis at the end of summer[J].Advances in Atmospheric Sciences,2003,20(3):442-452.
[10]Wang Jiemin. Land surface process experiments and interaction study in China-from HEIFE to IMGRASS and GAME Tibet/TIPER[J].Plateau Meteorology,1999,18(3):280-294.[王介民. 陆面过程实验和地气相互作用研究——从HEIFE到IMGRASS和GAME Tibet/TIPER[J].高原气象,1999,18(3):280-294.]
[11]Lü Daren, Chen Zuozhong, Wang Gengchen,et al.Climate-ecology interaction in inner MONGOLIA semi-arid grassland-preliminary results of IMGRASS project[J].Earth Science Frontiers,2002, 9(2): 307-320.[吕达仁,陈佐忠,王庚辰,等. 内蒙古半干旱草原气候生态相互作用问题-IMGRASS计划初步结果[J].地学前缘,2002,9(2):307-320.]
[12]Hu Yinqiao, Sun Shufen, Zheng Yuanrun,et al.Review of study interaction between underlying surface with sparse vegetation and atmosphere[J].Plateau Meteorology,2004,23(3): 281-296.[胡隐樵, 孙菽芬, 郑元润,等.稀疏植被下垫面与大气相互作用研究进展[J].高原气象, 2004,23(3): 281-296.]
[13]Ma Yaoming, Yao Tandong,Wang Jiemin. Experimental study of energy and water cycle in Tibetan plateau—The progress introduction on the study of GAME/Tibet and CAMP/ Tibet[J].Plateau Meteorology,2006, 25(2): 344-351.[马耀明,姚檀栋,王介民.青藏高原能量和水循环试验研究——GAME/Tibet与CAMP/ Tibet研究进展[J].高原气象,2006, 25(2):344-351.]
[14]Wang Sheng,Zhang Qiang, Wei Guoan. Modeling land-surface characteristics under precipitation in a typical arid region of China[J].Chinese Journal of Geophysics,2006,49(2): 383-390.[王胜, 张强, 卫国安. 降水条件下的典型干旱区陆面特征模拟验证[J].地球物理学报, 2006,49(2):383-390.]
[15]Chao Jiping, Zhou Degang. A simple analytical theory of coupling between the atmosphere boundary layer and plant[J].Chinese Journal of Atmospheric Sciences,2005,29(1): 37-46.[巢纪平,周德刚.大气边界层动力学和植被生态过程耦合的一个简单解析理论[J].大气科学,2005, 29(1): 37-46.]
[16]Ma Weiqiang, Ma Yaoming, Hu Zeyong,et al.Analyses on surface radiation budget in northern Tibetan plateau[J].Plateau Meteorology,2004,23(3):348-352.[马伟强, 马耀明, 胡泽勇,等.藏北高原地面辐射收支的初步分析[J].高原气象,2004,23(3):348-352.]
[17]Ma Weiqiang, Ma Yaoming. Analyses on surface energy in arid regions in northwest China[J].Arid Zone Research,2004,23(3):348-352.[马伟强,马耀明.西北干旱区地表能量初步分析[J].干旱区研究.2006,23(2):348-352.]
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