亚博app

[1]王丽娟,郭铌,杨扬.基于MODIS遥感资料估算高原地表潜热通量[J].亚博app,2017,24(03):119-124,129.
 WANG Lijuan,GUO Ni,YANG Yang.Surface Latent Heat Estimated by Remote Sensing Over the Tibetan Plateau[J].,2017,24(03):119-124,129.
点击复制

基于MODIS遥感资料估算高原地表潜热通量

参考文献/References:

[1] 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/TIPEX[J].高原气象,1999,18(3):280-294.
[2] 章基嘉,朱抱真,朱福康.青藏高原气象学进展[M].北京:科学出版社,1988.
[3] 李国平,段廷扬.青藏高原西部地区的总体输送系数和地面通量[J].科学通报,2000,45(8):865-869.
[4] Chen X, Su Z, Ma Y, et al. Estimation of surface energy fluxes under complex terrain of Mt. Qomolangma over the Tibetan Plateau[J]. Hydrology and Earth System Sciences,2013,17(4):1607-1618.
[5] Chen X, Su Z, Ma Y, et al. An improvement of roughness height parameterization of the Surface Energy Balance System (SEBS) over the Tibetan Plateau[J]. Journal of Applied Meteorology and Climatology,2013,52(3):607-622.
[6] 马耀明,仲雷,田辉,等.青藏高原非均匀地表区域能量通量的研究[J].2006.
[7] 张海宏,周秉荣,肖宏斌.高寒草甸和高寒湿地土壤水热特征比较[J].干旱气象,2015,33(5):783-789.
[8] 李艳芳,孙建.青藏高原NDVI时空变化特征研究(1982-2008)[J].云南农业大学学报:自然科学,2015,30(5):790-798.
[9] 石玉立,宋蕾.1998-2012年青藏高原TRMM3B43降水数据的校准[J].干旱区地理,2015(5):900-911.
[10] 许时光,牛铮,沈艳,等.CMORPH对青藏高原地区夏季降水的模拟精度研究与修正[J].遥感信息,2015(1):71-76.
[11] 杨秀芹,王国杰,潘欣,等.基于GLEAM遥感模型的中国1980-2011年地表蒸散发时空变化[J].农业工程学报,2015,31(21):132-141.
[12] 陈少勇,王劲松,邢晓宾,等.青藏高原OLR异常与中国西北干旱区气温的关系[J].干旱气象,2011,29(3):276-282.
[13] Wang K, Wang P, Li Z, et al. A simple method to estimate actual evapotranspiration from a combination of net radiation, vegetation index, and temperature[J]. Journal of Geophysical Research:Atmospheres,2007,112(D15).
[14] Wang K, Liang S. Estimation of daytime net radiation from shortwave radiation measurements and meteorological observations[J]. Journal of applied Meteorology and Climatology,2009,48(3):634-643.
[15] Allen R G, Pereira L S, Raes D, et al. Crop evapotranspiration-Guidelines for computing crop water requirements-FAO Irrigation and drainage paper 56[J]. FAO, Rome,1998,300(9):D05109.
[16] 梁顺林,范闻捷.定量遙感[M].北京:科学出版社,2009.

相似文献/References:

[1]魏东岚,李永化.青藏高原东缘第四纪泥石流沉积物地球化学分析[J].亚博app,2012,19(06):292.
 WEI Dong-lan,LI Yong-hua.The Geochemistry Analysis of the Debris Flow Sediment in the Quaternary at the Eastern Fringe of Qinghai-Tibetan Plateau[J].,2012,19(03):292.
[2]何晓蓉,李辉霞,范建容,等.青藏高原流域廊道体系对生态环境的影响—以尼洋河流域为例[J].亚博app,2004,11(02):97.
 HE Xiao-rong,LI Hui-xia,FAN Jian-rong,et al.Influences of Corridor System on Eco-environment of Basin in the Qinghai-Tibet Plateau——Take the Niyang River Basin for Example[J].,2004,11(03):97.
[3]陈宗伟,江玉林,张洪江,等.青藏高原高速公路建设中弃土场土壤流失特性——以青海平阿高速公路为例[J].亚博app,2006,13(06):4.
 CHEN Zong-wei,JIANG Yu-lin,ZHANG Hong-jiang,et al.The Properties of the Soil Loss in the Spoil Area During the Construction of Expressway in Tibetan Plateau——Example as the Ping’a Express in Qinghai Province[J].,2006,13(03):4.
[4]刘兰华,李耀增,康锋锋.高原地区铁路建设生态恢复技术初探——以青藏铁路格唐段为例[J].亚博app,2007,14(01):310.
 LIU Lan-hua,LI Yao-zeng,KANG Feng-feng.Preliminary Study on Eco-recovery Technology of Railway Construction in Plateau Region——Taking Geermu-Tanggulashan Part of the Qinghai-Tibet Railway as an Example[J].,2007,14(03):310.
[5]王兮之,何巧如,李森,等.青藏高原土地退化类型及其退化程度评价[J].亚博app,2009,16(04):14.
 WANG Xi-zhi,HE Qiao-ru,LI Sen,et al.Assessment of Land Degradation on Qinghai-Tebet Plateau[J].,2009,16(03):14.
[6]李长斌,彭云峰,赵殿智,等.降水变化和氮素添加对青藏高原高寒草原群落结构和物种多样性的影响[J].亚博app,2016,23(06):185.
 LI Changbin,PENG Yunfeng,ZHAO Dianzhi,et al.Effects of Precipitation Change and Nitrogen Addition on Community Structure and Plant Diversity in an Alpine Steppe on the Qinghai-Tibetan Plateau[J].,2016,23(03):185.
[7]吴成启,唐登勇.近50年来全球变暖背景下青藏高原气温变化特征[J].亚博app,2017,24(06):262.
 WU Chengqi,Tang Deng Yong.Change of Temperature in The Tibetan Plateau in the Context of Global Warming in Recent 50 Years[J].,2017,24(03):262.
[8]郭小伟,杜岩功,李以康,等.高寒草甸植被层对于草地甲烷通量的影响[J].亚博app,2015,22(01):146.
 GUO Xiaowei,DU Yangong,LI Yikang,et al.Effects of Vegetation Layers on Methane Flux in Alpine Meadow on the Tibetan Plateau[J].,2015,22(03):146.
[9]王丽,张镱锂,王兆锋,等.放牧及水文扰动对拉萨地区湿草甸湿地土壤特征的影响[J].亚博app,2013,20(01):66.
 WANG Li,ZHANG Yi-li,WANG Zhao-feng,et al.Effects of Grazing and Hydrological Disturbance on Soil Properties of Wet Meadow Wetland in Lhasa[J].,2013,20(03):66.
[10]安志山,张克存,屈建军,等.青藏铁路沿线风沙灾害特点及成因分析[J].亚博app,2014,21(02):285.
 AN Zhi-shan,ZHANG Ke-cun,QU Jian-jun,et al.Sand Hazard Characteristics and Genetic Analysis along the Qinghai-Tibet Railway[J].,2014,21(03):285.

备注/Memo

收稿日期:2015-05-03;改回日期:2015-06-16。
基金项目:公益性行业(气象)科研专项(重大专项)“中国干旱气象科学研究——我国北方干旱致灾过程及机理”(GYHY201506001-5);中国气象局成都高原气象研究所高原气象开放基金课题“基于TESEBS模式估算青藏高原的地表能量通量”(LPM2014008)
作者简介:王丽娟(1986-),女,四川广安人,理学硕士,助理研究员,主要从事陆面及卫星遥感研究。E-mail:
通讯作者:郭铌(1963-),女,新疆乌鲁木齐市人,学士,研究员,主要从事气候和卫星遥感研究。E-mail:

更新日期/Last Update: 1899-01-01
金沙体育-金沙体育官网 亚博app yabo88_yabo88官网-「开户首充送大礼」 英亚国际 十大网投信誉平台-全球十大信誉网投平台-亚博app