%0 Journal Article
%T Modeling the Albedo of Mixed Forest Canopy and Snow<br>雪地上的森林冠层混合反照率模型
%A JIANG Ling-mei
%A YANG Hu
%A WANG Jin-di
%A LI Xiao-wen
%A Kimberly J Schaudt
%A <br>蒋玲梅
%A 杨华
%A 王锦地
%A 李小文
%A Kimberly J. Schaudt
%J 遥感学报
%D 2003
%I 
%X A key component of the surface energy balance over land is the albedo, defined as the ratio of the integrated total of reflected solar radiation to the integral of the incoming solar radiation. Climate is sensitive to albedo variation and its changes by natural variations and human activities. Predictions of climate change typically use a GCM linked to a land surface model. Land surface models, e. g. Biosphere Atmosphere Transfer Scheme(BATS), estimate albedo of trees over snow roughly with the parameters of roughness length, Z 0, and snow depth, d . Based on their work, we further consider the difference in directional to hemisphere albedo for different solar zenith angle( SZA ), and leaf area index( LAI )dependence. In order to keep the basic feature of BATS model and add these two new features, we simplified geometric optical and radiative transfer(GORT)hybrid model to reach this purpose. In this paper, we take the conifer as an example. And we validate the model initially with observational data from MODIS and from BOREAS. Results show that: this model can simulate the observations well. This model can be rather simple to retrieve the albedo of remote sensing pixel. It can be a strong tool for understanding the climate system.
%K GORT model
%K grid albedo
%K directional gap probability
%K openness<br>反照率模型
%K 森林冠层
%K 混合像元反照率
%K 方向间隙率
%K 开放度
%K GORT模型
%U http://www.alljournals.cn/get_abstract_url.aspx?pcid=E62459D214FD64A3C8082E4ED1ABABED5711027BBBDDD35B&cid=A41A70F4AB56AB1B&jid=F926358B31AC94511E4382C083F7683C&aid=17FF5B2E8922033A&yid=D43C4A19B2EE3C0A&vid=DF92D298D3FF1E6E&iid=B31275AF3241DB2D&sid=DDEED1BDDBFAA8A7&eid=AC2617B68B137D9D&journal_id=1007-4619&journal_name=遥感学报&referenced_num=2&reference_num=12