植被年际变化对蒸散发影响的模拟研究  被引量：6

作　　者：陈浩[1,2,3] 曾晓东[1] 

机构地区：[1]中国科学院大气物理研究所国际气候与环境科学中心,北京100029 [2]中国科学院研究生院,北京100049 [3]中国气象局公共气象服务中心,北京100081

出　　处：《生态学报》2013年第14期4343-4353,共11页Acta Ecologica Sinica

基　　金：国家"十一五"863计划重点项目(2009AA122100);973计划(2009CB421406)

摘　　要：利用通用陆面模式(CLM3.0)及其植被动力学模式(DGVM)研究植被覆盖度(FC)和叶面积指数(LAI)的年际变化对全球蒸散发的影响。设计两套实验方案,其植被的FC和LAI的气候态相同,但一套实验中植被的FC和LAI有年际变化,而对照实验中则没有。结果表明:(1)在草、灌木、树占优势的地区植被FC年际变化依次减小;LAI年际变化较大的地区集中在草和灌木覆盖的地区,在落叶林地区,春秋两季植被LAI的年际变化也较大。(2)全球树占优势的大部分地区,植被的年际变化使得年平均蒸散发和地表蒸发增加、冠层蒸发和蒸腾减少;而在灌木和草覆盖区,变化则大致相反。(3)低纬度地区蒸散发季节循环变化比较明显,而北半球中纬度地区,蒸散发变化明显区随着纬度增加而在时间上向后推延。(4)FC和LAI年际变化较大时,蒸散发及地表蒸发降低,而蒸腾增加;这些差异随FC和LAI年际变化的增加而增加。单点分析进一步表明植被年际变化不仅改变蒸散发的多年平均值,同时改变其分量间的相对比例。This paper uses the Community Land Model （CLM3.0） coupled with a modified Dynamic Global Vegetation Model （DGVM） to investigate the impact of vegetation interannual variability on global annual evapotranspiration. Two sets of off-line numerical experiments are designed. In the default experiment, the modified CLM-DGVM is run 600 years, cycling driven by the observed atmospheric forcing data of 1950--1999. In this simulation, vegetation has interannual variation. It is denoted as DGVM simulation, and the results from the last 50 years are analyzed. For comparison, a 50-year CLM only simulation （ i. e. , without coupling to DGVM） is performed, initiated by the states at 550th year of the DGVM simulation and forced by the same atmospheric forcing data. The vegetation parameters such as fractional coverage （FC） and daily leaf area index （LAI） are taken from the climatology values derived from the last 50 years of DGVM simulation, and hence they have no interannual variations. It is denoted as the CLM simulation. Results show that ： （ 1 ） FC interannual variability is largest over grassland and is smallest over forest regions. The grassland and shrubland have relatively large LAI interannual variability. Over regions dominated by deciduous trees, LAI interannual variability is greater in spring and autumn than other seasons due to the emergence and senescence of leaves. （2） Over most forest regions, e. g. , the Amazon region, central of Africa, southeast of the United States, Europe, variabilities lead to the increasing in total evapotranspiration, which is and southeast of China, vegetation interannual resulted from changes of its three components, that is, increasing in ground evaporation and decreasing in the canopy evaporation and transpiration. Over shrubland and grassland, changes in evapotranspiration and its components are roughly opposite as in the forest regions. （3） Over low latitude, interannual variabilities of LAI in different seasons lead to strongly seasonal variations

关 键 词：全球植被动力学模式 植被年际变化 蒸散发 

分 类 号：Q945[生物学—植物学]