荒漠-绿洲芦苇地蒸散量及能量平衡特征  被引量：13

作　　者：司建华[1,2] 冯起[2] 张艳武[3] 常宗强[2] 张凯[1,2] 

机构地区：[1]中国气象局兰州干旱气象研究所,甘肃兰州730020 [2]中国科学院寒区旱区环境与工程研究所,甘肃兰州730000 [3]中国气象局国家气象中心,北京100081

出　　处：《干旱区研究》2010年第2期160-168,共9页Arid Zone Research

基　　金：干旱气象科学研究基金项目(IAM200707);国家自然科学基金项目(40725001)

摘　　要：运用波文比-能量平衡法，对荒漠绿洲芦苇地的蒸散量及能量通量进行了连续的测定，并对芦苇地蒸散特点和能量平衡特征进行了分析和探讨。结果表明：①芦苇的蒸散速率日变化表现出明显的昼夜变化，蒸散量随着芦苇的不同生长阶段存在明显的季节变化，生长季芦苇地总蒸散量为252．5mm，各阶段降水量均不能满足蒸散发的需水要求，需要地下水的补给。②地下水作为干旱区绿洲的主要水源，其对绿洲蒸散发耗水的影响也是极为重要。净辐射是芦苇地蒸散耗水的能量来源和驱动力，气温是蒸散发的主导影响因子。风速在这些主导因子的影响下，起到加速的作用。③荒漠绿洲芦苇地平均感热通量峰值一般在250～300W／m^2之间，潜热通量平均最大值120—230W／m^2，平均土壤热通量峰值约20W／m^2。6月感热通量在地面能量交换中占主要地位，感热通量占净辐射的52．7％，潜热通量占净辐射的42．6％。7月潜热通量占净辐射的55．0％，感热通量占净辐射的40．4％。9月感热通量占净辐射的60％以上，潜热通量仅占净辐射的30％。土壤热通量约占净辐射的8％。Energy exchange is one of the most important processes in ecosystems, because it affects variables, such as temperature, water transport, plant growth and productivity. The main components of surface energy balance are the net radiation, heat stored in water and soil, sensible heat flux and latent heat flux （or evapotranspiration ）. Evapotranspiration （ET） in vegetated wetlands is frequently the largest consumer of the incoming energy and has a great influence not only on the energy distribution but on water conditions. Previous studies on Phragmites australis stand energy fluxes reported the influence of meteorological factors, such as solar radiation, vapor pressure, wind speed, etc. Limited information, however, is available on the influence of related plant variables, such as leaf area index （LAI）. Therefore, it is very important to study the regional energy fluxes in oasis. This study is designed to investigate the energy fluxes of Phragmites australis stand in oasis and quantify the components of the surface energy balance in this important community using Bowen ratio equilibrium energy method. In order to gain a better understand of the energy partitioning, the characteristics of evapotranspiration and energy balance are analyzed. The results are as follows ： （ 1 ） Under the clear and cloudless term, the daily variation of evapotranspiration rate changes regularly. In the morning, air temperature goes up gradually with the increase of solar radiation, relative humidity is decreased, and evapotranspiration rate is increased gradually. At 12：00, the evapotranspiration rate reaches its highest value. The evapotranspiration rate is decreased thereafter till next day with the decrease of light intensity and temperature and the increase of relative humidity. The average evapotranspiration rate was 0.3 - 0.4 mm/h during the period from June to August, 0.2 - 0.3 mm/h in September, but 0.1 mm/h only in October. The mean daily amount of evapotranspiration of Phragmites australis was 3 mm in June

关 键 词：蒸散量 能量平衡 感热通量 潜热通量 土壤热通量 芦苇地 荒漠-绿洲 

分 类 号：Q948[生物学—植物学]