Meentemeyer[14】在大陆尺度和全球尺度上的研究发现,单一的气象学变量.实际蒸散(AET, actual evapotranspiration)可较好地预测植被覆盖的系统中凋落物的分解速率。
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The result shows that the secular annual mean actual evapotranspiration is 378mm in the Yellow river and the error can be controlled in 8%.4.
模拟结果显示,黄河流域多年平均实际蒸散(发)为378mm,估算误差控制在8%以内。
参考来源 - 黄河流域实际蒸散(发)模型研究·2,447,543篇论文数据,部分数据来源于NoteExpress
为流域分布式降雨-径流模型提供了可靠的实际蒸散量模拟方法。
The research results provided an effective method for the distributed rainfall-runoff model in simulating actual evapotranspiration.
用水量平衡法计算的流域多年平均实际蒸散发量对估算结果进行检验。
Actual evapotranspiration was reckoned by model and results were verified by explored the secular annual mean basin actual evapotranspiration which was calculated from water model.
结果表明:不同演替阶段,群落实际蒸散量主要受降水控制,群落间差异不显著(P>0.05);
The results showed that, in different succession stages of vegetation, ETa of communities was mainly influenced by precipitation, with no notable distinction among different communities(P>0.05);
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