蒸散作用是否影响北美季风的强度?-蒸散发及其影响的多时相卫星分析

2011 6th International Workshop on the Analysis of Multi-temporal Remote Sensing Images (Multi-Temp) Pub Date : 2011-07-12 DOI:10.1109/MULTI-TEMP.2011.6005076

Dea Doklestić, Ronald B. Smith

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引用次数: 0

摘要

我们验证了北美季风强度受地表蒸散发和感热通量等过程影响的假设。为了估算蒸散发，使用了三种不同的基于卫星遥感的方法:我们使用Cleugh等人(2007)开发的Penman-Monteith方法和Mu等人(2007)开发的修订Penman-Monteith方法。此外，我们还使用了简单的潜热残余法。这三种方法都使用MODIS数据作为输入数据集。将三种方法得到的结果与通量塔测量结果进行了比较。感热通量是利用卫星测量地表温度和气球探测测量气温来估计的。蒸散发在季风季节出现一个急剧的高峰，这一特征被所有三种方法捕获。这为潜热通量增加导致更多季风降水的假设提供了依据。

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Does evapotranspiration influence the strength of the North American monsoon? — Multitemporal satellite analysis of evapotranspiration and its effects

We test the hypothesis that strength of North American monsoon is influenced by surface processes such as evapotranspiration and sensible heat flux. In order to estimate evapotranspiration, three different satellite remote sensing-based methods are used: We use the Penman-Monteith approach developed by Cleugh et al. (2007) [2] and the revised Penman-Monteith approach developed by Mu et al. (2007) [5]. Furthermore, we use a simple latent heat residual method. All three methods use MODIS data as input datasets. The results obtained by the three methods are compared against flux tower measurements. Sensible heat flux is estimated using satellite measurements of land surface temperature and balloon sounding measurements of air temperature. Evapotranspiration shows a sharp peak during the monsoon season and this feature is captured by all three methods. This lends credence to the hypothesis that increased latent heat flux results in more monsoonal precipitation.

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2011 6th International Workshop on the Analysis of Multi-temporal Remote Sensing Images (Multi-Temp)

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