用于大气模式的云量参数化:综述和新观点

R. Park, Song‐You Hong
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引用次数: 0

摘要

在大气模式中,云量的表示是水汽量和相关辐射强迫之间的直接联系。本文首先回顾了用于数值天气预报和气候研究的云的参数化。在表示辐射反馈的部分云以及根据相应的观测对其进行评估时,重点讨论了固有的不确定性。报告还指出,在现代天气和气候模式中,可以很容易地获得主要的水成物类别,如云冰和水,它们是造成云层覆盖的原因。讨论了即使在预报方法的情况下,云量和水成物的不一致性。发现云量对辐射反馈的补偿作用意味着凝结水量本身对辐射强迫的影响更大,而不是云量的精度。基于上述观点,本文提出了一种替代的诊断参数化方法,该方法利用飞机和卫星观测获得的云水量与云量之间的单调关系。这种方法的基本前提是模型中水物质的准确性,这表明未来需要努力改进与水成物性质有关的物理过程,以便准确地表示云辐射反馈。
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Cloudiness Parameterization for Use in Atmospheric Models: A Review and New Perspectives
In atmospheric models, the representation of cloudiness is a direct linkage between the moisture amount and associated radiative forcing. This paper begins by providing a review of the parameterization of cloudiness that has been used for numerical weather predictions and climate studies. The inherent uncertainties in representing a partial fraction of clouds for radiation feedback and in evaluating it against the corresponding observations are focused. It is also stated that the major hydrometeor categories of water substances such as cloud ice and water that are responsible for cloud cover are readily available in modern weather and climate models. Inconsistencies in cloud cover and hydrometeors, even in the case of the prognostic method, are discussed. The compensating effect of cloudiness for radiative feedback is found to imply that the condensed water amount itself is more influential on the radiative forcing, rather than the accuracy of the cloudiness. Based on the above perspectives, an alternative diagnostic parameterization method is proposed, utilizing a monotonic relation between the cloud water amounts and cloudiness that are obtained from aircraft and satellite observations. The basic premise of this approach lies in the accuracy of the water substance in the models, indicating that future efforts need to be given to improvements in physical processes concerning hydrometeor properties for the accurate representation of cloud radiative feedback.
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