Machine Learning Approach to Investigating the Relative Importance of Meteorological and Aerosol-Related Parameters in Determining Cloud Microphysical Properties

F. Bender, Tobias Lord, Anna Staffansdotter, Verena Jung, Sabine Undorf
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引用次数: 0

Abstract

Aerosol effects on cloud properties are notoriously difficult to disentangle from variations driven by meteorological factors. Here, a machine learning model is trained on reanalysis data and satellite retrievals to predict cloud microphysical properties, as a way to illustrate the relative importance of meteorology and aerosol, respectively, on cloud properties. It is found that cloud droplet effective radius can be predicted with some skill from only meteorological information, including estimated air mass origin and cloud top height. For ten geographical regions the mean coefficient of determination is 0.41 and normalised root-mean square error 24%. The machine learning model thereby performs better than a reference linear regression model, and a model predicting the climatological mean. A gradient boosting regression performs on par with a neural network regression model. Adding aerosol information as input to the model improves its skill somewhat, but the difference is small and the direction of the influence of changing aerosol burden on cloud droplet effective radius is not consistent across regions, and thereby also not always consistent with what is expected from cloud brightening.
研究气象参数和气溶胶相关参数在确定云微观物理特性中的相对重要性的机器学习方法
众所周知,气溶胶对云特性的影响很难与气象因素引起的变化区分开来。本文利用再分析数据和卫星检索数据训练了一个机器学习模型来预测云的微物理特性,以此说明气象和气溶胶分别对云特性的相对重要性。研究发现,仅凭气象信息(包括估计的气团起源和云顶高度)就能以一定的技巧预测云滴有效半径。对于十个地理区域,平均判定系数为 0.41,归一化均方根误差为 24%。因此,机器学习模型的表现优于参考线性回归模型和气候平均值预测模型。梯度提升回归模型的表现与神经网络回归模型相当。将气溶胶信息作为输入添加到模型中在一定程度上提高了模型的技能,但差异很小,而且气溶胶负荷变化对云滴有效半径的影响方向在不同地区并不一致,因此也不总是与云增亮的预期一致。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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