Sea surface temperature predictability assessment with an ensemble machine learning method using climate model simulations

IF 2.3 3区 地球科学 Q2 OCEANOGRAPHY Deep-sea Research Part Ii-topical Studies in Oceanography Pub Date : 2023-08-01 DOI:10.1016/j.dsr2.2023.105308
Fabio Boschetti , Ming Feng , Jason R. Hartog , Alistair J. Hobday , Xuebin Zhang
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Abstract

Ensemble models, statistical analysis and machine learning (ML) can be used to predict novel conditions in a rapidly changing ocean. Traditionally, ML has been understood as a purely data-driven approach and has been used on both observational and model data to forecast Sea Surface Temperature (SST) anomalies. Here we use ML trained only on climate model simulations to predict regional SST variations, thereby suggesting a novel role for ML as an ensemble model interpolator. We propose a measure of the predictability provided by different ML implementations as well as by standard time series analysis methods. Weighting each forecast by this predictability measure computed on model data only, provides a significant improvement in forecast skill. We demonstrate the performance of this approach for regions around Australia, the Nino3.4 region (central-eastern equatorial Pacific) and in the eastern equatorial Pacific. These analyses show that SST predictability varies as a function of geographical location, area size, seasonality, proximity to the coast and model data quality.

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使用气候模型模拟的集成机器学习方法评估海面温度的可预测性
集合模型、统计分析和机器学习(ML)可用于预测快速变化的海洋中的新情况。传统上,ML被理解为一种纯粹的数据驱动方法,并被用于观测和模型数据,以预测海面温度(SST)异常。在这里,我们使用仅在气候模型模拟中训练的ML来预测区域SST变化,从而表明ML作为集合模型插值器的新作用。我们提出了一种衡量不同ML实现以及标准时间序列分析方法所提供的可预测性的方法。通过仅根据模型数据计算的可预测性度量对每个预测进行加权,可以显著提高预测技能。我们展示了这种方法在澳大利亚周围地区、Nino3.4地区(赤道太平洋中东部)和赤道太平洋东部的性能。这些分析表明,SST的可预测性随地理位置、区域大小、季节性、靠近海岸和模型数据质量的变化而变化。
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来源期刊
CiteScore
6.40
自引率
16.70%
发文量
115
审稿时长
3 months
期刊介绍: Deep-Sea Research Part II: Topical Studies in Oceanography publishes topical issues from the many international and interdisciplinary projects which are undertaken in oceanography. Besides these special issues from projects, the journal publishes collections of papers presented at conferences. The special issues regularly have electronic annexes of non-text material (numerical data, images, images, video, etc.) which are published with the special issues in ScienceDirect. Deep-Sea Research Part II was split off as a separate journal devoted to topical issues in 1993. Its companion journal Deep-Sea Research Part I: Oceanographic Research Papers, publishes the regular research papers in this area.
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