Understanding the Drivers of Drought Onset and Intensification in the Canadian Prairies: Insights from Explainable Artificial Intelligence (XAI)

IF 3.1 3区 地球科学 Q2 METEOROLOGY & ATMOSPHERIC SCIENCES
Jacob Mardian, C. Champagne, B. Bonsal, A. Berg
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引用次数: 0

Abstract

Recent advances in Artificial Intelligence (AI) and Explainable AI (XAI) have created opportunities to better predict and understand drought processes. This study uses a machine learning approach for understanding the drivers of drought severity and extent in the Canadian Prairies from 2005 to 2019 using climate and satellite data. The model is trained on the Canadian Drought Monitor (CDM), an extensive dataset produced by expert analysis of drought impacts across various sectors that enables a more comprehensive understanding of drought. Shapley Additive Explanation (SHAP) is used to understand model predictions during emerging or worsening drought conditions, providing insight into the key determinants of drought. The results demonstrate the importance of capturing spatiotemporal autocorrelation structures for accurate drought characterization and elucidates the drought time scales and thresholds that optimally separate each CDM severity category. In general, there is a positive relationship between the severity of drought and the time scale of the anomalies. However, high severity droughts are also more complex and driven by a multitude of factors. It was found that satellite-based Evaporative Stress Index (ESI), soil moisture, and groundwater were effective predictors of drought onset and intensification. Similarly, anomalous phases of large-scale atmosphere-ocean dynamics exhibit teleconnections with Prairie drought. Overall, this investigation provides a better understanding of the physical mechanisms responsible for drought in the Prairies, provides data-driven thresholds for estimating drought severity that could improve future drought assessments, and offers a set of early warning indicators that may be useful for drought adaptation and mitigation.
了解加拿大大草原干旱发生和加剧的驱动因素:来自可解释人工智能(XAI)的见解
人工智能(AI)和可解释人工智能(XAI)的最新进展为更好地预测和理解干旱过程创造了机会。本研究使用机器学习方法,利用气候和卫星数据,了解2005年至2019年加拿大草原干旱严重程度和程度的驱动因素。该模型是在加拿大干旱监测(CDM)上训练的,这是一个广泛的数据集,由专家对各个部门的干旱影响进行分析,使人们能够更全面地了解干旱。Shapley加性解释(SHAP)用于理解在新出现或恶化的干旱条件下的模型预测,提供对干旱的关键决定因素的见解。结果表明,捕获时空自相关结构对于准确表征干旱的重要性,并阐明了干旱时间尺度和阈值,以最佳方式分离每个CDM严重程度类别。总体而言,干旱的严重程度与异常的时间尺度呈正相关。然而,严重干旱也更为复杂,受到多种因素的驱动。基于卫星的蒸发应力指数(ESI)、土壤湿度和地下水是干旱发生和加剧的有效预测指标。同样,大尺度大气-海洋动力学的异常相与草原干旱也表现出遥相关。总的来说,这项调查提供了对草原干旱的物理机制的更好理解,为估计干旱严重程度提供了数据驱动的阈值,可以改善未来的干旱评估,并提供了一套可能有助于干旱适应和缓解的早期预警指标。
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来源期刊
Journal of Hydrometeorology
Journal of Hydrometeorology 地学-气象与大气科学
CiteScore
7.40
自引率
5.30%
发文量
116
审稿时长
4-8 weeks
期刊介绍: The Journal of Hydrometeorology (JHM) (ISSN: 1525-755X; eISSN: 1525-7541) publishes research on modeling, observing, and forecasting processes related to fluxes and storage of water and energy, including interactions with the boundary layer and lower atmosphere, and processes related to precipitation, radiation, and other meteorological inputs.
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