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Advancing symbolic regression for earth science with a focus on evapotranspiration modeling

Qingliang Li, Cheng Zhang, Zhongwang Wei, Xiaochun Jin, Wei Shangguan, Hua Yuan, Jinlong Zhu, Lu Li, Pingping Liu, Xiaoqi Chen, Yuguang Yan, Yongjiu Dai

2024npj Climate and Atmospheric Science11 citationsDOIOpen Access PDF

Abstract

Artificial Intelligence (AI) assumes a pivotal role in Earth science, leveraging deep learning’s predictive capabilities. Despite its prevalence, the impact of AI on scientific discovery remains uncertain. In Earth sciences, the emphasis extends beyond mere accuracy, striving for groundbreaking discoveries with distinct physical properties essential for driving advancements through thorough analysis. Here, we introduce a novel knowledge-guided deep symbolic regression model (KG-DSR) incorporating prior knowledge of physical process interactions into the network. Using KG-DSR, we successfully derived the Penman-Monteith (PM) equation and generated a novel surface resistance parameterization. This new parameterization, grounded in fundamental cognitive principles, surpasses the conventional theory currently accepted in surface resistance parameterization. Importantly, the explicit physical processes generated by AI can generalize to future climate scenarios beyond the training data. Our results emphasize the role of AI in unraveling process intricacies and ushering in a new paradigm in tasks related to “AI for Land Surface Modeling.”

Topics & Concepts

EvapotranspirationFocus (optics)RegressionEarth (classical element)Regression analysisEnvironmental scienceMathematicsStatisticsEcologyBiologyMathematical physicsOpticsPhysicsPlant Water Relations and Carbon DynamicsTree-ring climate responsesHydrology and Watershed Management Studies
Advancing symbolic regression for earth science with a focus on evapotranspiration modeling | Litcius