Litcius/Paper detail

Deep learning approach for forecasting sea surface temperature response to tropical cyclones in the Western North Pacific

Han Zhang, Han Zhang, Mengyuan Jing, Haoyu Zhang, Haoyu Zhang, Longjie Li, Yunxia Zheng, Jie Tang, Di Tian, Yanmin Zhu

2023Deep Sea Research Part I Oceanographic Research Papers17 citationsDOIOpen Access PDF

Abstract

Tropical cyclones (TCs) induce sea surface temperature cooling (SSTC), which is important for TC development itself as well as for variations of regional air-sea environment. TC-induced SSTC patterns and its prediction is still a challenge. In this study, a long short-term memory neural network deep learning model is developed to forecast TC-induced SSTC in the western North Pacific (WNP) using TCs during 2002–2016 as training cases and TCs during 2017–2018 as prediction and test cases. The 6-h TC-induced SSTC biases to the right-rear area of TC center, with a maximum of ∼0.6 °C on average, while SSTC is greater in higher latitudes than lower latitudes. The input variables for the deep learning model are surface wind at 10 m (U10 and V10), sea surface height (SSH), sea surface temperature (SST), and temperature at 100 m depth (T100), the output variable is SST 6 h after TCs. The model can predict TC-induced SSTC patterns, with an average mean absolute error of ∼0.081 °C, a root mean square error of ∼0.126 °C and a spatial anomaly correlation coefficient of ∼0.948. This work indicates that post-TC SSTC follows similar physical processes and nonlinear relationships with TC wind, initial SSH and ocean temperature, especially in deep-water regions. Although with some limitations, the deep learning model has the potential to be applied to operational forecasts.

Topics & Concepts

Sea surface temperatureTropical cycloneClimatologyLatitudeAnomaly (physics)Environmental scienceWind speedCorrelation coefficientMeteorologyGeologyGeographyMathematicsStatisticsGeodesyPhysicsCondensed matter physicsTropical and Extratropical Cyclones ResearchOcean Waves and Remote SensingClimate variability and models