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Integration of Weather Research and Forecasting (WRF) model with regional coastal ecosystem model to simulate the hypoxic conditions

Muhammad Ali Hafeez, Yoshiyuki NAKAMURA, Takayuki Suzuki, Tetsunori Inoue, Yoshitaka MATSUZAKI, Kangnian Wang, Abdul Moiz

2021The Science of The Total Environment20 citationsDOIOpen Access PDF

Abstract

Regional ocean models require accurate weather data for atmospheric boundary conditions such as air temperature, wind speed, and direction to simulate the coastal environment. In this study, a numerical modelling framework was developed to simulate different physical, chemical, and biological processes in a semi-enclosed coastal ecosystem by integrating the Weather Research and Forecasting (WRF) model with a 3D hydrodynamic and ecosystem model (Ise Bay Simulator). The final analytic data of the global forecast system released by the National Centers for Environmental Prediction with a 0.25° horizontal resolution was used as an atmospheric boundary condition for the WRF model to dynamically downscale the weather information to a spatial and temporal fine resolution. This modelling framework proved to be an effective tool to simulate the physical and biogeochemical processes in a semi-enclosed coastal embayment. The WRF-driven ecosystem simulation and recorded Automated Meteorological Data Acquisition System (AMeDAS)-driven ecosystem simulation results were further compared with the observed data. The performance of both the recorded AMeDAS and WRF generated weather datasets were equally good, and more than 80% of the variation in bottom dissolved oxygen for shallow water and more than 90% for deep water was reproduced.

Topics & Concepts

Weather Research and Forecasting ModelEnvironmental scienceData assimilationMarine ecosystemEcosystemBiogeochemical cycleEcosystem modelMeteorologyNumerical weather predictionWind speedBayClimatologyOceanographyGeographyGeologyEcologyBiologyOceanographic and Atmospheric ProcessesMarine and coastal ecosystemsArctic and Antarctic ice dynamics
Integration of Weather Research and Forecasting (WRF) model with regional coastal ecosystem model to simulate the hypoxic conditions | Litcius