Abstract
This study explores the river-flow-induced impacts on the performance of machine learning models applied for forecasting of water quality parameters in the coastal waters in Hilo Bay, Pacific Ocean. For this purpose, hourly recorded water quality parameters of salinity, temperature and turbidity as well as the flow data of the Wailuku River were used. Several machine learning models including artificial neural network, extreme learning machine and support vector regression have been employed to investigate the river-flow-induced impact on the water quality parameters from the current time up to 2 h ahead. Following the input structure of the machine learning models, two separate models based on including and excluding the river flow were developed for each variable to quantify the importance of the flow discharge on the accuracy of the forecasting models. The performance of different machine learning models was found to be close to each other and showing similar pattern considering accuracy and uncertainty of the forecasts. The results revealed that flow discharge influenced the water salinity and turbidity of the bay in which the models including the river flow as input variables had better performance compared with those excluding the flow time series. Among the water quality parameters investigated in this research, river flow made the most and least improvement on the efficiency of the models applied for forecasting of turbidity and water temperature, respectively. Overall, it was observed that water quality parameters can be properly forecasted up to several hours ahead providing a potentially valuable tool for environmental management and monitoring in coastal areas.
Highlights
Water quality parameters are important components to assess the health of the coastal environment and to guarantee suitable conditions for aquatic life
The main objective of this study is to explore the effect of river flow on the performance of machine learning models for forecasting of water quality parameters in coastal and estuarine waters in Hilo Bay, Pacific Ocean
This study investigates the efficiency of machine learning methods of Artificial neural network (ANN), extreme learning machine (ELM), and support vector regression (SVR) to simulate and forecast the water temperature, salinity and turbidity in Hilo Bay for the current time (t) up to 2 h in advance (t + 2)
Summary
Water quality parameters are important components to assess the health of the coastal environment and to guarantee suitable conditions for aquatic life. Estuarine and coastal waters are susceptible to non-point/point source pollution conveyed by rivers and streams (Clark, 1995). These coastal areas are among the most important regions considering food supply and natural resources. Development of forecasting models of water quality parameters several hours ahead based on river flow can provide an early-stage alarm to prevent severe disaster in the coastal ecosystem by taking necessary actions in advance. They can be employed as helpful tools for coastal monitoring purposes
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