Chlorophyll-α forecasting using LSTM, bidirectional LSTM and GRU networks in El Mar Menor (Spain)

The objective of this research is to develop accurate forecasting models for chlorophyll-α concentrations at various depths in El Mar Menor, Spain. Chlorophyll-α plays a crucial role in assessing eutrophication in this vulnerable ecosystem. To achieve this objective, various deep learning forecastin...

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Veröffentlicht in:	Logic journal of the IGPL 2024-05
Hauptverfasser:	González-Enrique, Javier, RodrÍguez-GarcÍa, María Inmaculada, Ruiz-Aguilar, Juan Jesús, Carrasco-GarcÍa, MarÍa Gema, Enguix, Ivan Felis, Turias, Ignacio J
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container_title	Logic journal of the IGPL
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creator	González-Enrique, Javier RodrÍguez-GarcÍa, María Inmaculada Ruiz-Aguilar, Juan Jesús Carrasco-GarcÍa, MarÍa Gema Enguix, Ivan Felis Turias, Ignacio J
description	The objective of this research is to develop accurate forecasting models for chlorophyll-α concentrations at various depths in El Mar Menor, Spain. Chlorophyll-α plays a crucial role in assessing eutrophication in this vulnerable ecosystem. To achieve this objective, various deep learning forecasting techniques, including long short-term memory, bidirectional long short-term memory and gated recurrent uni networks, were utilized. The models were designed to forecast the chlorophyll-α levels with a 2-week prediction horizon. To enhance the models’ accuracy, a sliding window method combined with a blocked cross-validation procedure for time series was also applied to these techniques. Two input strategies were also tested in this approach: using only chlorophyll-α time series and incorporating exogenous variables. The proposed approach significantly improved the accuracy of the predictive models, no matter the forecasting technique employed. Results were remarkable, with $\overline{\sigma}$ values reaching approximately 0.90 for the 0.5-m depth level and 0.80 for deeper levels. The proposed forecasting models and methodologies have great potential for predicting eutrophication episodes and acting as decision-making tools for environmental agencies. Accurate prediction of eutrophication episodes through these models could allow for proactive measures to be implemented, resulting in improved environmental management and the preservation of the ecosystem.
doi_str_mv	10.1093/jigpal/jzae046
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source	Oxford University Press Journals All Titles (1996-Current)
title	Chlorophyll-α forecasting using LSTM, bidirectional LSTM and GRU networks in El Mar Menor (Spain)
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