Highlights
- Predicting ocean acidification in the Red Sea using advanced machine learning models, providing critical insights for regional marine ecosystem management.
- Models yielded more efficient and effective results compared to traditional methods
- Artificial intelligence-based models offer a potential solution for the management of sustainable ecosystems with a focus on environmental sustainability
- Artificial intelligence-based applications offer significant potential for integration within remote monitoring systems
Abstract
This study presents application and performance comparison of various machine learning (ML) techniques to analyze pH variations in the Red Sea between the years 2021 and 2024, utilizing satellite remote sensing from the Copernicus Programme. The accuracy of the model is enhanced by employing data preprocessing. The performance of a number of machine learning models (Stepwise Linear Regression, Gaussian Process Regression, Linear Regression, Support Vector Machines and Neural Networks) are assessed. The results shown that the highest predictive accuracy is achieved by Stepwise Linear Regression and Linear Regression models. These models found to be superior in predicting pH changes due to seasonal phytoplankton blooms, vertical mixing of waters, and CO₂ infusion from the atmosphere accurately. Therefore, this research proposes a comprehensive approach for evaluating long-term changes in pH levels using robust data, improving strategic environmental governance in marine ecosystems. ML-based algorithms offer more integrated, cost-effective, and scalable solutions for monitoring ocean acidification, outperforming traditional approaches in both efficiency and adaptability.
Alver D. O., Isik H., Palabiyik S., Akkan B. E. & Akkan T., 2025. pH acidification in the Red Sea: a machine learning-based validation study. Journal of Sea Research: 102613. doi: 10.1016/j.seares.2025.102613. Article.
