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Impact of Seasonal Variation and Population Growth on Coliform Bacteria Concentrations in the Brunei River: A Temporal Analysis with Future Projection

Oluwakemisola Onifade, Zaharaddeen Karami Lawal, Norazanita Shamsuddin, Pg Emeroylariffion Abas, Daphne Teck Ching Lai, Stefan Gödeke

2025Water9 citationsDOIOpen Access PDF

Abstract

Coliform bacteria pollution poses a significant challenge to water quality in the Brunei River, a critical resource in Brunei Darussalam. This study investigates the impact of seasonal variations and population growth on coliform concentrations across eight monitoring stations while addressing data limitations in forecasting future trends. Seasonal variations, analyzed using box plots, revealed significantly higher coliform levels during the rainy season, driven by urban and residential runoff. Population growth, assessed using propensity score matching, showed that stations in densely populated areas experienced elevated contamination levels. Temporal trends, analyzed using the Rescaled Adjusted Partial Sums (RAPS) method, indicated a declining trend from 2013 to 2018, followed by a sharp increase post-2018, linked to urbanization, wastewater discharge, and overburdened sewage infrastructure, particularly in upstream stations. To forecast coliform levels, ARIMA, Logistic Regression, and Bidirectional Long Short-Term Memory (BiLSTM) models were employed and their predictive performance evaluated. Despite the constraints of a small dataset, the BiLSTM model outperformed others in most stations, emphasizing its ability to capture complex temporal relationships. Furthermore, a Mann–Kendall trend analysis of the BiLSTM predicted data over a five-year period and revealed significant upward trends in coliform levels. This study highlights the potential of combining advanced predictive models with robust analytical techniques and focused data collection efforts to support sustainable water quality management in data-scarce environments.

Topics & Concepts

Environmental scienceSeasonalityVariation (astronomy)Projection (relational algebra)PopulationHydrology (agriculture)GeographyWater resource managementBiologyEcologyMathematicsEngineeringEnvironmental healthMedicineAlgorithmAstrophysicsGeotechnical engineeringPhysicsChild Nutrition and Water AccessVibrio bacteria research studiesWater resources management and optimization