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. 2025 Jul;34(5):746-759.
doi: 10.1007/s10646-025-02873-0. Epub 2025 Mar 19.

Comprehensive machine learning assessment of zebrafish behaviour and biochemical markers in response to caffeine exposure

Cláudia Teixeira  1   2 Sara Rodrigues  3   4 João Amorim  3   4   5 Bárbara S Diogo  3   4   5 Ivo Pinto  3   4   5   6 António Paulo Carvalho  3   4 Sara C Antunes  3   4 Luís Oliva Teles  3   4
Affiliations

Comprehensive machine learning assessment of zebrafish behaviour and biochemical markers in response to caffeine exposure

Cláudia Teixeira et al. Ecotoxicology. 2025 Jul.

Abstract

Environmental exposure to caffeine (CAF) poses potential risks to aquatic ecosystems, affecting non-target species. This study investigated the chronic effects of environmentally relevant CAF concentrations, ranging from 0.16-50 µg/L, on zebrafish behaviour. A Kohonen-type artificial neural network classified zebrafish behaviour into nine behavioural classes based on a set of movement descriptors (mean meander, mean velocity, instantaneous velocity, distance to centre point, mean angular velocity and instantaneous acceleration), while a comprehensive analysis integrated behavioural classes previously defined and biochemical markers of oxidative stress, lipid peroxidation, reserve energy content, energetic pathways, and neurotoxicity. The discriminant analysis demonstrated that behaviour descriptors and biomarkers individually explained 38% and 67% of data variation, respectively, while the combination resulted in 19 models with 100% correct diagnosis. One of the models (Model A) seemed to suit the best dose-response relationship, incorporating key biomarkers including superoxide dismutase, catalase, glutathione peroxidase activities, and behavioural characteristics such as movement distance and velocity. This suggested methodology offers a different approach to evaluating CAF's ecological impact, highlighting behavioural analysis as a valuable complement to traditional ecotoxicological assessments. This study provides a novel framework for understanding organism-level responses to environmental stressors (e.g., several anthropogenic compounds), utilising Mahalanobis distance as an integrative response index. This approach shows promise for broader application in assessing the impact of various aquatic contaminants on aquatic organisms (from bacteria to fish), potentially extending to pharmaceuticals, pesticides, and industrial pollutants.

Keywords: Danio rerio; Biochemical markers; Ecotoxicology; Integrated assessment; Locomotor behaviour; Mahalanobis distance.

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Conflict of interest statement

Compliance with ethical standards. Conflict of interest: The author declares no competing interests.

Figures

Fig. 1
Fig. 1
Sequential flowchart illustrating the statistical analysis of zebrafish behaviour and biomarkers (Diogo et al. 2023) results after chronic caffeine exposure
Fig. 2
Fig. 2
Summary of statistics 2D plot, regarding CAF concentrations (0.00–50.0 μg CAF/L - blue triangles) and behavioural classes (N1 to N9 – red squares) results: formula image highest distance to the centre; formula image highest mean velocity and mean angular velocity; formula image low distance to the centre
Fig. 3
Fig. 3
Graphical representation of the 5 significant models (AE – data included behavioural responses and biomarkers results, see Table 3) of the Squared Mahalanobis Distances plotted with the caffeine treatments. * represents significant differences between control, and ǂ stands for differences between 19.2 μg CAF/L (Dunnett’s test p < 0.05)
See this image and copyright information in PMC

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