Evaluation of Theobroma cacao L. as a bioindicator for cadmium contamination through H2O2 electrochemical analysis

Lenys Fernández; Patricio Javier Espinoza-Montero; María José Gallegos-Lovato; Paulo Bustamante; Diego Bolaños-Méndez; Juan Diego Sampedro; Augusto Rodríguez; Andrea Ortega-Gallegos; Mónica Jadan

doi:10.1038/s41598-025-11715-2

Evaluation of Theobroma cacao L. as a bioindicator for cadmium contamination through H₂O₂ electrochemical analysis

Lenys Fernández
, Patricio Javier Espinoza-Montero
, María José Gallegos-Lovato
, Paulo Bustamante
, Diego Bolaños-Méndez
, Juan Diego Sampedro
, Augusto Rodríguez
, Andrea Ortega-Gallegos
, Mónica Jadan

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

The use of sedentary bioindicators, such as trees, in environmental contamination monitoring is receiving increased focus. This study evaluates Theobroma cacao L. as a bioindicator for cadmium (Cd) contamination by quantifying hydrogen peroxide (H₂O₂) as an oxidative stress marker in cellular suspensions exposed to CdSO₄. Chronoamperometric measurements using platinum electrodes indicated Cd accumulation in T. cacao L. and revealed a corresponding increase in H₂O₂ production up to a threshold level, beyond which cell apoptosis occurred. These findings support the potential of T. cacao L. as a bioindicator of Cd pollution. Moreover, H₂O₂ quantification via chronoamperometry demonstrated a rapid and effective method for detecting Cd-induced oxidative stress in plant systems. Future research should explore field applications, evaluate alternative plant species, and assess long-term responses under real environmental conditions to optimize this approach for large-scale biomonitoring.

Original language	English
Article number	26715
Journal	Scientific Reports
Volume	15
Issue number	1
DOIs	https://doi.org/10.1038/s41598-025-11715-2
State	Published - Dec 2025

Keywords

Cadmium contamination
Chronoamperometry
Oxidative stress
Sedentary bioindicators
Theobroma cacao

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10.1038/s41598-025-11715-2

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Fernández, L., Espinoza-Montero, P. J., Gallegos-Lovato, M. J., Bustamante, P., Bolaños-Méndez, D., Sampedro, J. D., Rodríguez, A., Ortega-Gallegos, A., & Jadan, M. (2025). Evaluation of Theobroma cacao L. as a bioindicator for cadmium contamination through H₂O₂ electrochemical analysis. Scientific Reports, 15(1), Article 26715. https://doi.org/10.1038/s41598-025-11715-2

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title = "Evaluation of Theobroma cacao L. as a bioindicator for cadmium contamination through H2O2 electrochemical analysis",

abstract = "The use of sedentary bioindicators, such as trees, in environmental contamination monitoring is receiving increased focus. This study evaluates Theobroma cacao L. as a bioindicator for cadmium (Cd) contamination by quantifying hydrogen peroxide (H₂O₂) as an oxidative stress marker in cellular suspensions exposed to CdSO₄. Chronoamperometric measurements using platinum electrodes indicated Cd accumulation in T. cacao L. and revealed a corresponding increase in H₂O₂ production up to a threshold level, beyond which cell apoptosis occurred. These findings support the potential of T. cacao L. as a bioindicator of Cd pollution. Moreover, H₂O₂ quantification via chronoamperometry demonstrated a rapid and effective method for detecting Cd-induced oxidative stress in plant systems. Future research should explore field applications, evaluate alternative plant species, and assess long-term responses under real environmental conditions to optimize this approach for large-scale biomonitoring.",

keywords = "Cadmium contamination, Chronoamperometry, Oxidative stress, Sedentary bioindicators, Theobroma cacao",

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doi = "10.1038/s41598-025-11715-2",

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AU - Espinoza-Montero, Patricio Javier

AU - Gallegos-Lovato, María José

AU - Bustamante, Paulo

AU - Bolaños-Méndez, Diego

AU - Sampedro, Juan Diego

AU - Rodríguez, Augusto

AU - Ortega-Gallegos, Andrea

AU - Jadan, Mónica

N1 - Publisher Copyright: © The Author(s) 2025.

PY - 2025/12

Y1 - 2025/12

N2 - The use of sedentary bioindicators, such as trees, in environmental contamination monitoring is receiving increased focus. This study evaluates Theobroma cacao L. as a bioindicator for cadmium (Cd) contamination by quantifying hydrogen peroxide (H₂O₂) as an oxidative stress marker in cellular suspensions exposed to CdSO₄. Chronoamperometric measurements using platinum electrodes indicated Cd accumulation in T. cacao L. and revealed a corresponding increase in H₂O₂ production up to a threshold level, beyond which cell apoptosis occurred. These findings support the potential of T. cacao L. as a bioindicator of Cd pollution. Moreover, H₂O₂ quantification via chronoamperometry demonstrated a rapid and effective method for detecting Cd-induced oxidative stress in plant systems. Future research should explore field applications, evaluate alternative plant species, and assess long-term responses under real environmental conditions to optimize this approach for large-scale biomonitoring.

AB - The use of sedentary bioindicators, such as trees, in environmental contamination monitoring is receiving increased focus. This study evaluates Theobroma cacao L. as a bioindicator for cadmium (Cd) contamination by quantifying hydrogen peroxide (H₂O₂) as an oxidative stress marker in cellular suspensions exposed to CdSO₄. Chronoamperometric measurements using platinum electrodes indicated Cd accumulation in T. cacao L. and revealed a corresponding increase in H₂O₂ production up to a threshold level, beyond which cell apoptosis occurred. These findings support the potential of T. cacao L. as a bioindicator of Cd pollution. Moreover, H₂O₂ quantification via chronoamperometry demonstrated a rapid and effective method for detecting Cd-induced oxidative stress in plant systems. Future research should explore field applications, evaluate alternative plant species, and assess long-term responses under real environmental conditions to optimize this approach for large-scale biomonitoring.

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Evaluation of Theobroma cacao L. as a bioindicator for cadmium contamination through H₂O₂ electrochemical analysis

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