Toxicity potential of a pyraclostrobin-based fungicide in plant and green microalgae models

Pyraclostrobin-based fungicides play an effective role in controlling fungal diseases and are extensively used in agriculture. However, there is concern regarding the potential adverse effects attributed to exposure to these fungicides on non-target organisms and consequent influence exerted on ecos...

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Bibliographic Details
Published in:Journal of Toxicology and Environmental Health, Part A Part A, 2024-12, Vol.87 (23), p.973-987
Main Authors: de Freitas Oliveira, Tamires, Barbosa Vaz da Costa, Maria Fernanda, Alessandra Costa Santos, Tamara, dos Santos Wisniewski, Maria José, Andrade-Vieira, Larissa Fonseca
Format: Article
Language:English
Subjects:
Agricultural ecosystems
Algae
Aquatic environment
Aquatic microorganisms
Aquatic plants
Carbamates - toxicity
Carbohydrates
Chlorophyta - drug effects
Chlorophyta - growth & development
Ecological function
Ecotoxicity
Fungal diseases
fungicide pyraclostrobin
Fungicides
Fungicides, Industrial - toxicity
Germination
Germination - drug effects
Lactuca sativa
Microalgae
Microalgae - drug effects
Nontarget organisms
Organisms
Pennisetum glaucum
Pesticides
Phytotoxicity
Plant diseases
Plant layout
Plants - drug effects
Population growth
Pyrazoles - toxicity
Raphanus sativus
Raphidocelis subcapitata
Seedlings
Seedlings - drug effects
Seedlings - growth & development
Strobilurins - toxicity
Toxic diseases
Toxicity
Toxicity testing
Triticum aestivum
Wheat
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Summary:Pyraclostrobin-based fungicides play an effective role in controlling fungal diseases and are extensively used in agriculture. However, there is concern regarding the potential adverse effects attributed to exposure to these fungicides on non-target organisms and consequent influence exerted on ecosystem functioning. Thus, it is essential to conduct studies with model organisms to determine the impacts of these fungicides on different groups of living organisms. The aim of this study was to examine the ecotoxicity associated with exposure to commercial fungicides containing pyraclostrobin. The focus of the analysis involved germination and initial development of seedlings of 4 plant models (Lactuca sativa, Raphanus sativus, Pennisetum glaucum and Triticum aestivum), in addition to determining the population growth rate and total carbohydrate content in microalga Raphidocelis subcapitata. The fungicide pyraclostrobin adversely influenced growth and development of the tested plants, indicating a toxic effect. The fungicide exerted a significant impact on the initial development of seedlings of all model species examined with T. aestivum plants displaying the greatest susceptibility to pyraclostrobin. Plants of this species exhibited inhibitory effects on both aerial parts and roots when treated with a concentration of 4.75 mg/L pyraclostrobin. In addition, the green microalga R. subcapitata was also significantly affected by the fungicide, especially at relatively high concentrations as evidenced by a reduction in total carbohydrate content. This commercial fungicide demonstrated potential phytotoxicity for the tested plant models and was also considered toxic to the selected microalgae, indicating an ecotoxic effect that might affect other organisms in aquatic environments.
ISSN:1528-7394
1087-2620
2381-3504
DOI:10.1080/15287394.2024.2403131