Phytoremediation of pesticide-contaminated freshwaters by aquatic plants: a meta-analysis DOI Creative Commons
Fernanda Vieira da Silva Cruz, Simone Jaqueline Cardoso, Philippe Juneau

и другие.

Chemosphere, Год журнала: 2025, Номер 383, С. 144465 - 144465

Опубликована: Июнь 5, 2025

In the last decade, water contamination by pesticides has become a global concern, and phytoremediation gained increasing attention. This approach is cost-effective ecologically beneficial, revealing abilities of plants to remove, detoxify, or immobilize environmental contaminants. Despite growing number publications, some questions remain: (i) How effectively do aquatic reduce in water? (ii) effectiveness influenced plant characteristics, pesticide properties, environmental/experimental conditions? To answer those questions, we conducted meta-analysis with 405 extracted pairs data points from 56 studies systematically analyze explore efficiency removal plants. We found that, compared control without plants, vegetation increases 38.86 % (95 CI = 31.50-46.21 %). subgroup meta-regression analyses identify factors influencing effect size. The taxonomy (order) life form did not significantly influence degree removal. was pesticides' type/mode action, insecticides being less efficiently removed than other pesticides. Additionally, observed higher log KOW (lipophilicity), molecular mass, experiments contaminant mixtures. Environmental conditions also efficiency, temperatures light intensity enhancing phytoremediation. Our results provide insights into key determining success environments contaminated pesticides, thereby guiding decision-making on using this technology directing new research toward developing strategies enhance its effectiveness.

Язык: Английский

Phytoremediation of pesticide-contaminated freshwaters by aquatic plants: a meta-analysis DOI Creative Commons
Fernanda Vieira da Silva Cruz, Simone Jaqueline Cardoso, Philippe Juneau

и другие.

Chemosphere, Год журнала: 2025, Номер 383, С. 144465 - 144465

Опубликована: Июнь 5, 2025

In the last decade, water contamination by pesticides has become a global concern, and phytoremediation gained increasing attention. This approach is cost-effective ecologically beneficial, revealing abilities of plants to remove, detoxify, or immobilize environmental contaminants. Despite growing number publications, some questions remain: (i) How effectively do aquatic reduce in water? (ii) effectiveness influenced plant characteristics, pesticide properties, environmental/experimental conditions? To answer those questions, we conducted meta-analysis with 405 extracted pairs data points from 56 studies systematically analyze explore efficiency removal plants. We found that, compared control without plants, vegetation increases 38.86 % (95 CI = 31.50-46.21 %). subgroup meta-regression analyses identify factors influencing effect size. The taxonomy (order) life form did not significantly influence degree removal. was pesticides' type/mode action, insecticides being less efficiently removed than other pesticides. Additionally, observed higher log KOW (lipophilicity), molecular mass, experiments contaminant mixtures. Environmental conditions also efficiency, temperatures light intensity enhancing phytoremediation. Our results provide insights into key determining success environments contaminated pesticides, thereby guiding decision-making on using this technology directing new research toward developing strategies enhance its effectiveness.

Язык: Английский

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