Your search keyword '"bentazone"' showing total 2 results

1. Pesticide concentrations in a threatened freshwater turtle (Emys orbicularis): Seasonal and annual variation in the Camargue wetland, France.

Author

Merleau, Leslie-Anne, Lourdais, Olivier, Olivier, Anthony, Vittecoq, Marion, Blouin-Demers, Gabriel, Alliot, Fabrice, Burkart, Louisiane, Foucault, Yvann, Leray, Carole, Migne, Emmanuelle, and Goutte, Aurélie

Subjects

WETLANDS, TURTLES, PESTICIDES, WETLAND biodiversity, ENDANGERED ecosystems, EMYDIDAE

Abstract

Wetlands are among the most threatened ecosystems on the planet and pollution is a major factor causing the decline of wetland biodiversity. Despite the increasing use of pesticides, their fate and effects on freshwater reptiles remain largely unknown. We studied the European pond turtle (Emys orbicularis), a long-lived species at risk with a high exposure potential to pesticides. Between 2018 and 2020, we measured 29 pesticides and metabolites in 408 blood samples of turtles from two populations in the Camargue wetland (France). We were able to quantify 24 compounds and at least one pesticide or one degradation product in 62.5% of samples. Pesticide occurrences and concentrations were low, except for a herbicide widely used in rice cultivation and locally detected in water: bentazone that reached high blood concentrations in E. orbicularis. The occurrence and the concentration of pesticides in E. orbicularis blood depended mainly on the site and the sampling date in relation to pesticide application. Individual characteristics (sex, age, body condition) did not explain the occurrence or the concentration of pesticides found in turtle blood. Assessing the exposure of aquatic wildlife to a cocktail of currently-used pesticides is a first and crucial step before studying their effects at the individual and population levels. [Display omitted] • Turtles from rice-growing drainage area were frequently contaminated by pesticides. • Pesticide occurrence and concentrations were linked to the year and day of sampling. • Bentazone was the most detected pesticide without evidence for bioaccumulation. • Individual characteristics did not influence occurrence nor pesticide concentration. [ABSTRACT FROM AUTHOR]

Published

2024

2. Factors responsible for rapid dissipation of acidic herbicides in the coastal lagoons of the Camargue (Rhône River Delta, France)

Author

Al Housari, Fadi, Höhener, Patrick, and Chiron, Serge

Subjects

*HERBICIDES, *LAGOONS, *DELTAS, *SEDIMENTATION & deposition, *ENERGY dissipation, *VAPORIZATION in water purification, *HYDROLYSIS, *PHOTODEGRADATION

Abstract

Abstract: This study was aimed at investigating which processes cause acidic herbicides (e.g., bentazone, MCPA and dichlorprop) to rapidly disappear in the lagoons of the Rhône delta, which are peculiar brackish and shallow aquatic environments. The use of the model MASAS (Modeling of Anthropogenic Substances in Aquatic Systems) revealed that sorption, sedimentation, volatilization, flushing and abiotic hydrolysis had a minor role in the attenuation of the investigated herbicides. Laboratory scale biodegradation and photodegradation studies were conducted to better assess the significance of these two processes in the natural attenuation of herbicides in brackish (lagoons) waters with respect to fresh waters (canals draining paddy fields). Herbicide biodegradation rates were significantly lower in lagoon water than in canal water. Consequently, photodegradation was the main dissipation route of all investigated herbicides. The contribution of indirect photolysis was relevant for MCPA and dichlorprop while direct photolysis dominated for bentazone removal. There is a need to further investigate the identity of phototransformation products of herbicides in lagoons. [ABSTRACT FROM AUTHOR]

Published

2011