María Elena Sáenz scite author profile

Widespread pollution from agriculture is one of the major causes of the poor freshwater quality currently observed across Europe. Several studies have addressed the direct impact of agricultural pollutants on freshwater biota by means of laboratory bioassays; however, as far as copepod crustaceans are concerned, the ecotoxicological research is scarce for freshwater species and almost nonexistent for the hypogean ones. In this study, we conducted a comparative analysis of the available literature data on the sensitivity of freshwater copepods to agricultural pollutants. We also assessed the acute and chronic sensitivity of a hypogean and an epigean species, both belonging to the Crustacea Copepoda Cyclopoida Cyclopidae, to two N-fertilizers (urea and ammonium nitrate) and two herbicides (ARIANE TM II from Dow AgroSciences LLC, and Imazamox), widely used for cereal agriculture in Europe. According to the literature review, freshwater copepods are sensitive to a range of pesticides and N-fertilizers. Ecotoxicological studies on hypogean species of copepods account only one study. There are no standardized protocols available for acute and chronic toxicity tests for freshwater copepods, making comparisons about sensitivity difficult. From our experiments, ionized ammonia proved to be more toxic than the herbicide Imazamox, in both short and chronic bioassays. Urea was the less toxic chemical for both species. The hypogean species was more sensitive than the epigean one to all chemicals. For both species and for all tested chemicals, acute lethality and chronic lethality were induced at concentrations higher than the law limits of good water body quality in Europe, except for ionized ammonia, which provoked the chronic lethality of the hypogean species at a lower concentration. The hazardous concentration (HC) of unionized ammonia for 5 % of freshwater copepods, obtained by a species sensitivity distribution, was 92 μg l −1 , significantly lower than the HC computed for traditional test species from freshwater environments.

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Improved single-cell gel electrophoresis assay for detecting DNA damage inEisenia foetida

Marzio

Sáenz

Lemière³

et al. 2005

Environ. Mol. Mutagen.

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The earthworm (Eisenia foetida) is an attractive sentinel species for detecting genotoxicity in soil. In this study, an improved single-cell gel electrophoresis (SCGE) assay was developed for detecting DNA damage in the coelomocytes (lymphocytes) of earthworms. Coelomocytes were obtained from the coelomic fluid using a modified extrusion medium that did not include the mucolytic agent guaiacol. The extruded coelomocytes contained at least three types of cells: eleocytes (75% of the total), amoebocytes, and granulocytes. The DNA migration parameters were determined for untreated cells of each type in order that the assay could be performed with minimum inter- and intra-individual variation. In addition, lysis time was reduced to 10 min, and only one neutralization step was used. DNA damage was detected in isolated eleocytes treated with hydrogen peroxide and cadmium, and in eleocytes from earthworms exposed for up to 21 days to soil containing polycyclic aromatic hydrocarbons. The SCGE assay using earthworm eleocytes appears to be a sensitive biomarker for evaluating exposure to genotoxic compounds.

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María Elena Sáenz

Comparative Acute Toxicity of Two Herbicides, Paraquat and Glyphosate, to Daphnia magna and D. spinulata

Risk assessment of domestic and industrial effluents unloaded into a freshwater environment

Effects of Technical Grade and a Commercial Formulation of Glyphosate on Algal Population Growth

Sensitivity of hypogean and epigean freshwater copepods to agricultural pollutants

Improved single-cell gel electrophoresis assay for detecting DNA damage inEisenia foetida

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