Micro-crustaceans: biological models to evaluate a remediation processof glyphosate-based formulations

RENO, ULISES; GUTIERREZ, FLORENCIA; LONGO, MELISA; VIDAL, EDUARDO; REGALDO, LUCIANA; NEGRO, CARLOS; MARIANI, M; ZALAZAR, CRISTINA; GAGNETÉN, ANA MARÍA

WATER AIR AND SOIL POLLUTION

SPRINGER

Lugar: Berlin; Año: 2015 vol. 226

0049-6979

Ecotoxicity studies using two glyphosate-based formulations (Eskoba® and Sulfosato Touchdown®) were undergone with three microcrustacean species to establish their LC50 values and to evaluate the efficacy of cleaning treatments with UV/H2O2.Samples were collected at the beginning of the process −50 mg acid equivalent per liter of glyphosate without H2O2 and at different treatment timepoints: 2, 4, and 6 h. Three microcrustacean species were used as biological models.The Eskoba® LC50 ranged between 14.49 and 95.23 acid equivalents (a.e.) mg L−1and for Sulfosato Touchdown® between 0.31 and 1.74 a.e. mg L−1. The glyphosate-based formulations registered the following order of sensitivities: Ceriodaphnia dubia > Daphnia magna > Notodiaptomus conifer. The treatment duration and mortality (%) were negative and significantly correlated for both formulations, indicating that the remediation process diminished the glyphosate concentration. Therefore, microcrustacean mortality decreased linearly with the remediation time. C. dubia and N. conifer were more sensitive than the holarctic D. magna to the remediation process, since the first two species showed greater percentage of mortality at 6 h of processes, compared with D. magna, for both formulations evaluated. Sulfosato Touchdown® was more toxic but showed greater degradability than Eskoba®. The results provide relevant information regarding (1) the urgency to clearly identify the additives on product labels, (2) the efficiency of UV/H2O2 process for reducing adverse effects of two glyphosate-based formulations, and (3) the importance of developing studies to evaluate the effectiveness of cleaner technologies with an emphasis on microcrustacean species as biological models