Abstract
Glyphosate is the most widely used pesticide globally, raising concerns about its environmental persistence and biological impacts. Therefore, monitoring pesticide use is essential for assessing agricultural practices and the risks to human health associated with chemical use. This research examined glyphosate contamination in water (40 samples) and soil (28 samples) from northeastern Romania, an important agricultural region. Glyphosate concentrations in environmental water and soil samples were quantified using a spectrophotometric method based on ninhydrin derivatization, with good linearity over the concentration range 1-30 µg/mL (R(2) = 0.9981). Glyphosate was detected at concentrations above the LOQ in one water sample. Also, the study proposes a UHPLC-MS/MS method for the confirmation of glyphosate presence in the analyzed sample. Additionally, this study contributes to the characterization of the toxicity profiles of glyphosate and a commercial glyphosate-based formulation (Roundup(®)) in primary human gingival fibroblast (hGF) cell lines. The commercial product Roundup, containing glyphosate, exhibited cytotoxicity similar to that of the active compound at low and intermediate doses; a significant cytotoxic effect was observed at a maximum concentration of 1 mM, with prolonged exposure. These findings demonstrate minimal cytotoxicity under the examined conditions and underscore the need for dose- and time-dependent assessments to evaluate the biological impact of herbicide formulations.