Phytotoxic and cytogenotoxic assessment of glyphosate on Lactuca sativa L

• Published in: Brazilian journal of biology Vol. 84; pp. e257039 - 8
• Main Authors: Vieira, C, Marcon, C, Droste, A
• Format: Journal Article
• Language: English
• Published: Brazil Instituto Internacional de Ecologia 2024
• Subjects: BIOLOGY; biomonitor; Cell cycle; Cell division; Chromosomes; Commercialization; Copper sulfate; Distilled water; Environmental impact; Environmental quality; environmental risk; Filter paper; Germination; Glycine - analogs & derivatives; Glycine - toxicity; Glyphosate; Hazardous materials; herbicide; Herbicides; Herbicides - toxicity; Indicator organisms; International organizations; Lactuca; Lactuca sativa; Micronuclei; non-target organism; Nontarget organisms; Pesticides; Plant growth; Pollutants; Seeds; Toxicity; Weeds; United States > US; biomonitor; toxicity; herbicida; toxicidade; non-target organism; herbicide; environmental risk; organismo não-alvo; risco ambiental
• ISSN: 1519-6984; 1678-4375; 1678-4375
• DOI: 10.1590/1519-6984.257039

The active ingredient glyphosate is the most commercialized herbicide on the world market due to its capability in eliminating weeds. However, it can harm the development of non-target organisms and threaten environmental quality. This study analyzed the effects of potentially toxic concentrations of glyphosate on germination, growth, cell cycle and genomic stability of Lactuca sativa L., and identified the most sensitive variables for assessing the toxicity of this herbicide to this biomonitor. Seeds of L. sativa were germinated in Petri dishes containing a sheet of filter paper moistened with 5 mL of a concentration of glyphosate (1.34, 3.35, 6.70, 10.05, 13.40 mg L-1). Controls consisted of distilled water (negative) and 3 mg L-1 CuSO4 (positive). Macroscopic and microscopic variables were analyzed. The germination of L. sativa was not affected by the concentrations of glyphosate. Root length and shoot height of the plants and the mitotic index decreased from the lowest concentration tested on. The chromosomal anomaly index and frequency of micronuclei increased by 3.2 and 22 times, respectively, with the presence of the lowest concentration of glyphosate compared to the negative control. The observed phytotoxic and cytogenotoxic effects demonstrate the negative influence that glyphosate has on the development of L. sativa. Root length and microscopic variables showed the highest sensitivity. This study warns of the possible harmful effects that glyphosate can have on non-target organisms and suggests greater control over the use of this herbicide to mitigate its environmental impact.