Alterations in biochemical parameters of the freshwater fish, Alburnus mossulensis, exposed to sub-lethal concentrations of Fenpropathrin

Fenpropathrin is a new pyrethroid insecticide used to control crop pests. The aim of this study was to evidence fenpropathrin-induced oxidative stress and alterations in biochemical parameters in the freshwater fish, Alburnus mossulensis. Total antioxidant capacity, malondialdehyde (MDA), catalase activity (CAT), aspartate aminotransferase (AST), alanine aminotransferase (ALT), alkaline phosphatase (ALP), lactate dehydrogenase (LDH), creatine phosphokinase (CK), acetylcholinesterase (AChE) in the whole body extract were measured in A. mossulensis after exposure to sub-lethal concentrations of fenpropatrin (approximately equal to 1, 2, 3, 5 and 10% of 96 h LC50) for 15 days. The 24, 48, 72 and 96 h LC50 of the fenpropathrin for A. mossulensis was 562.28±45.19, 218.18±18.75, 136.18±11.90 and 121.38±11.84 µg/L at 24±2 °C. Exposure to 2.75, 5.50 and 12.6 µg/L fenpropathrin significantly increased AST activity in fish. A significant increase in the ALP and LDH activities was observed in fish after a 15 day exposure to 1.25, 5.50 and 12.60 µg/L fenpropathrin. Fenpropatrin significantly induced lipid peroxidation and increased MDA levels in fish. Compared with the control group, total protein levels in fish decreased after exposure to 2.75, 5.50 and 12.60 µg/L fenpropathrin on day 15. Total antioxidant capacity, AChE and CPK activities in fish exposed to fenproparthin were significantly lower than control group.  There was a significant increase in the CAT and ALT activities in fish after exposure to 5.50 and 12.60 µg/L fenpropathrin. In conclusion, fenpropathrin has the potential to disrupt biochemical parameters in A. mossulensis and to induce oxidative stress

Imidacloprid modifies the mitotic kinetics and causes both aneugenic and clastogenic effects in the macrophyte Bidens laevis L.

Imidacloprid (IMI) is a neonicotinoid insecticide widely used in agricultural activities all around the world. This compound is transported from croplands to surrounding freshwater ecosystems, producing adverse effects on non-target organisms. Because of the relevance of aquatic macrophytes in the above-mentioned environments and the lack of studies of potential effects of IMI on them, this work aimed to assess the mitotic process and potential genotoxicity in the aquatic macrophyte Bidens laevis L. Although the analysis of the Mitotic Index (MI) showed that IMI was not cytotoxic, the Cell Proliferation Kinetics (CPK) frequencies evidenced modifications in the kinetics of the mitotic process. Indeed, the anaphases ratio decreased at 10 and 100 mu g/L IMI, while at 1000 mu g/L an increase of prophases ratio and a decrease of metaphases ratio were observed. Regarding genotoxicity, IMI produced an increase of the abnormal metaphases frequency from 10 mu g/L to 1000 mu g/L as well as an increase in clastogenic anaphases-telophases frequency at 100 and 1000 mu g/L. In addition, aneugenic anaphases-telophases and C-mitosis frequencies also increased at 1000 mu g/L, confirming the effects on the mitotic spindle. Considering the genotoxic effects on B. laevis through two different mechanisms (aneugenic and clastogenic) and the wide spread use of IMI in agriculture, these mechanisms of toxicity on macrophytes should be considered among other recognized effects of this insecticide on aquatic biota.Peer reviewe