Journal
ECOTOXICOLOGY AND ENVIRONMENTAL SAFETY
Volume 228, Issue -, Pages -Publisher
ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.ecoenv.2021.112966
Keywords
Strobilurins; Fenamidone; Development toxicity; Mitochondrial oxygen consumption rates; Locomotor activity
Categories
Funding
- University of Florida
- College of Veterinary Medicine
- National Key Research and Development Program of China [2019YFC1804602]
- National Natural Science Foundation of China [41771496]
- Chinese Scholarship Council
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Fenamidone negatively affects the development of zebrafish embryos, causing a delay in hatching time and morphological deformities. It also significantly reduces oxygen consumption rates of embryos and decreases Sod2 mRNA levels in larval fish. Additionally, exposure to fenamidone leads to decreased locomotor activity in zebrafish larvae.
Strobilurin fungicides are among the most widely used in the world and have characteristics that include high water solubility and toxicity to aquatic organisms. While several studies report on mechanisms of toxicity of strobilurins in fish, there are no data on the sub-lethal toxicity of fish to the fungicide fenamidone. To address this gap, survival and hatch rate, deformities, mitochondrial bioenergetics, expression of oxidative stress and apoptotic genes, and behavior (locomotor activity and anxiolytic-related behaviors) were assessed in zebrafish embryos and larvae following exposure to fenamidone. Fenamidone negatively affected development of zebrafish embryos, causing a delay of hatching time at concentrations of 2.5 and 5 mu M. Fenamidone caused morphological deformities in zebrafish, including pericardial edema, yolk sac edema, tail deformities, and spinal curvature. Exposure to 1.5 mu M fenamidone reduced surface area of swim bladder in larvae at 6 dpf. Fenamidone significantly reduced oxygen consumption rates of embryos; 5 mu M fenamidone decreased basal respiration (similar to 85%), oligomycin induced ATP-linked respiration (similar to 70%), FCCP-induced maximal respiration (similar to 75%) and nonmitochondrial respiration (similar to 90%) compared to controls. Sod2 mRNA levels were decreased by fenamidone in larval fish. Locomotor activity was significantly decreased in zebrafish larvae following exposure to 2 mu M fenamidone but there was no evidence for anxiolytic nor anxiety-related behaviors (exposures of 100 nM up to 1.5 mu M). This study addresses a data gap for potential risks associated with fenamidone exposure in developing fish.
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