期刊
AQUATIC TOXICOLOGY
卷 237, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.aquatox.2021.105881
关键词
Diesel; Gas oil; Heavy fuel oil; Embryotoxicity; AhR gene battery; Cyp1a
资金
- Svalbard Environmental Fund [18/129]
- Research Council of Norway [280511]
This study investigated the toxicity of three marine fuel oils on the early life stages of cod, showing developmental toxicity, morphological changes, and cardiotoxicity. The research also indicated that these fuel oils can affect specific gene pathways, potentially leading to related diseases.
Due to the heavy fuel oil (HFO) ban in Arctic maritime transport and new legislations restricting the sulphur content of fuel oils, new fuel oil types are continuously developed. However, the potential impacts of these new fuel oil types on marine ecosystems during accidental spills are largely unknown. In this study, we studied the toxicity of three marine fuel oils (two marine gas oils with low sulphur contents and a heavy fuel oil) in early life stages of cod (Gadus morhua). Embryos were exposed for 4 days to water-soluble fractions of fuel oils at concentrations ranging from 4.1 - 128.3 mu g TPAH/L, followed by recovery in clean seawater until 17 days post fertilization. Exposure to all three fuel oils resulted in developmental toxicity, including severe morphological changes, deformations and cardiotoxicity. To assess underlying molecular mechanisms, we studied fuel oilmediated activation of aryl hydrocarbon receptor (Ahr) gene battery and genes related to cardiovascular, angiogenesis and osteogenesis pathways. Overall, our results suggest comparable mechanisms of toxicity for the three fuel oils. All fuel oils caused concentration-dependant increases of cyp1a mRNA which paralleled ahrr, but not ahr1b transcript expression. On the angiogenesis and osteogenesis pathways, fuel oils produced concentration-specific transcriptional effects that were either increasing or decreasing, compared to control embryos. Based on the observed toxic responses, toxicity threshold values were estimated for individual endpoints to assess the most sensitive molecular and physiological effects, suggesting that unresolved petrogenic components may be significant contributors to the observed toxicity.
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