Highlights
- Offspring/persistent OA plus OW aggravated IHg toxicity in T. japonicus.
- Persistent OA had stronger mitigating effect on IHg toxicity than offspring OA.
- OA plus OW intensified IHg toxicity in copepods mainly via lysosome dysfunction.
- Persistent OA enhanced energy metabolism and Hg efflux, decreasing IHg toxicity.
- Different scenarios of climate change can variably affect IHg toxicity in copepods.
Abstract
Dynamic shifts in multiple stressors are frequent in the marine environment. Here, we conducted a multigenerational experiment (F1-F4) to explore how different temporal scenarios of climate change, i.e., offspring/persistent ocean acidification (OA), warming (OW), and their combination (AW), could affect inorganic mercury (IHg) toxicity in the marine copepod Tigriopus japonicus. We found that persistent OA exhibited stronger mitigating effect on IHg toxicity in copepods than offspring OA, while offspring/persistent OW and AW aggravated its toxicity effects. We specifically performed transcriptomic analysis for the copepods of F4. Our transcriptomic result showed energy metabolism and detoxification were activated by persistent OA, enabling the copepods to resist IHg exposure. Instead, detoxification- and reproduction-related processes were inhibited in IHg-treated copepods under offspring/persistent OW and AW scenarios. Although apoptosis was suppressed to probably protect IHg-treated copepods under persistent AW, oxidative stress and lysosomal dysfunction ultimately caused reproductive impairment. Our study highlights that offspring/persistent (i.e., developmental/transgenerational) OA and OW could differentially modulate Hg toxicity in marine copepods, and more studies should focus on the temporal variation and complex interaction of multiple stressors, helping accurately project marine biota’s response in the future ocean.
Zhao F., Lin S., Lee J.-S. & Wang M., in press. Developmental and transgenerational effects of climate change on inorganic mercury toxicity in a marine copepod. Journal of Environmental Sciences. Article (subscription required).
