Highlights
- GSH system and SOD-CAT act as complementary lines of antioxidant defense
- SA alters Cd effects on antioxidants depending on metal concentration
- High SA overrides Cd effects on antioxidant defenses in Manila clams
- Combined high SA and Cd exposure overwhelms antioxidant capacity
- Candidate biomarkers for monitoring SA or Cd stress are proposed
Abstract
Ocean acidification is known to interact with heavy metals, impacting physiological processes of marine organisms. This study investigated antioxidant defenses of juvenile Manila clam Ruditapes philippinarum exposed to cadmium (Cd) across ambient-relevant to high concentrations, under pCO2-induced seawater acidification (SA) scenarios corresponding to IPCC ocean pH projections. Results revealed that clam’s antioxidant system, encompassing GSH defense system and SOD-CAT defense lines, collectively combated oxidative stress dependent on specific stressors and their stress levels. GSH system is vital for detoxification and maintaining redox balance, while SOD and CAT are essential for scavenging ROS. Cd exposure notably activated GSH redox cycle, and SA markedly inhibited the antioxidants associated with this cycle. SOD and CAT exhibited distinct regulatory pathways with asynchronous responses to SA and Cd co-exposure. SA conditions modulate Cd-induced antioxidant response dependent on metal concentrations. Antioxidant biomarkers responded more prominently to SA and Cd interactions than to individual exposure, particularly, high SA effects could override Cd effects on antioxidant responses. Although SA effects did not directly induce lipid peroxidation, elevated MDA levels under Cd exposure occurred only under SA conditions, indicating insufficient antioxidant defense against lipid peroxidation under excess co-exposure. GSH and SOD were more sensitive to SA exposure, whereas MDA and GST were sensitive to Cd exposure, suggesting their potential as biomarkers for assessing SA or Cd-induced oxidative stress, respectively. These findings provide insights into interplay between metal toxicity and ocean acidification on antioxidant defenses in bivalves, shedding light on their strategies to combat metal pollution amidst global ocean change.
Ni Z., Cui W., Liu J., Cao L. & Dou S., 2026. pCO2-induced seawater acidification influencing cadmium toxicity on antioxidant defenses responses in juvenile Manila clams Ruditapes philippinarum. Marine Pollution Bulletin 228: 119624. doi: 10.1016/j.marpolbul.2026.119624. Article.
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