Zn is a common heavy metal pollutant in water bodies and accounts for the largest proportion of heavy metal pollutants in many rivers entering the sea. This study investigated the growth and physiological response characteristics of Sargassum fusiforme under different divalent Zn ion concentration gradients. We observed that low concentration Zn treatment (<2 mg L) exerted no significant effect on the growth rate, photosynthesis, and nitrogen metabolism-related indicators of S. fusiforme. Treatment with medium to high Zn concentrations (2-25 mg L) significantly affected the growth rate, photosynthetic activity, nitrogen absorption rate, antioxidant enzyme activity, membrane lipids, and DNA peroxidation damage-related indicators of S. fusiforme. Under medium-to-high concentration treatments, the SOD activity of S. fusiforme decreased with increasing concentration, and the CAT activity increased with increasing treatment concentration. The MDA and HO contents increased with increasing Zn concentrations. At a Zn concentration of 5 mg L, the relative conductivity of S. fusiforme significantly increased. Treatment with higher Zn concentrations significantly increased the 8-hydroxydeoxyguanosine (8-OHdG) content, poly ADP-ribose polymerase (PARP) activity, and Histone H2AX content of S. fusiforme, thus indicating that Zn stress causes DNA damage. All Zn concentrations induced mannitol accumulation, and soluble protein content decreased with increasing Zn concentration. In summary, we observed that a Zn concentration of 2-5 mg L may be the critical value for the response of S. fusiforme to Zn stress. Higher concentrations of Zn in the environment can exert toxic effects on the growth, development, and biomass accumulation of S. fusiforme. This study provides a reference for the risk assessment and aquaculture management of seaweeds.
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