Highlights
- Reduced pH enhances ammonium toxicity on sea urchin embryos in filtered seawater.
- In elutriates ammonium is a major driver of P. lividus embryotoxicity.
- Data support setting ammonium thresholds in sediment quality frameworks.
- Ocean acidification potentially increases ammonium toxicity for sea urchin larvae.
Abstract
Ammonium is a key component of coastal marine systems, originating from both natural and anthropogenic sources, with possible toxic effects on marine organisms depending on the concentration and pH. This study evaluates, for the first time, the combined effects of ammonium and seawater acidification on early development of the sea urchin Paracentrotus lividus under both laboratory conditions and exposure to environmental matrices derived by dredged sediments from harbor area. Embryos were incubated with increasing concentrations of ammonium in filtered seawater at pH 8.1 and 7.6, as well as in sediment elutriates from the Pescara harbor (Adriatic Sea, Italy), selected as a case study with relevant concentrations of ammonium (0.1–3.5 mg/L). A combined effect between ammonium and pH was observed, with increasing ammonium toxicity by ∼20% at pH 7. Moreover, in sediment elutriates, ammonium affect sea urchin embryo development, with EC50 ranging between 1.388 and 1.538 mg/L NH4+ at pH 8.1 and 7.6, respectively, without significant differences due to pH. Chemical analyses of sediments confirmed low levels of trace metals and organic pollutants, indicating that ammonium is the primary driver of embryotoxicity without a direct toxic effect of other contaminants. The results further underscore the need to integrate ammonium assessment into sediment quality frameworks and for management strategies, particularly in the context of future ocean acidification, to safeguard the early life stages of sensitive marine invertebrates.
Anselmi S., Morroni L., Buttino I., Novelli A. A., Broccoli A., Pellegrini D. & Renzi M., 2026. Combined effects of ammonium and pH on sea urchin embryogenesis: insights for sediment quality assessment. Marine Pollution Bulletin 229: 119730. doi: 10.1016/j.marpolbul.2026.119730. Article.
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