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Stress responses of the seagrass Cymodocea nodosa to environmentally relevant concentrations of pharmaceutical ibuprofen: Ecological implications

Virginia Menicagli, Monica Ruffini Castiglione, Emily Cioni, Carmelina Spanò, Elena Balestri, Marinella De Leo, Stefania Bottega, Carlo Sorce, Claudio Lardicci

2024Journal of Hazardous Materials12 citationsDOIOpen Access PDF

Abstract

Pharmaceuticals like ibuprofen (IBU) entering marine environments are of great concern due to their increasing consumption and impact on wildlife. No information on IBU toxicity to seagrasses is yet available. Seagrasses form key habitats and are threatened worldwide by multiple stressors. Here, the responses of the seagrass Cymodocea nodosa to a short-term exposure (12 days) to environmentally realistic IBU concentrations (0.25–2.5-25 µg L −1 ), both at organism (plant growth) and sub-organism level (oxidative status, photosynthetic efficiency, and specialized metabolites production), were assessed in mesocosm. Chemical analyses to detect the presence of IBU and its metabolites in seawater and plants were also performed. IBU did not affect plant growth but caused physiological alterations which varied in severity depending on its concentration. Concentrations of 0.25 and 2.5 µg L −1 resulted in oxidative stress, but an increased antioxidant enzyme activity enabled plants to tolerate stress. A concentration of 25 µg L −1 caused greater oxidative stress, reduced antioxidant enzyme activity and specialized metabolites production, and impaired photosynthetic machinery functioning (particularly PSII). IBU was detected in seawater but not in plants suggesting no bioaccumulation. These findings indicate that C. nodosa could not withstand high IBU stress, and this could reduce its resilience to additional environmental stressors. • Effects of seawater contamination by IBU on Cymodocea nodosa plants were assessed. • IBU was detected in the seawater growth medium but not inside plant tissues. • IBU altered specialized metabolite production and caused oxidative stress. • IBU damaged photosynthetic machinery, especially PSII, at high concentration. • Exposure to high IBU amounts may reduce seagrass resilience to other stressors.

Topics & Concepts

SeagrassThreatened speciesEnvironmental scienceHabitatEnvironmental toxicologyWildlifeEcologyFisheryBiologyChemistryToxicityOrganic chemistryCephalopods and Marine BiologyCoral and Marine Ecosystems StudiesMarine and coastal plant biology
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