Abstract

Invasive species threaten native biodiversity, potentially leading to a decline in endemic aquatic species. Thus, understanding their physiological responses and evaluating ecosystem impacts is crucial. The study investigates adaptive responses to oxidative stress in the invasive Sinanodonta woodiana in Lake Candia (northwest Italy). This approach represents a novel perspective in environmental monitoring, utilizing invasive species to gain insights into ecosystem health and potential ecological threats. The investigation delved into oxidative stress biomarkers, including superoxide dismutase, catalase, glutathione S-transferase, glyoxalase I, glyoxalase II, and lactate dehydrogenase, in mussel tissues (gills and digestive gland). Concurrently, environmental factors such as temperature, dissolved oxygen, pH, and conductivity were measured at four stations in Lake Candia during the summer. Environmental factors exhibited homogeneity across selected stations, with positive correlations observed only for temperature and conductivity with catalase and glyoxalase I. A distinct pattern of oxidative stress response was consistently observed in both mussel tissues throughout the sampling period across all monitoring stations, with more pronounced alterations observed in one specific station. This observation aligns with IBRv2 scores, indicating the station's highest impact. Gills exhibited a transient and severe oxidative stress response, while heightened antioxidant defenses in digestive glands suggested the adaptive ability of Chinese pond mussels to environmental disturbances. Proactive inclusion of invasive species in biomonitoring programs reduces reliance on native populations, enhancing strategies for controlling non-native mussels in protected areas like Lake Candia.

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