Faria, A.Fonseca, P. J.Vieira, M.Alves, L. M. F.Lemos, Marco F.L.Novais, Sara C.Matos, A. B.Vieira, D.Amorim, M. C. P.2022-08-052022-08-052022A. Faria, P.J. Fonseca, M. Vieira, L.M.F. Alves, M.F.L. Lemos, S.C. Novais, A.B. Matos, D. Vieira, M.C.P. Amorim, Boat noise impacts early life stages in the Lusitanian toadfish: A field experiment, Science of The Total Environment, Volume 811, 2022, 151367, ISSN 0048-9697, https://doi.org/10.1016/j.scitotenv.2021.151367.1879-1026http://hdl.handle.net/10400.8/7529Acknowledgments : We are thankful to the Air Force Base No. 6 of Montijo (Portugal) for allowing the field study in their military establishment. We are also grateful to Marilia Freire and Daniel Alves for the valuable assistance during field work. This study was funded by the Science and Technology Foundation, Portugal, project PTDC/BIA-BMA/29662/2017; strategic projects UID/MAR/04292/2020 to A.F. and M.C.P.A. by MARE and UID/BIA/00329/2020 to P.J.F. by cE3c; grant SFRH/BD/115562/2016 to M.V.Marine traffic is themost common and chronic source of ocean noise pollution. Despite the evidence of detrimental effects of noise exposure on fish, knowledge about the effects on the critical early life stages - embryos and larvae - is still scarce. Here, we take a natural habitat-based approach to examine potential impacts of boat noise exposure in early life stages in a wild fish population of the Lusitanian toadfish (Halobatrachus didactylus). In-situ experiments were carried out in the Tagus estuary, an estuary with significant commercial and recreational boat traffic. Nestswith eggswere exposed to either ambient (control) or boat noise (treatment), for 1 fortnight. Eggs were photographed before being assigned to each treatment, and after exposure, to count number of eggs and/or larvae to assess survival, and sampled to study development and oxidative stress and energy metabolism-related biomarkers. Data concerns 4 sampling periods (fortnights) from 2 years. Results indicate that offspring survival did not differ between treatments, but boat noise induced a detrimental effect on embryos and larvae stress response, and on larvae development. Embryos showed reduced levels of electron transport system (ETS), an energy metabolism-related biomarker, while larvae showed higher overall stress responses, with increased levels of superoxide dismutase (SOD) and DNA damage (oxidative stress related responses), ETS, and reduced growth. With this study,we provided the first evidence of detrimental effects of boat noise exposure on fish development in the field and on stress biomarker responses. If these critical early stages are not able to compensate and/or acclimate to the noise stress later in the ontogeny, then anthropogenic noise has the potential to severely affect this and likely other marine fishes, with further consequences for populations resilience and dynamics.engAnthropogenic noiseFishEarly life stagesStress responseBiomarkersField experimentsjournal article10.1016/j.scitotenv.2021.151367