PT - JOURNAL ARTICLE AU - Di Iorio, Lucia AU - Bonhomme, Patrick AU - Michez, Noëmie AU - Ferrari, Bruno AU - Gigou, Alexandra AU - Panzalis, Pieraugusto AU - Desiderà, Elena AU - Navone, Augusto AU - Boissery, Pierre AU - Lossent, Julie AU - Cadville, Benjamin AU - Bravo-Monin, Marie AU - Charbonnel, Eric AU - Gervaise, Cédric TI - Spatio-temporal surveys of the brown meagre <em>Sciaena umbra</em> using passive acoustics for management and conservation AID - 10.1101/2020.06.03.131326 DP - 2020 Jan 01 TA - bioRxiv PG - 2020.06.03.131326 4099 - http://biorxiv.org/content/early/2020/06/04/2020.06.03.131326.short 4100 - http://biorxiv.org/content/early/2020/06/04/2020.06.03.131326.full AB - Conservation of exploited fish populations is a priority for environmental managers. Spatio-temporal knowledge on reproductive sites is mandatory for species and habitat conservation but is often difficult to assess, particularly over vast geographic areas. Regular and long-term standardized surveys are necessary to identify reproductive sites, assess population trends and their distribution. Here we emphasize the utility of Passive Acoustic Monitoring (PAM) for the survey and management of a depleted vulnerable Mediterranean fish species, the brown meagre, Sciaena umbra. Acoustic surveys of reproductive calls were conducted combining 1) spatial data from standardized surveys within three MPAs and from 49 unprotected sites throughout the Northwestern Mediterranean basin, as well as 2) temporal data from a two-year-long survey at a presumed spawning location. The MPA surveys, which rapidly scanned ~30-50 km of the rocky coastlines per MPA, unveiled maps of distribution and reproductive activity of the brown meagre, including potential spawning sites. They were also effective in emphasizing effects linked to management actions: Full-protection zones had a higher number of vocalizations (70% of the listening sites) compared to less protected zones (30% of the sites) or sites outside MPAs (45% of the sites). This was also reflected in the number of singers that was generally low (&lt; 3 individuals) in less protected zones and outside MPAs, implying lower fish densities. Highest calling aggregations were observed in potential spawning areas that represented only 0.04% of all listening sites, and were almost all in older, fully protected MPAs, which thus play a key role for fish stock recovery. The two-year survey revealed a 5-month reproductive season (from May to October) with a strong positive correlation between calling activity and temperature. Overall this study confirms the role of PAM as an efficient, replicable and standardized non-invasive method for population management that can identify functional sites and key protection zones, provide valuable information on reproduction, spatial and temporal occurrence, but also on population trends and climate-driven changes.HighlightsMonitoring of threatened species and their key habitats is critical for environmental managers.Management requires methods to assess population trends at large spatial and temporal scales.Passive acoustics (PA) is efficient in mapping and monitoring vulnerable fish species.Distribution, reproductive sites and population dynamics can be assessed over vast geographical areas.We show the utility of PA to identify key conservation zones and assess effects of management actions.Competing Interest StatementThe authors have declared no competing interest.