Assessment of Spatio-Temporal Variability of Faecal Pollution along Coastal Waters during and after Rainfall Events
Elena Manini (1); Elisa Baldrighi (1); Fabio Ricci (2; 3); Federica Grilli (1); Donato Giovannelli (1; 4; 5; 6); Michele Intoccia (4); Silvia Casabianca (2; 3); Samuela Capellacci (2; 3); Nadia Marinchel (2; 3); Pierluigi Penna (1); Fabrizio Moro (1); Alessandra Campanelli (1); Angelina Cordone (4); Monica Correggia (4); Deborah Bastoni (4); Luigi Bolognini (7); Mauro Marini (1; 3); Antonella Penna (2; 3);
More than 80% of wastewaters are discharged into rivers or seas, with a negative impact on
water quality along the coast due to the presence of potential pathogens of faecal origin. Escherichia
coli and enterococci are important indicators to assess, monitor, and predict microbial water quality
in natural ecosystems. During rainfall events, the amount of wastewater delivered to rivers and
coastal systems is increased dramatically. This study implements measures capable of monitoring the
pathways of wastewater discharge to rivers and the transport of faecal bacteria to the coastal area
during and following extreme rainfall events. Spatio-temporal variability of faecal microorganisms
and their relationship with environmental variables and sewage outflow in an area located in the
western Adriatic coast (Fano, Italy) was monitored. The daily monitoring during the rainy events
was carried out for two summer seasons, for a total of five sampling periods. These results highlight
that faecal microbial contaminations were related to rainy events with a high flow of wastewater,
with recovery times for the microbiological indicators varying between 24 and 72 h and influenced by
a dynamic dispersion. The positive correlation between ammonium and faecal bacteria at the Arzilla
River and the consequences in seawater can provide a theoretical basis for controlling ammonium
levels in rivers as a proxy to monitor the potential risk of bathing waters pathogen pollution
2022 - Articolo in rivista
Water (Basel) 14 (2022). doi:10.3390/w14030502
Keywords: bathing waters, Adriatic coast, European Bathing Water Directive, faecal bacteria, rainfall