We can't find the internet
Attempting to reconnect
Something went wrong!
Hang in there while we get back on track
Assessing the human footprint on the sea-floor of coastal systems: the case of the Venice Lagoon, Italy
Summary
This study quantified the human footprint on the shallow seafloor of the Venice Lagoon, documenting widespread contamination from litter, physical disturbance, and pollutants across the lagoon's benthic habitats.
Coastal systems are among the most studied, most vulnerable, and economically most important ecosystems on Earth; nevertheless, little attention has been paid, so far, to the consequences of human activities on the shallow sea-floor of these environments. Here, we present a quantitative assessment of the effects of human actions on the floor of the tidal channels from the Venice Lagoon using 2500 kilometres of full coverage multibeam bathymetric mapping. Such extended dataset provides unprecedented evidence of pervasive human impacts, which extend far beyond the well known shrinking of salt marshes and artificial modifications of inlet geometries. Direct and indirect human imprints include dredging marks and fast-growing scours around anthropogenic structures built to protect the historical city of Venice from flooding. In addition, we document multiple effects of ship traffic (propeller-wash erosion, keel ploughing) and diffuse littering on the sea-floor. Particularly relevant, in view of the ongoing interventions on the lagoon morphology, is the evidence of the rapid morphological changes affecting the sea-floor and threatening the stability of anthropogenic structures.
Sign in to start a discussion.
More Papers Like This
Monitoring macro-litter and microplastics in the Venice coastal area (Italy): evaluation of their distribution and potential sources
Researchers evaluated marine litter contamination in the Venice coastal area using acoustic remote sensing for seafloor macro-litter mapping combined with microplastic concentration measurements across water, sediment, and mussel tissue matrices to assess distribution patterns and potential pollution sources.
Assessing Microplastics and Nanoparticles in the Surface Seawater of Venice Lagoon—Part I: Methodology of Research
Researchers sampled surface seawater in the Venice Lagoon to quantify microplastics and nanoparticles, finding widespread contamination dominated by fibres and film fragments in the micro range alongside metal-containing nanoparticles. The proximity to urban and industrial sources correlated with higher particle concentrations, illustrating the Lagoon as a significant sink for anthropogenic particles.
Monitoring macro-litter and microplastics in the Venice coastal area (Italy): evaluation of their distribution and potential sources
Researchers combined acoustic remote sensing to locate macro-litter on the seafloor and in the water column with microplastic sampling to evaluate marine litter contamination in the Venice coastal area of Italy. The integrated approach assessed distribution patterns, potential pollution sources, and the relationship between macro-litter and microplastic generation in a high-traffic coastal zone.
Floating microplastic distribution in surface water of the Venice Lagoon and its drainage basin (Italy)
Researchers mapped floating microplastic distribution in the surface water of the Venice Lagoon and identified connections to the broader Adriatic Sea through tidal exchange. The lagoon was found to export microplastics to the Adriatic, making it a regional source rather than a simple sink.
Microplastic Contamination in Protected Areas of the Gulf of Venice
Plastic pollution was found in nearly all seven protected marine areas studied in the Gulf of Venice, with microplastics dominating. The findings suggest that official conservation status does not shield coastal sediments from plastic contamination.