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Seagrass ecosystems as green urban infrastructure to mediate human pathogens in seafood
Dawkins, P.D.; Fiorenza, E.A.; Gaeckle, J.; Lanksbury, J.A.; van de Water, J.A.J.M.; Feeney, W.E.; Harvell, C.D.; Lamb, J.B. (2024). Seagrass ecosystems as green urban infrastructure to mediate human pathogens in seafood. Nature Sustainability 7(10): 1247-1250. https://dx.doi.org/10.1038/s41893-024-01408-5
In: Nature Sustainability. Springer Nature Publishing: England. ISSN 2398-9629; e-ISSN 2398-9629, more
Peer reviewed article  

Available in  Authors 

Author keywords
    Ecosystem ecology; Ecosystem services

Authors  Top 
  • Dawkins, P.D.
  • Fiorenza, E.A.
  • Gaeckle, J.
  • Lanksbury, J.A.
  • van de Water, J.A.J.M.
  • Feeney, W.E.
  • Harvell, C.D.
  • Lamb, J.B.

Abstract
    Urban greening offers an opportunity to reinforce food security and safety. Seagrass ecosystems can reduce human bacterial pathogens from coastal sources, but it remains unknown whether this service is conferred to associated food fish. We find a 65% reduction in human bacterial pathogens from marine bivalves experimentally deployed across coastal urban locations with seagrass present compared with locations with seagrass absent. Our model estimates that 1.1 billion people reside in urban areas within 50 km of a seagrass ecosystem. These results highlight the global opportunity to support human health and biodiversity sustainability targets.

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