PORTAS Aurélie

Articles

• Impact de l’hydrodynamisme sur la structure des communautés et l’expression métabolique de biofilms dans la ria d’Etel (Atlantique, Bretagne)
  25 August 2023, by JFB
• Seawater copper content controls biofilm bioaccumulation and microbial community on microplastics
  19 January 2022, by JFB
• Shear stress controls prokaryotic and eukaryotic biofilm communities together with EPS and metabolomic expression in a semi‑controlled coastal environment in the NW Mediterranean Sea
  20 December 2024, by JFB
• PORTAS Aurélie
  10 October 2019

  From 01/10/2019 to 12/04/2023 Research Topics
  Study of the biofilm on renewable marine structures

• Surface Characteristics Together With Environmental Conditions Shape Marine Biofilm Dynamics in Coastal NW Mediterranean Locations
  4 February 2022, by RB
• LC-MS based untargeted metabolomics combined with ATR-FTIR spectroscopy reveals how hydrodynamics affects the metabolic production of marine biofilms
  25 August 2023, by JFB
• Impact of hydrodynamics on community structure and metabolic production of marine biofouling formed in a highly energetic estuary
  25 March 2024, by JFB
• Dans quelle mesure les communautés free-living et particle-attached contribuent-elles à la diversité de biofilms formés sur des microplastiques en polyéthylène en milieu marin ?
  25 August 2023, by JFB
• Impact de l’hydrodynamisme sur la structure de la communauté microbienne et l’expression métabolique des biofilms marins dans un environnement semi-contrôlé
  25 August 2023, by JFB
• Biofouling Integrative characterizatiOn & Description of HYdrodynamic Loadings
  4 February, by JFB

  The current trend is to limit or eliminate cleaning operations in farms in order to preserve their reef effect, and thus reduce their environmental impact, while drastically limiting maintenance costs. This is only possible if the phenomenon of biocolonisation is sufficiently understood to be anticipated. A focus on mooring lines and dynamic cables seems essential, as these key components are presumed to have different hydromechanical behaviour and therefore different wear once colonised. As (…)