MOLMERET Maëlle

Articles

• Control of biological and mineral fouling on ships
  1 September 2020

  Acronym :
  ExUS Funding:
  FUI 25 Short Overview:
  The ExUS project aims to develop an ecological alternative system for the prevention of mineral and bacterial deposits on the ships hulls and in heat exchangers, based on the use of ultrasonic guided waves associated with the heterodyne effect of multiple frequencies. Involved MAPIEM permanent members: MARGAILLAN AndréPartners: Sofchem MCI NOVALL Barriquand LRGP

• Quorum sensing interference in Pseudomonas and related strains isolated from marine ecosystems
  21 October 2020

  Acronym :
  SENPSEUDOMAR Funding:
  PHC TASSILI Short Overview:
  This project aims at better understand how Pseudomonas strains found in marine environment survive in particular in complex biofilms and to evaluate approaches that could limit their development. Involved MAPIEM permanent members: MOLMERET Maëlle BARAQUET Claudine BLACHE YvesPartners:Nom de l’organisation partenaire
  Géomatique, Ecologie Et Environnement (GEE), Université Mustapha STAMBOULI Mascara Algeria
  MELIANI Amina (…)

• MOLMERET Maëlle
  3 June 2016

  Research Topics
  Mechanisms of biofilm formation and inhibition strategies at the molecular level.

• Characterization of Shewanella woodyi Quorum Sensing systems and its role in the adhesion and biofilm formation of this bacterium
  8 June 2016, by Hugues BRISSET

  Beginning: October 2015
  Defence: 17/05/2018

• Biofilm formation and c-di-GMP signaling in Shewanella oneidensis
  8 June 2016, by Hugues BRISSET

  Defence: 22 January 2020

• Drag Reducing and Antifouling Coatings for Navy Ships
  6 June 2016, by Hugues BRISSET

  Acronyme: DRACONS
  Descriptif
  Le projet DRACONS est un projet de recherche et développement associé à la maîtrise d’ouvrage et orienté vers la détermination des performances de revêtements antifouling. Il vise à : étudier les conditions de vieillissement accéléré sur une courte période pour l’évaluation de leurs performances, étudier la formation des biofilms sur des surfaces revêtues immergées in situ et in vitro, étudier leurs incidences sur la réduction de la trainée hydrodynamique. (…)

• Antifouling Coatings for War Ships
  7 June 2016, by Hugues BRISSET

  Financement:
  EDA Project.B0001-GEM1-ERG and B0945-GEM1-ERG
  Description:
  The pressure of environment regulations has reached to ban tin containing antifouling coatings, which could have fulfilled the objectives of dry-docking intervals previously mentioned. In addition, other metallic compounds are considered to be regulated in a near future such as copper base products well known to-day as antifouling components.
  New tin free self polishing / ablative antifoulings have been (…)

• What about the ability of the Mediterranean brown seaweed Taonia atomaria to control foulers but also to select surface-associated bacteria?
  8 June 2016
• The marine bacterium Shewanella woodyi produces C8-HSL to regulate bioluminescence
  20 October 2020
• Mutlispecies biofilms: a step toward understanding microbial interactions
  20 October 2020