Key questions for next-generation biomonitoring

Makiola Andreas, Compson Zacchaeus G., Baird Donald J., Barnes Matthew A., Boerlijst Sam P., Bouchez Agnès, Brennan Georgina, Bush Alex, Canard Elsa, Cordier Tristan, Creer Simon, Curry Allen R., David Patrice, Dumbrell Alex J., Gravel Dominique, Hajibabaei Mehrdad, Hayden Brian, Van der Hoorn Berry, Jarne Philippe, Jones J. Iwan, Karimi Battle, Keck François, Kelly Martyn, Knot Ineke E., Krol Louie, Massol François, Monk Wendy A., Murphy John, Pawlowski Jan, Poisot Thimotée, Porter Teresita M., Randall Kate C., Ransome Emma, Ravigné Virginie, et al.. 2020. Key questions for next-generation biomonitoring. Frontiers in Environmental Science, 7 (197), 14 p.

Journal article ; Article de synthèse ; Article de revue à facteur d'impact Revue en libre accès total
Published version - Anglais
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Abstract : Classical biomonitoring techniques have focused primarily on measures linked to various biodiversity metrics and indicator species. Next-generation biomonitoring (NGB) describes a suite of tools and approaches that allow the examination of a broader spectrum of organizational levels—from genes to entire ecosystems. Here, we frame 10 key questions that we envisage will drive the field of NGB over the next decade. While not exhaustive, this list covers most of the key challenges facing NGB, and provides the basis of the next steps for research and implementation in this field. These questions have been grouped into current- and outlook-related categories, corresponding to the organization of this paper.

Mots-clés Agrovoc : Biomonitoring, Biodiversité, Évaluation des ressources, Écosystème, Surveillance de l’environnement

Mots-clés libres : EDNA, Metabarcoding, Biodiversity assessment, Artificial intelligence, Ecological networks

Classification Agris : P01 - Nature conservation and land resources

Champ stratégique Cirad : CTS 1 (2019-) - Biodiversité

Auteurs et affiliations

  • Makiola Andreas, AgroSup Dijon (FRA)
  • Compson Zacchaeus G., University of New Brunswick (USA)
  • Baird Donald J., University of New Brunswick (USA)
  • Barnes Matthew A., Texas Tech University (USA)
  • Boerlijst Sam P., Naturalis Biodiversity Center (NLD)
  • Bouchez Agnès, INRA (FRA)
  • Brennan Georgina, Bangor University (GBR)
  • Bush Alex, University of New Brunswick (USA)
  • Canard Elsa, INRA (FRA)
  • Cordier Tristan, University of Geneva (CHE)
  • Creer Simon, Bangor University (GBR)
  • Curry Allen R., University of New Brunswick (USA)
  • David Patrice, CEFE (FRA)
  • Dumbrell Alex J., University of Essex (GBR)
  • Gravel Dominique, Université de Sherbrooke (CAN)
  • Hajibabaei Mehrdad, University of Guelph (CAN)
  • Hayden Brian, University of New Brunswick (USA)
  • Van der Hoorn Berry, Naturalis Biodiversity Center (NLD)
  • Jarne Philippe, CEFE (FRA)
  • Jones J. Iwan, Queen Mary University of London (GBR)
  • Karimi Battle, AgroSup Dijon (FRA)
  • Keck François, Leiden University (NLD)
  • Kelly Martyn, Queen Mary University of London (GBR)
  • Knot Ineke E., University of Amsterdam (NLD)
  • Krol Louie, Naturalis Biodiversity Center (NLD)
  • Massol François, CNRS (FRA)
  • Monk Wendy A., University of New Brunswick (USA)
  • Murphy John, Queen Mary University of London (GBR)
  • Pawlowski Jan, University of Geneva (CHE)
  • Poisot Thimotée, Université de Montréal (CAN)
  • Porter Teresita M., University of Guelph (CAN)
  • Randall Kate C., University of Essex (GBR)
  • Ransome Emma, Imperial College London (GBR)
  • Ravigné Virginie, CIRAD-BIOS-UMR PVBMT (REU) ORCID: 0000-0002-4252-2574
  • et al.

Source : Cirad-Agritrop (

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