Metabarcoding and Metagenomics (Jul 2022)
A strategy for successful integration of DNA-based methods in aquatic monitoring
- Philippe Blancher,
- Estelle Lefrançois,
- Frédéric Rimet,
- Valentin Vasselon,
- Christine Argillier,
- Jens Arle,
- Pedro Beja,
- Pieter Boets,
- Jeanne Boughaba,
- Christian Chauvin,
- Michael Deacon,
- Willie Duncan,
- Gunilla Ejdung,
- Stefania Erba,
- Benoit Ferrari,
- Helmut Fischer,
- Bernd Hänfling,
- Michael Haldin,
- Daniel Hering,
- Nicolas Hette-Tronquart,
- Alice Hiley,
- Marko Järvinen,
- Benjamin Jeannot,
- Maria Kahlert,
- Martyn Kelly,
- Julia Kleinteich,
- Serdar Koyuncuoğlu,
- Sascha Krenek,
- Sidsel Langhein-Winther,
- Florian Leese,
- David Mann,
- Rémy Marcel,
- Stefania Marcheggiani,
- Kristian Meissner,
- Patricia Mergen,
- Olivier Monnier,
- Frank Narendja,
- Diane Neu,
- Veronica Onofre Pinto,
- Alina Pawlowska,
- Jan Pawlowski,
- Martin Petersen,
- Sandra Poikane,
- Didier Pont,
- Marie-Sophie Renevier,
- Steinar Sandoy,
- Jonas Svensson,
- Rosa Trobajo,
- Andrea Tünde Zagyva,
- Iakovos Tziortzis,
- Berry van der Hoorn,
- Marlen Ines Vasquez,
- Kerry Walsh,
- Alexander Weigand,
- Agnès Bouchez
Affiliations
- Philippe Blancher
- Blancher Consultant
- Estelle Lefrançois
- ECO-in-EAU
- Frédéric Rimet
- INRAE, USMB, CARRTEL
- Valentin Vasselon
- Scimabio Interface
- Christine Argillier
- INRAE, RECOVER
- Jens Arle
- German Environment Agency
- Pedro Beja
- University of Porto
- Pieter Boets
- Provincial Centre of Environmental Research
- Jeanne Boughaba
- European Commission
- Christian Chauvin
- INRAE EABX
- Michael Deacon
- Danish Environmental Protection Agency
- Willie Duncan
- Scottish Environment Protection Agency
- Gunilla Ejdung
- Swedish Environmental Protection Agency (SEPA)
- Stefania Erba
- Water Research Institute, CNR-IRSA
- Benoit Ferrari
- Swiss Centre for Applied Ecotoxicology
- Helmut Fischer
- German Federal Institute of Hydrology, BfG
- Bernd Hänfling
- University of Hull
- Michael Haldin
- Swedish Agency for Marine and Water Management
- Daniel Hering
- University of Duisburg-Essen
- Nicolas Hette-Tronquart
- Office Français de la Biodiversité, OFB
- Alice Hiley
- UK Environment Agency
- Marko Järvinen
- Finnish Environment Institute, SYKE
- Benjamin Jeannot
- French Ministry for an Ecological Transition, MET
- Maria Kahlert
- Swedish University of Agricultural Sciences
- Martyn Kelly
- Bowburn Consultancy
- Julia Kleinteich
- German Federal Institute of Hydrology, BfG
- Serdar Koyuncuoğlu
- Water Management, MoAF
- Sascha Krenek
- German Federal Institute of Hydrology, BfG
- Sidsel Langhein-Winther
- Danish Environmental Protection Agency
- Florian Leese
- University of Duisburg-Essen
- David Mann
- Royal Botanic Garden Edinburgh
- Rémy Marcel
- Aquabio
- Stefania Marcheggiani
- Italian National Institute of Health
- Kristian Meissner
- Finnish Environment Institute, SYKE
- Patricia Mergen
- Meise Botanic Garden
- Olivier Monnier
- Office Français de la Biodiversité, OFB
- Frank Narendja
- Environment Agency
- Diane Neu
- Administration de la gestion de l’eau, AGE
- Veronica Onofre Pinto
- Portuguese Environment Agency
- Alina Pawlowska
- ID-Gene ecodiagnostics
- Jan Pawlowski
- University of Geneva
- Martin Petersen
- Danish Environmental Protection Agency
- Sandra Poikane
- European Commission, Joint Research Centre (JRC)
- Didier Pont
- BOKU-IHG
- Marie-Sophie Renevier
- Federal Office for the Environment, FOEN
- Steinar Sandoy
- Norwegian Environment Agency
- Jonas Svensson
- Swedish Agency for Marine and Water Management
- Rosa Trobajo
- Institute for Food and Agricultural Research and Technology, IRTA
- Andrea Tünde Zagyva
- Department for Water Management and Water, OVF
- Iakovos Tziortzis
- Water Development Department, Ministry of Agriculture
- Berry van der Hoorn
- Inholland University of Applied Sciences
- Marlen Ines Vasquez
- Cyprus University of Technology
- Kerry Walsh
- UK Environment Agency
- Alexander Weigand
- National Museum of Natural History Luxembourg, MNHNL
- Agnès Bouchez
- INRAE, USMB, CARRTEL
- DOI
- https://doi.org/10.3897/mbmg.6.85652
- Journal volume & issue
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Vol. 6
pp. 215 – 226
Abstract
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Recent advances in molecular biomonitoring open new horizons for aquatic ecosystem assessment. Rapid and cost-effective methods based on organismal DNA or environmental DNA (eDNA) now offer the opportunity to produce inventories of indicator taxa that can subsequently be used to assess biodiversity and ecological quality. However, the integration of these new DNA-based methods into current monitoring practices is not straightforward, and will require coordinated actions in the coming years at national and international levels. To plan and stimulate such an integration, the European network DNAqua-Net (COST Action CA15219) brought together international experts from academia, as well as key environmental biomonitoring stakeholders from different European countries. Together, this transdisciplinary consortium developed a roadmap for implementing DNA-based methods with a focus on inland waters assessed by the EU Water Framework Directive (2000/60/EC). This was done through a series of online workshops held in April 2020, which included fifty participants, followed by extensive synthesis work. The roadmap is organised around six objectives: 1) to highlight the effectiveness and benefits of DNA-based methods, 2) develop an adaptive approach for the implementation of new methods, 3) provide guidelines and standards for best practice, 4) engage stakeholders and ensure effective knowledge transfer, 5) support the environmental biomonitoring sector to achieve the required changes, 6) steer the process and harmonise efforts at the European level. This paper provides an overview of the forum discussions and the common European views that have emerged from them, while reflecting the diversity of situations in different countries. It highlights important actions required for a successful implementation of DNA-based biomonitoring of aquatic ecosystems by 2030.
