Carriconde Fabian, Maggia Laurent, Stokes Alexia, Gardes Monique, Dinh Kelly, Fernandez Nicolas, Demenois Julien, Stenger Pierre-Louis, Ripoll Julie, Read Jennifer, Mournet Pierre.
2023. Characterising soil microbial diversity for conservation and restoration using large scale DNA based methods in New Caledonian ultramafic ecosystems.
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Résumé : Soil microorganisms could be one of the principal lever for conservation and ecological restoration, owing to their crucial role in ecosystems functioning and their ability to rapidly respond to environmental changes.. However, despite their major role, this hidden biodiversity has beenwidely neglected, particularly in southern hemisphere. New Caledonia is an archipelago located in the southwest Pacific renowned for its exceptional biological diversity, and recognized as a world priority area for conservation and restoration. With one third of its territory covered by soils originated from ultramafic rocks, which contain 20-30% of the global nickel ore reserve, mining has occurred since more than a century and has drastically increased in the past decades. Mining has led to a massive land degradation throughout the entire main island. In this context, we have conducted complementary studies on soil fungal and bacterial communities within diverse ultramafic ecosystems. Their aims were to characterize (i) the taxonomical diversity within these organisms, (ii) the underlying mechanisms that may impact them, as well as (iii) their probable functional roles, and (iv) their potential to be used as monitoring and evaluation tools for restoration. Our investigations relied on different molecular approaches, especially the emergent and revolutionary molecular methods that are next-generation sequencing technologies (NGS). Our results revealedthe incredible soil microbial diversity, notably of the symbiotic group of ectomycorrhizal fungi, which may harbour an endemism rate of 87-95%. We highlighted a plant and site effects on both fungal and bacterial communities. Such site effect suggests that each location, or ultramafic massif, displays its own soil microbial community, and could thus represent distinct conservation units. We also showed that microbial composition influence ultramafic soils' susceptibility to erosion. Lately, our findings pointed out the great promise that represent the combination of soil microbial communities and high-throughput amplicon sequencing of environmental DNA (eDNA) to monitor ecosystems recovery. Soil eDNA metabarcoding could then contribute to the identification of suitable symbionts for plant inoculation. Overall, our findings underpin the great interest of considering soil microorganisms and the emergent new sequencing technologies for conservation and restoration.
Mots-clés libres : Restauration écologique, Metagenomique, Biodiversité, Sol
Auteurs et affiliations
- Carriconde Fabian, IAC (NCL)
- Maggia Laurent, CIRAD-BIOS-UMR AGAP (NCL) ORCID: 0000-0001-9975-9081
- Stokes Alexia, INRAE (FRA)
- Gardes Monique, Université Toulouse III Paul Sabatier (FRA)
- Dinh Kelly, IAC (NCL)
- Fernandez Nicolas, IAC (NCL)
- Demenois Julien, CIRAD-PERSYST-UPR AIDA (CRI) ORCID: 0000-0002-2271-8465
- Stenger Pierre-Louis, IAC (NCL)
- Ripoll Julie, IAC (NCL)
- Read Jennifer, Monash University (AUS)
- Mournet Pierre, CIRAD-BIOS-UMR AGAP (FRA) ORCID: 0000-0001-8011-8647
Source : Cirad-Agritrop (https://agritrop.cirad.fr/605101/)
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