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Projet Agronickel

Developing Ni agromining on ultramafic land in Europe

Serpentine (ultramafic) outcrops in Europe cover over 10,000 km2 and have a low-fertility and low-productivity, making them unattractive
for traditional agriculture. Many of these areas are slowly abandoned by farmers, with rural exodus and landscape closure. However,
ultramafic landscapes have potential to provide multiple ecosystem services and contribute to Europe’s goals towards insuring food security,
production of renewable raw materials and renewable energy. The idea of phytomining metals emerged in the 90s and the goal was to
cultivate plants able to accumulate trace metals from metal-rich soils and transport them to the shoots (>1%), which could then be
harvested as a bio-ore to recover highly valuable metals, e.g. nickel (Ni). More recently, the concept has evolved as an integrated chain
from soil management to production of bio-sourced refined metal products. Nickel agromining can offer an eco-efficient alternative to
classical pyro- or hydrometallurgical processes, as well as providing biomass for local energy production.
AGRONICKEL aims to implement agroecosystems which can lead to better soil resource efficiency and to offer a fully integrated, new
agromining agriculture that could cover thousands of km2 in Europe and benefit local communities with sustainable rural development
(Figure 1). AGRONICKEL has identified the bottlenecks that need to be solved before agromining fully develops in Europe. Traditional
agronomy has already been developed for the Ni-hyperaccumulator Alyssum murale but a move towards a more resource-friendly
agriculture is needed. Work Package (WP) 1 aims to design a new agroecological agronomy for hyperaccumulator plants in combination with
agronomic practices (such as co-cropping/rotations, organic amendments, or biotechnological tools,..). The use of the plant biomass has to
be thought of in terms of an integrated cycle. Thus, three uses have to be designed in WP2: potential use of these crops for energy purposes,
the design of a wide array of nickel products to avoid dependance upon a specific niche market, and the production of Ca- and K-rich
by-products which can be safely recycled in agromining fields (according to regulations). The full array of ecosystem services will be
determined and optimised in WP3 and 4 (Life cycle assessment) so that the agromining chain can bring full value to local economies
(bioeconomy) and provide green sources of energy and strategic metals, as well as maintaining or ameliorating the fertility of ultramafic
regions (lowering Ni toxicity, enhancing fertility). Possible impacts concerning the use of local biodiversity, the exchange of gene pools, and
pollination activities will be given full attention.
The consortium associates the leaders of phytomining research in Europe and also includes one SME which has already started activity in
this new promising field. Additionally, one SME and a start-up are ready to implement agromining using the technologies developed in


BOKU University of Natural Resources and Life Sciences Vienna


LRGP Laboratoire Réactions et Génie des Procédés

LSE Laboratoire Sols et Environnement


TEIEMT Eastern Macedonia and Thrace Institute of Technology

UJ Jagiellonian University

UNIFI Università di Firenze

UoT University of Tirana

Aide de l'ANR 202 000 euros
Début et durée du projet scientifique février 2016 - 36 mois



Référence projet : ANR-15-SUSF-0003

Coordinateur du projet :
Monsieur Guillaume Echevarria (Laboratoire Sols et Environnement)


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L'auteur de ce résumé est le coordinateur du projet, qui est responsable du contenu de ce résumé. L'ANR décline par conséquent toute responsabilité quant à son contenu.