An integrated set of novel approaches to counter the emergence and proliferation of invasive and virulent soil-borne nematodes

Food, Bioeconomy & Natural ResourcesHORIZON-RIAID: 101083727
EC Contribution
€60,638
Consortium Size
19 orgs
Start Year
2024
Summary

Soil-borne plant-parasitic nematodes are a biosecurity risk for global food production with an estimated annual loss of €110 billion worldwide. Root-knot nematodes (RKN) and potato cyst nematodes (PCN) rank 1 and 2 in the Top 10 of high-impact plant-parasitic nematodes with RKN alone accounting for ~5% of global crop losses. RKN and PCN are A2 quarantine pests or emerging species listed on the EPPO Alert List. The two PCN species are also included in EU Commission implementing regulation 2021/2285. Recent reports document the emergence of new RKN and PCN problems in tomato and potato cropping across Europe and beyond due to two independent drivers: global warming and genetic selection. For decades, non-specific, environmentally harmful agrochemicals have been applied to manage RKN and PCN. The increasing awareness about their negative impact prompted the phasing out of most nematicides. Consequently, there is an urgent need for novel, durable control strategies that enable adequate responses by stakeholders to prevent crop losses in the EU and beyond. NEM-EMERGE will provide a spectrum of sustainable, science-based solutions for both the conventional and organic farming sector based on the principles of IPM, including (1) optimized crop rotations schemes including cover crops, (2) tailored host plant resistances, and (3) optimal use of the native antagonistic potential of soils. Moreover, monitoring and risk assessment tools will be generated to support Plant Health Authorities in decision and policy making. To ensure the adoption and implementation of NEM-EMERGE tools in the sector, a bottom-up co-creation process and multi-actor approach will be used based on stakeholder demands from both the conventional and organic sector. This makes NEM-EMERGE a key driver for the transition to sustainable farming in line with the Farm to Fork Strategy thereby contributing to the challenging targets set by the Green Deal.

Consortium (19)

Project Results (11)

Source: CORDIS, the EU research results database.

Publications (4)
Adaptation of <i>Globodera pallida</i> to Individual Components Compromises the Durability of Pyramided Resistance in Potato
Evolutionary Applications· 2025DOI
Océane Lechevalier, Magali Esquibet, Eric Grenier, Sylvain Fournet, Josselin Montarry
Patchy Distribution of Potato Cyst Nematodes Within Single Arable Fields Reveals Local Disease Suppressiveness Mediated by Disparate Microbial Communities
Environmental Microbiology· 2025DOI
Robbert van Himbeeck, Stefan Geisen, Casper van Schaik, Sven van den Elsen, Roeland Berendsen, André Bertran, Egbert Schepel, Johannes Helder
Combining Masculinizing Resistance, Rotation, and Biocontrol to Achieve Durable Suppression of the Potato Pale Cyst Nematode: A Model
Evolutionary Applications· 2024DOI
Israël Tankam Chedjou, Josselin Montarry, Sylvain Fournet, Frédéric M. Hamelin
Non-invasive, pre-symptomatic detection of potato cyst nematode infection in tomato using chlorophyll fluorescence analysis
Phytopathology®· 2024DOI
Robbert van Himbeeck, Eline Laura Binnebösz, Deisy Amora, Michele Gottardi, Jaap-Jan Willig, Stefan Geisen, Johannes Helder
Deliverables (6)
Data Management Plan
Documents, reports
Documents, reports
Documents, reports
Data sets, microdata, etc
Other Results (1)
Periodic Reporting for period 1 - NEM-EMERGE (An integrated set of novel approaches to counter the emergence and proliferation of invasive and virulent soil-borne nematodes)