Plant pest prevention through technology-guided monitoring and site-specific control

Food, Bioeconomy & Natural ResourcesHORIZON-RIAID: 101060634
EC Contribution
€64,722
Consortium Size
18 orgs
Start Year
2023
Summary

The EU requires rapid and effective actions based on innovative detection concepts targeting quarantine, priority and other serious pests. Fair, healthy and environment-friendly food systems are threatened by increasing pest invasions due to climate change and a growing demand for high quality, pest-free food. The goal of PurPest is to develop, validate and demonstrate an innovative sensor platform that can rapidly detect five different pests during import and in the field to stop their establishment and reduce pesticide inputs by at least 50%. The sensor concept is based on detection of pest-specific volatile organic compounds (VOCs) emitted by host plants invaded by one or several pests. PurPest will determine the VOC signature of Phytophthora ramorum, the Fall armyworm, the Cotton bollworm, the Brown marmorated stinkbug and the Pinewood nematode under different abiotic stress conditions. The VOC database will be exploited to optimize existing and develop new sensor concepts to detect pest-specific VOCs, starting from proof of concept (TRL3) to demonstration in field trials (TRL6). Non-invasive, reliable and rapid pest sensing platforms will increase pest screening efficiency from currently 3% to 80% of plant imports. Preventing outbreaks of new pests and site-specific pesticide use by early detection are the cornerstones of sustainable and integrated pest management (IPM). PurPest will evaluate the socio-economic and ecological impact of 5 pests and how the new detection concept affects these impacts. Direct communication with stakeholders via the advisory board, workshops and webinars is part of PurPest’s multi-actor approach to affirm involvement of all interest groups along the value chain The PurPest project is a strong multidisciplinary consortium with expertise from 10 countries, 7 universities, 5 research institutes, 4 SMEs and 2 governmental agencies.

Consortium (18)

Project Results (19)

Source: CORDIS, the EU research results database.

Publications (7)
Modeling disease expression of Phytophthora ramorum to estimate potential economic impacts in European forests
Forest Ecology and Management· 2026DOI
Stelios Kartakis; Thomas Jung; Darren J. Kriticos; Justus Wesseler
Analysis of Ergothioneine Using Surface-Enhanced Raman Scattering: Detection in Mushrooms
Chemosensors· 2025DOI
Federico Puliga; Veronica Zuffi; Alessandra Zambonelli; Pavol Miškovský; Ornella Francioso; Santiago Sanchez-Cortes
Scientific Reports
Scientific Reports· 2025DOI
Kartakis, Stelios; Horrocks, Kiran J.; Cingiz, Kutay; Kriticos, Darren J.; Wesseler, Justus
Development and validation of an innovative headspace collection technique: volatile organic compound patterns emitted by different developmental stages of Halyomorpha halys
Frontiers in Horticulture· 2024DOI
Ali Karimi; Jürgen Gross
Frontiers in Horticulture
Frontiers in Horticulture· 2024DOI
Ali Karimi and Juergen Gross
The use of volatile organic compounds in preventing and managing invasive plant pests and pathogens
Frontiers in Horticulture· 2024DOI
Riccardo Favaro; Miroslav Berka; Martin Pettersson; Gunda Thöming; Carla C. M. Arce; Maria L. Inácio; Ted C. J. Turlings; Jorge M. S. Faria; Jorge M. S. Faria; Thomas Jung; Damien Bazin; Alberto Pozzebon; Sergio Angeli; Luca Cappellin
Advances in Eelctronic Nose Sensors for Plant Disease and Pest Detection
Engineering Proceedings· 2023DOI
Ana Fundurulic, Jorge M.S. Faria, Maria L. Inacio
Deliverables (11)
Other Results (1)
Periodic Reporting for period 1 - PURPEST (Plant pest prevention through technology-guided monitoring and site-specific control)