Close

sterile insect technique

New Study Enhances Local Planning for Sterile Insect Technique

Article

A new open-access study, supported by the REACT Horizon Europe project, introduces an advanced decision-support system for fine-scale planning of the Sterile Insect Technique (SIT) against Mediterranean fruit flies. By enhancing the PESTonFARM model, researchers Slawomir A. Lux and Marco Colacci enable localized simulations using real-world data from Greece. Their findings show how topography, fruit distribution, and release methods affect SIT success—offering critical guidance for pest control in complex agricultural landscapes.

Read More

Exploring Metabolomics for One Health: REACT Highlights from the Metabolomics Academy

Conference

The Metabolomics Academy, hosted by CNR’s Institute of Bioinformatics and Structural Biology, offered a deep dive into metabolomics through a One Health lens. Among the highlights was Marcella Bonanomi’s presentation on the REACT project, detailing metabolite extraction techniques in tephritid fruit flies and their implications for pest control via the Sterile Insect Technique. The event fostered dialogue between emerging scientists and seasoned researchers, reinforcing the role of metabolomics in addressing interconnected health challenges.

Read More

CRISPR-based Breakthrough: A New Self-Limiting Genetic Tool to Control the Mediterranean Fruit Fly

Visualization

Researchers have developed a groundbreaking genetic tool to control Mediterranean fruit fly populations using a CRISPR-based system that converts females into sterile males or intersexes. This self-limiting method offers a scalable, cost-effective alternative to traditional pest control techniques.

Read More

Engineering Precision: Genetic Innovation Boosts Fruit Fly SIT Efficiency

Article image

In the face of mounting agricultural threats from climate change and invasive pests, scientists are advancing pest control with precision genetic engineering. A recent review by REACT researchers in Insect Science showcases breakthrough innovations enhancing the sterile insect technique (SIT), a method known for eco-friendly pest suppression. From CRISPR/Cas9-driven systems and fluorescent sex-sorting to gene drives and tetracycline-repressible lethality, these tools offer scalable, targeted alternatives to traditional SIT methods. This research marks a significant leap toward sustainable, high-efficiency pest management strategies.

Read More
Call for Abstracts

10th IOBC-WPRS Working Group Meeting

Innovative Pest Control: Shaping the Future of Sustainable Agriculture

10th IOBC-WPRS Working Group Meeting

DATE

22.–24. Nov 2026

LOCATION

OAC, Chania, Crete

The IOBC-WPRS Working Group “Modern Biotechnology in Integrated Plant Production” invites you to a joint meeting held in collaboration with the EU-funded project REACT.

Submit your abstract now → Register for the conference →

MORE INFORMATION: iobc-wprs.react-insect.eu