Investigating 5G’s Impact on Pollinators and Biodiversity: Insights from the ETAIN Project
One of the primary goals of the ETAIN project is to assess how much 5G radiation power is absorbed by insects when exposed to specific levels of radiofrequency electromagnetic fields (RF-EMFs). The research aims to understand how this absorbed power varies across different insect species and their developmental stages.
A key focus of the project is on the potential impact of RF-EMFs on biodiversity, particularly insect pollinators. To investigate this, a longitudinal experiment is being conducted where insect trapping is carried out over time in regions consistently exposed to RF-EMFs.
Several experiments are underway in Greece, in collaboration with Ellinikos Georgikos Organismos Dimitra, to examine how 5G radiation affects bees. The experiment consists of two rooms: a control room and an exposed room. Each room contains a Styrofoam box housing beehives. The exposed room has 5G radiation levels higher than what is typically found outdoors but similar to the exposure experienced during phone usage. The control room, isolated by electromagnetic field (EMF) absorbing material, is exposed to normal environmental levels.
To maintain accuracy, the experiment is conducted in areas free from external RF-EMF interference. The bees are allowed to leave the boxes to forage, while their hive activity, influenced by seasonal shifts, is continuously monitored.
In addition to the bee study, parallel research in Montpellier focuses on fruit flies, another critical species for biodiversity research. Stay tuned for further updates as these studies progress and reveal more about the effects of 5G radiation on insect life.
Check ETAIN website to learn more about EMF and pollinators!