Pollination Network Monitoring and Recovery

Secure and restore pollination services critical to food systems and biodiversity. This involves: • Building ecological models that map plant–pollinator interactions and forecast vulnerability or collapse points. • Deploying global pollinator monitoring systems using visual, acoustic, and eDNA sensors paired with AI to track pollinator diversity and behavior. • Designing landscape-level interventions such as habitat corridors, floral resource planning, and pesticide regulations to boost wild pollinator recovery. Pollination is critical for food systems and biodiversity, yet global pollinator populations are in sharp decline, and we lack robust ways to track, model, or supplement pollination services at scale. We need to:  • Build ecological models that map plant–pollinator interactions and predict vulnerability or collapse points. • Deploy global pollinator monitoring infrastructure: networks of sensors (visual, acoustic, eDNA) and AI models to monitor pollinator presence, diversity, and behavior across ecosystems and crop systems • Design and deploy landscape-Level Interventions for Pollinator Recovery: large-scale habitat corridors, floral resource planning, and pesticide regulations to recover wild pollinators.