As part of its outreach and engagement activities, the 100KTREES project is launching a series of webinars aimed at disseminating and promoting the project’s results.
These online events bring together city representatives, urban planners, researchers, and stakeholders from across Europe to explore how 100KTREES tools and services can support greener, healthier, and more resilient cities through tree planting. Each webinar showcase practical applications, lessons learned from pilot cities, and innovative approaches to ecosystem service modelling and urban forest planning.
The 100KTREEs Networking Webinar series
Webinar #1: Webinar with EU cities and stakeholders.
Date: 18 JUNE 2025.
Duration: 1 hour.
Summary:
This 100KTREES webinar introduce participants to the project’s innovative approach to urban greening through the use of advanced modelling and mapping tools. The core of the webinar focuses on real-world success stories from the application of 100KTREES tools and services in pilot cities. The session also highlights the 100KTREES Citizens’ Science App, which promotes community engagement and participatory data collection as a key component of sustainable urban forest management.
Webinar #2: Webinar for professional climate change adaptation community.
Date: 6th AUGUST 2025.
Duration: 50 min.
language: English and Danish.
Summary:
The Danish National Network for Climate Adaptation (DNNK) hosted a dynamic webinar on the 100ktrees project, bringing together around 50 experts in water and climate adaptation.
The session introduced innovative tools for greener, climate-resilient cities, from satellite-based applications to measure urban tree cover, to a hotspot identification toolbox that maps pollution, heat islands, and other environmental challenges while assessing the ecosystem services trees provide. Case studies from Denmark illustrated these solutions in action.
Audience discussions explored biodiversity assessment as the next step, highlighting strong interest in scaling integrated nature based solutions that combine remote sensing, environmental data, and ecosystem service evaluation to enhance urban planning and climate adaptation.
