Geoengineering is a hope to slow down and reduce CO2 levels in the atmosphere. Technological innovations must help us to find solutions to this global problem.

An international team of researchers co-led by Josep Peñuelas (CSIC and CREAF) has developed a new method for monitoring changes in the photosynthetic activity of perennial conifers throughout the year. This new technique, based on the analysis of remote sensing images captured by satellites, will improve global models of atmospheric carbon capture and permit more precise predictions about climate change.

Last November, two members of CREAF’s staff attended a workshop organized by the European Commission which was also attended by the Network of Centres of Excellence in Water Sciences (NEPAD). At this meeting held in Accra, the BEWATER project was presented as a successful case. 

The European project MENFRI was coordinated by CREAF and came to an end in 2016. Its novel approach, centering on cooperation and knowledge transfer, has opened the door to new opportunities, The NODE being one of them.

A large brain increases the capacity to adjust behavior to new circumstances through learning, improving resource-gathering in a changing environment. Greater understanding of this capacity can improve predictions of what species of birds and other animals will be most vulnerable to global change.

A new study with the participation of Bernat Claramunt, UAB and CREAF researcher, underscores the great potential of citizen science for conservation.