EMBL and HeidelbergCement explore ways to reduce carbon
EMBL and HeidelbergCement have signed an agreement on a three-year collaboration to exchange scientific and technical knowledge
A new Memorandum of Understanding co-signed by EMBL and HeidelbergCement aims to encourage beneficial knowledge exchange in areas related to CO2 emission reduction, avoidance and recovery, as well as driving innovation.
“We are delighted to be partnering with EMBL, one of the world’s leading research institutions for molecular biology, to jointly explore innovative approaches to fight climate change,” explains Bernd Scheifele, Chairman of the Managing Board of HeidelbergCement AG. “This will further strengthen our competence and our commitment to reduce the environmental footprint of our business.”
EMBL and HeidelbergCement will focus their collaborative activities on the coordination of conferences and workshops, bringing international experts to EMBL’s Advanced Training Centre to learn about and debate these important research areas. Meetings will also be initiated that bring together experts from both organisations to develop ideas, action plans and sustainable business practices. During the three-year period, HeidelbergCement and EMBL will also explore further areas for mutually beneficial collaborations.
“Climate change is an incredibly pressing issue,” says EMBL Director, Matthias Hentze. “The science underpinning it is complex and we need the best scientists worldwide to put their heads together to look for innovative solutions. Building on our strong network of internationally leading scientists, EMBL will help facilitate this collaboration and promote discussion between experts.”
HeidelbergCement’s activities include the production and distribution of cement and aggregates, the two essential raw materials for concrete. By its very nature, the cement industry as a whole contributes to almost 6% of all global CO2 emissions each year. In order to reduce this environmental footprint, HeidelbergCement has already pledged to lower specific CO2 emissions by 30% by 2030 in comparison to 1990 levels.