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Developing digital twins to help understand ecosystems
LTER-LIFE aims to study and predict how global change affects ecosystems. It is one of nine projects that have just won funding for setting up and improving large-scale research infrastructure. -
Floor = hot = cold
With hot and cold water led through pipes in the concrete floors, we keep the temperature nice and constant. -
Deep source of new energy
In addition to conventional thermal energy storage, we use a solution that was developed especially for us. -
Thin film of energy
PV foil is 'building-integrated': it collects solar energy, and makes the roof waterproof at the same time. -
Predicting soil biodiversity to make food production more sustainable
Fields and meadows provide a range of key services, as long as the soil is healthy. A group of researchers and companies will study how farmlands can be returned to multifunctionality. -
Lisette De Senerpont Domis appointed to Smart Ecological Monitoring of Aquatic Systems chair
Lisette de Senerpont Domis is to be appointed professor of Smart Ecological Monitoring of Aquatic Systems at the University of Twente as of 1 May. -
Spreading the word about wild swimming... but safety first!
Swimming in nature is healthy. A group of British researchers have started a project to spread the word. -
Nature in Production: fish ecology at the Marker Wadden (NiPFish)
Natuur in Productie: visecologie op de Marker Wadden (NiPFish) -
Testing early warning signals for crises, in lakes
Wouldn't it be great if we could tell the state of an ecosystem or the like - healthy or heading for a crisis - by keeping track of a few key signals? Thanks to the theory of ‘tipping points’, that’s not unthinkable. Now a team of researchers led by Alena Gsell of the Netherlands Institute of Ecology (NIOO-KNAW) has tested early warning signals: in lakes. In the Early Edition of PNAS online, they conclude that predicting works...but not yet in all cases. -
Extinction of Pleistocene herbivores induced major vegetation and landscape changes
The extinction of large herbivores such as mammoths could explain massive prehistoric changes in vegetation and landscape structure, with major implications for our understanding of present-day ecosystems. Modern and paleo-ecologists joined forces in an international study led by the Netherlands Institute of Ecology (NIOO-KNAW). The results are being published online by PNAS this week.