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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. -
NIOO Theme Sustainable use of land and water
Healthy surface water and soils are essential for life on earth. They provide a range of life-supporting functions, including carbon storage, oxygen generation, and nutrient cycling. At NIOO, we combine research on the ecosystem services provided to society with research on how these ecosystem services are impacted by society. -
Microbes for plant health
Microbes can act as bodyguards for plants and can foster plant growth in other ways as well. At NIOO, we are digging into the mechanisms: in what ways do they interact? And how can we stimulate this, to make our agriculture more sustainable? Let's rewild our microbes! -
Working together
There’s a lot that we can learn from nature! Performing and promoting research, together with policy makers, nature managers and businesses - and sharing the new knowledge it produces. That is NIOO's strength. -
Sustainable use of land & water
Healthy surface water and soils are essential for life on earth, providing diverse life-support functions. How are these ecosystem services affected by human activity, and how can we change this?
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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. -
Migratory animals create worldwide ecosystem
WAGENINGEN – In the animal kingdom, travel is key: that is the conclusion of Silke Bauer’s research in a nutshell. The NIOO-ecologist and an Australian colleague list the numerous species that migrate from one location to another. According to the two researchers, the effects of these migrations on world ecosystems have been overlooked. Time to give the billions of geese, locusts, butterflies, herrings and wildebeest that wander the globe their proper due. -
'Neighbour-plants' determine insects' feeding choices
WAGENINGEN – Insects are choosier than you might think: whether or not they end up feeding on a particular plant depends on much more than just the species to which that plant belongs. The quality of the individual plant is an important factor as well. As is the variety of other plants growing around it. But what, ultimately, makes an insect choose one plant over another?
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Research on ecosystems of the future has started
What will happen when a plant moves to higher latitudes driven by climate change, potentially leaving behind friends and foes?