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Adaptation of species
During recent centuries, human activities have dramatically changed the habitats of wild animals, plants and micro-organisms. Ecologists at NIOO are interested in how species can adapt to these rapid changes, for example through (micro)evolution. The ability of organisms to do this has a major impact on biodiversity and the functioning of ecosystems. -
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. -
A living, breathing building
As sustainable as possible, in as many respects as possible: that was the imperative when the Netherlands Institute of Ecology (NIOO-KNAW) commissioned a new building. And we have done it! -
Awakening sleeping antibiotics with ERC Advanced grant
Facilitating the search for new antibiotics: that's what Gilles van Wezel aims to do by looking at similarities in the DNA of antibiotic-producing bacteria. -
NIOO Theme Biodiversity
In order to protect, or restore biodiversity, it is crucial to consider all forms of life within their entire context. The strength of NIOO-based research is that it integrates all of the different levels and scales that make up biodiversity, from genetic diversity to species diversity, from small to large organisms, from trophic interactions to communities and ecosystems, and in a wide range of terrestrial and aquatic habitats. Therefore, NIOO is in the right position to make a substantial and scientifically important contribution to the societal goal of the SDGs. -
Biodiversity
What do we need to know to stop biodiversity decline, at all levels of life ranging from genes, species, communities, habitats to entire ecosystems? -
Evolution in your back garden – great tits may be adapting their beaks to birdfeeders
British enthusiasm for feeding birds may have caused UK great tits to have evolved longer beaks than their European counterparts, according to new research. The findings, published in Science, identify for the first time the genetic differences between UK and Dutch great tits which researchers were then able to link to longer beaks. -
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. -
Identifying plant and animal DNA switches much faster and cheaper
Epigenetics is a fast-growing field of research all over the world. Ecological epigenetics has now been further advanced thanks to the development of a new research technique. ‘This technique is cheaper and faster and enables research that was previously impossible to conduct.’ The time has come to look at how important epigenetic changes really are for dealing with climate change, plagues and other stress-factors. The research team led by the Netherlands Institute of Ecology (NIOO-KNAW) is publishing its technique in the scientific journal Nature Methods. -
Clever songbird's genome may hold key to evolution of learning
The great tit has revealed its genetic code, offering new insight into how species adapt to a changing planet. Initial findings suggest that epigenetics – what’s on rather than what’s in the gene – may have played a key role in the evolution of the ability to learn. And not just that of birds...