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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. -
Consortium investigates nature-inclusive use of floating solar panels
The Dutch Research Council (NWO) has awarded more than 2.8 million euros to a consortium led by NIOO's Sven Teurlincx that will investigate the use of floating solar panels. It aims to establish the technological, ecological and social conditions for floating solar energy to have a sustainable future - for people as well as nature, in different landscapes. -
Soil has no borders, and neither should soil policy
Zonder gezonde, biodiverse bodem geen gezonde samenleving. Maar hoe vertaal je dat in goed beleid? -
Thin film of energy
PV foil is 'building-integrated': it collects solar energy, and makes the roof waterproof at the same time. -
Sun = power
Solar energy does not pollute and won’t run out any time soon. But how best to exploit its power? -
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. -
Microbial Networks controlling soil greenhouse gases emissions
Soils are considered principally non-renewable resources. Soil ecosystem services have a large impact on numerous societal demands and are of high economic importance. Within the area of sustainable agriculture, it is expected that agricultural production will increasingly rely on the natural nutrient retention and recycling capabilities of soil. This project seeks to provide a fundamental scientific understanding of soil functioning and the resulting ecosystem services in Brazilian and Dutch bio-economies based on innovative microbial ecology and soil science studies. Focus is in sugarcane crop production systems by linking soil microbial composition and functioning, waste residues recycling, fertilizers, soil factors and greenhouse gases (GHG) emissions through integrating and complementing the strong expertise of Brazilian and Dutch researchers from different areas of agronomy, soil sciences, plant nutrition, biogeochemistry, soil ecology, microbial ecology, ecological genomics, molecular ecology and bioinformatics. We will quantify the microbial functional groups and microbial abundance of C and N cycle genes and measure GHG emissions (CO2, CH4 and N2O) from soils during the productive cycle of the plant under different management practices and verify the temporal and spatial variability of these emissions in the evaluated treatments with different concentrations of sugarcane vinasse residue combined with N mineral fertilizers in combination with straw additions, and determine the conditions under which such GHG emissions can be counteracted, or minimized most. The proposed project will enhance fundamental scientific understanding of the interactive role of the microbial networks operating in soil and the consequences of bio-based agricultural management practices for the functioning of soil systems. -
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. -
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.