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Seasonal timing
Species can adapt over the course of time. As the lives of species are altered by climate change, a different seasonal timing could make them adapt to an early spring, for example. How does this work, and what are the limits to such adaptations? -
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. -
Soorten passen zich aan
De afgelopen eeuwen hebben activiteiten van de mens de leefomgevingen van wilde dieren, planten en micro-organismen indringend veranderd. Ecologen van het NIOO zijn geïnteresseerd in hoe soorten zich aan deze snelle veranderingen kunnen aanpassen, bijvoorbeeld door (micro)evolutie. Het vermogen van organismen om dit te doen heeft een grote invloed op de biodiversiteit en het functioneren van ecosystemen. -
How do nutrients and temperature affect cyanobacterial bloom toxicity?
Toxic cyanobacterial blooms threaten freshwater quality, made worse by climate change and eutrophication. The toxicity of these blooms depends not only on cyanobacteria quantity but also on the presence potentially toxin-producing species and genotypes, and their varied toxin production. -
How do nutrients and temperature affect cyanobacterial bloom toxicity?
Toxic cyanobacterial blooms threaten freshwater quality, made worse by climate change and eutrophication. The toxicity of these blooms depends not only on cyanobacteria quantity but also on the presence potentially toxin-producing species and genotypes, and their varied toxin production. -
Climate change impacts on harmful algal blooms
Harmful cyanobacterial blooms produce toxins that are a major threat to water quality and human health. Blooms increase with eutrophication and are expected to be amplified by climate change. Yet, we lack a mechanistic understanding on the toxicity of blooms, and their response to the complex interplay of multiple global change factors. Bloom toxicity is determined by a combination of mechanisms acting at different ecological scales, ranging from cyanobacterial biomass accumulation in the ecosystem, to the dominance of toxic species in the community, contribution of toxic genotypes in the population, and the amounts of toxins in cells. -
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. -
Slapende antibiotica wakker maken met ERC Advanced beurs
De zoektocht naar nieuwe antibiotica vergemakkelijken: Gilles van Wezel wil dit doen door te kijken naar overeenkomsten in het DNA van antibiotica-producerende bacteriën. -
Climate change could make cyanobacteria more toxic
Climate change could result in more toxic cyanobacteria. But what determines their toxicity? Dedmer van de Waal has won a major European grant to find out. -
Klimaatverandering kan blauwalgen giftiger maken
Dedmer van de Waal gaat met een Europese beurs onderzoeken wat de giftigheid van blauwalgen bepaalt, en of klimaatverandering het probleem verergert.