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Genetic diversity protects

31/05/2018 Leibniz-Institute of Freshwater Ecology and Inland Fisheries

Diversity is the key: a team of researchers has succeeded in demonstrating experimentally that genetic diversity makes populations more resistant to disease.


A team led by IGB researcher and evolutionary ecologist Dr. Ramsy Agha has now investigated the evolution of the fungal parasite Rhizophydium megarrhizum. This parasite infects the cyanobacterium species Planktothrix, which is prevalent in many freshwaters. The team exposed the parasite to host populations whose individuals were genetically identical to each other, and alternatively to populations comprised of different genetic variants. Since the fungus multiplies rapidly, roughly once a day, the scientists monitored its performance for a total period of 200 days. “We wanted to observe evolutionary change in real time and under controlled conditions, to find out if and how quickly parasites adapt to genetically homogenous and diverse hosts,” explained Ramsy Agha.

The scientists permitted the adaptation of Rhizophydium megarrhizum, but kept the host populations in an evolutionary standstill. “We were able to show that the fungi adapt to genetically homogenous hosts very quickly, that is within just three months,” reported Agha. This adaptation is reflected in the fact that the parasites managed to adhere to the hosts and overcome their defence mechanisms more quickly, and were therefore able to reproduce more rapidly.

Genetic diversity in the host population slows down adaptation of parasites

If, on the other hand, the cyanobacteria were genetically diverse, these effects did not occur. The parasite failed to adapt, and the state of the disease remained unchanged. Genetic diversity in cyanobacteria evidently slows down the adaptation of the parasite, increasing their resistance to disease.

“Our findings are also significant for ecosystem research in general, because they help us to explain why a high degree of diversity in populations may be valuable for their preservation,” said Agha. He and his team want to investigate next what happens when not only the parasite, but also the host population is permitted to adapt to changed conditions. The researchers hope to gain further insights into how disease – generally perceived as a negative phenomenon – is a crucial natural process that promotes and preserves biological diversity.

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Katharina Bunk
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Leibniz-Institute of Freshwater Ecology and Inland Fisheries (IGB)
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