Aphids — who hasn’t been bothered by these little insects at one time or another? Why do they reproduce on plants so successfully? These are among the questions that Professor Dr Caroline Müller and her research team are addressing at Bielefeld University’s Faculty of Biology. They have found out that aphids are able to influence the quality of their food, and that this may enable them to construct a niche on their own host plants. Müller’s research team is located in the Transregio Collaborative Research Centre ‘NC3’ that is studying animals and their ‘individual niches. They have published their findings in the journal New Phytologist.
There are hundreds of different aphid species. They all feed on plant sap, known as phloem sap. The nutritional value of the phloem sap is determined by the sugar concentration and the concentration and composition of amino acids. Previously it was not known how the quality of plant sap changes in different plant parts after aphid infestation, how this change in quality influences the development of aphids, and how, in turn, the aphids can change the composition of the plant sap.
Müller and her team are the first to confirm that aphid infestation actually does change the composition of the plant sap depending on which aphid species is infesting which specific part of the plant. For example, infestation of the stem close to the bud with a certain aphid species changes the composition of sugar and organic acids in the sap. In contrast, infestation of the old leaves with another aphid species increases the concentration of amino acids. And a further phenomenon can also be ascertained: ‘We were able to observe that the aphid species that developed best on the stem close to the bud and the other species that proliferated best on the old leaves each specifically increased the quality of the plant sap of the corresponding plant part,’ says Ruth Jakobs, a research assistant at the Faculty of Biology. Hence, aphids construct their own niche in such a way that they are able to profit from it. ‘We can assume that aphids behave in a similar way to, for example, beavers that settle in the dams they have constructed themselves,’ says Müller.
The biologists gained their findings by placing aphids on different parts of common tansy plants — the stem close to the bud, a young leaf, and an old leaf — and determining the growth of the populations of these insects at these locations. In addition, the biologists collected the plant sap and analysed its chemical composition.
The Transregio CRC NC³
Why do animals behave in completely individual ways when choosing their own, distinctive place in the ecosystem, their ecological niche? How do they adapt to this niche? When do they shape it by themselves? And how can we understand these processes? These are the central questions being addressed in the Transregio Collaborative Research Centre (CRC/TRR) 212 with the abbreviated name ‘NC3’. In this CRC, the universities at Bielefeld, Münster, and Jena are linking together behavioural biology and evolution research with theoretical biology and philosophy. The German Research Foundation (DFG) started funding NC³ in January 2018 for an initial four-year period during which it will receive roughly 8.5 million euros. The speaker is the behavioural researcher Professor Dr Oliver Krüger from Bielefeld University.
* The Transregio Collaborative Research Centre ‘NC3’: https://wresare-bielefeld.de/biologie/crc212/
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