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Curiosity promotes biodiversity

Buntbarsch Cyphotilapia gibberosa
Cyphotilapia gibberosa is one of the particularly curious cichlids in Lake Tanganyika. (Photo: University of Basel, Adrian Indermaur)

Cichlid fishes exhibit differing degrees of curiosity. The cause for this lies in their genes, as reported by researchers from the University of Basel in the journal Science. This trait influences the cichlids’ ability to adapt to new habitats.

25 April 2024

Buntbarsch Cyphotilapia gibberosa
Cyphotilapia gibberosa is one of the particularly curious cichlids in Lake Tanganyika. (Photo: University of Basel, Adrian Indermaur)

Exploratory behavior is one of the fundamental personality traits of animals – and these traits influence their probability of survival, among other things. For example, curious individuals can inhabit different areas in their habitats compared to more cautious conspecifics. At the same time, however, they expose themselves to a greater risk of being discovered and eaten.

Exploratory behavior as a factor in evolution

The cichlids of Africa’s Lake Tanganyika exhibit extraordinary diversity in terms of shape, diet, habitat and coloration. This allows them to inhabit various ecological niches and therefore to engage in less competition with one another. Researchers have long suspected that also curiosity acts as a driver in the formation of new species and therefore biodiversity. Now, a research team led by Professor Walter Salzburger from the University of Basel has used the example of the extremely diverse cichlid fishes of Lake Tanganyika to investigate the role of behavioral differences in adaptation to different ecological niches.

For a total of nine months, first author Dr. Carolin Sommer-Trembo recorded the “exploratory behavior” of 57 different cichlid species at the Southern shore of Lake Tanganyika in Zambia. To this end, the zoologist made video recordings of how the approximately 700 cichlids caught in the lake behaved in a new environment in form of large experimental ponds. She then released the animals back into the wild.

Back in Basel, Sommer-Trembo used these videos to determine which areas of the experimental pond each fish explored within a 15-minute period. “On the whole, large differences in exploratory behavior were observed between the cichlid species, and these differences were also confirmed under laboratory conditions,” says the evolutionary biologist. Detailed analyses of the data revealed a strong correlation between exploratory behavior and the habitat – and body shape – of the respective cichlid species. For example, species that live near the shores, with a bulkybody shape, are more curious than elongated species living in open water. “This puts the focus back on animal behavior as driving force behind key evolutionary processes,” says Sommer-Trembo.

Specific mutations make the fish more curious

In order to investigate the genetic basis of the observed behavioral differences in cichlids, the research team worked together with Dr. Milan Malinsky from the University of Bern to develop a new method for analyzing the existing genomes that allowed them to compare data across different species.

Using their new method, the researchers identified a genetic variant in the genome of cichlids that showed a near perfect correlation with exploratory behavior: species with a “T” at this specific position in the DNA are curious, whereas species with a “C” are less exploratory.


Original publication

Carolin Sommer-Trembo et al.
The genetics of niche-specific behavioral tendencies in an adaptive radiation of cichlid fishes
Science (2024) doi: 10.1126/science.adj9228

Further information

Dr. Carolin Sommer-Trembo,University of Basel, Department of Environmental Sciences, Zoology section, email: carolin.sommer-trembo@unibas.ch, phone +41 61 207 03 05

Dr. Milan Malinsky, University of Bern, Institute of Ecology and Evolution, email: milan.malinsky@iee.unibe.ch

Prof. Dr. Walter Salzburger, University of Basel, Department of Environmental Sciences, Zoology section, email: walter.salzburger@unibas.ch, phone +41 61 207 03 03

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