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Experiments show natural selection opposes sexual selection


Natural selection can reverse evolution that occurs through sexual selection and this can lead to better females, new research shows.


Experiments show natural selection opposes sexual selection
An assassin bug approaching a male broad-horned flour beetle
[Credit: University of Exeter]

The study - led by the University of Exeter and Okayama University - examined broad-horned flour beetles, whose males have exaggerated mandibles, while females do not.


Male beetles with the largest mandibles win more fights and mate with more females - an example of "sexual selection", where certain characteristics (like a male peacock's tail) improve mating success.


However, having bigger mandibles requires a masculinised body (large head and neck), and a smaller abdomen - which, for females, limits the number of eggs they can carry. A masculinised body is not good for females.




Experimentally enhanced natural selection through predation, however, targets the same males favoured by sexual selection and this results in the evolution of less masculinised bodies and better-quality females.


In the study, broad-horned flour beetles were exposed to a predator called the assassin bug, which ate males with the largest mandibles.


By removing these males, predation effectively reduced the benefits of sexual selection and this means natural selection has an increased impact.


Experiments show natural selection opposes sexual selection
Broad-horned flour beetles [Credit: University of Exeter]

After eight generations of this, females produced about 20% more offspring across their lifespan, compared to a control group of beetles where large-horned males were not removed by predation.


"Males and females of every species share genes, but in some cases - including broad-horned flour beetles - the genes good for one sex aren't always ideal for the other," said Professor David Hosken, of the University of Exeter.




"We see this process, known as intralocus sexual conflict, across the natural world. For example, humans share the genes for hips - which males need for walking, and females need for both walking and childbirth. Optimal hips for women would be broad enough to allow childbirth, while optimal hip width for men is narrower. Humans reach a sort of evolutionary compromise, in which neither males nor females get the body shape that would be optimal for them."


Professor Hosken added: "Our findings show that sexual selection favouring large-horned males drags female body shape away from the female optima. This study helps us understand two evolutionary tug of wars, one between natural and sexual selection and the other that takes place over body shape and characteristics shared between the sexes."


The paper is published in the journal Nature Communications.


Source: University of Exeter [June 08, 2021]



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