1/23/2024 0 Comments Hercules rhinoceros beetle lifting![]() ![]() We constructed finite element models of the horns of different rhinoceros beetle species to test whether functional specializations for increased performance under species-specific fighting styles could have contributed to the diversification of weapon form. Existing explanations suggest weapon shapes reflect structural adaptations to different fighting styles, yet explicit tests of this hypothesis are lacking. The shapes of sexually selected weapons differ widely among species, but the drivers of this diversity remain poorly understood. Structural adaptations to diverse fighting styles in sexually selected weapons, Erin L. The team suggests researchers perform further studies on the effect of horn shape on other measures of fighting performance, such as grip and stability.Īnimations of the Von Mises stress distributions from finite element models of a Trypoxylus dichotomus horn loaded under vertical bending, lateral bending, and twisting. Microcomputed tomography scans proved their predictions correct. They thought cross sections of Trypoxylus horns would be triangular, those of Golofa would be circular and those of Dynastes would be elliptical. The team predicted the cross-sectional shapes of the horns of each species, considering which shapes would maximize the ability to dislodge opponents, using that species' style of fighting. ![]() ![]() Rotating view of the 3D horn models used in the finite element analyses. Models showed that a species' horns experienced the least stress and strain under conditions that mimicked species-typical fights. The head and thoracic horns of Dynastes form pincers, which the beetle uses to lift and squeeze opponents, then toss them to the ground. Golofa has long, slender horns that it uses like fencing swords, lifting opponents and throwing them off balance when fighting on narrow shoots. Trypoxylus has pitchforked-shaped horns that it uses to pry and twist opponents off tree trunks and branches. They studied three species: Trypoxylus dichotomus, Golofa porteri, and Dynastes hercules.Īll of these species have differently shaped horns, which they use in different ways. To see if rhinoceros beetles also had horns suited to their particular fighting styles, the team used a type of computer modeling system, known as finite element analysis, to calculate the stresses and strains the horns would experience when used for different methods of fighting. Among ungulates, males with long horns tend to fence or wrestle, males with curved horns tend to ram and males with short, smooth horns tend to stab. Previous studies on the horns and antlers of ungulates supported this hypothesis. They did not find any evidence that females chose mates based on horn size or shape, so they hypothesized that horn shapes evolved to improve fighting ability. McCullough and her team wanted to find out why so many different horn types had evolved. Considered the strongest animals in the world, male rhinoceros beetles compete for females by attempting to remove their opponents from trees and shoots and throw them onto the ground. ![]()
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