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Elaborate Horns in a Giant Rhinoceros Beetle Incur Negligible Aerodynamic Costs

Overview
Journal Proc Biol Sci
Specialty Biology
Date 2013 Mar 15
PMID 23486444
Citations 13
Authors
Erin L McCullough
Bret W Tobalske
Affiliations
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Abstract

Sexually selected ornaments and weapons are among nature's most extravagant morphologies. Both ornaments and weapons improve a male's reproductive success; yet, unlike ornaments that need only attract females, weapons must be robust and functional structures because they are frequently tested during male-male combat. Consequently, weapons are expected to be particularly costly to bear. Here, we tested the aerodynamic costs of horns in the giant rhinoceros beetle, Trypoxylus dichotomus. We predicted that the long, forked head horn would have three main effects on flight performance: increased body mass, an anterior shift in the centre of mass and increased body drag. We found that the horns were surprisingly lightweight, and therefore had a trivial effect on the male beetles' total mass and mass distribution. Furthermore, because beetles typically fly at slow speeds and high body angles, horns had little effect on total body drag. Together, the weight and the drag of horns increased the overall force required to fly by less than 3 per cent, even in the largest males. Because low-cost structures are expected to be highly evolutionarily labile, the fact that horns incur very minor flight costs may have permitted both the elaboration and diversification of rhinoceros beetle horns.

Citing Articles

Adaptative Variation in a Neotropical Dung Beetle: Females and Gamma Males Present Tunneler Morphology, While Beta and Alpha Males Present Wing Morphology for Velocity.

de Oliveira Ribeiro P, Camargo N, Frizzas M Ecol Evol. 2024; 14(11):e70457.

PMID: 39588346 PMC: 11586238. DOI: 10.1002/ece3.70457.

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Sun J, Wang W, Li P, Zhang Z Biomimetics (Basel). 2024; 9(6).

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Exaggerated mandibles are correlated with enhanced foraging efficacy in male Auckland tree wētā.

Farnworth B, Purdie S, Wehi P, Painting C Biol Lett. 2023; 19(11):20230207.

PMID: 37964578 PMC: 10646448. DOI: 10.1098/rsbl.2023.0207.

Juvenile leg autotomy predicts adult male morph in a New Zealand harvestman with weapon polymorphism.

Powell E, Painting C, Machado G, Holwell G Behav Ecol. 2023; 34(4):613-620.

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Variation in an Extreme Weapon: Horn Performance Differences across Rhinoceros Beetle () Populations.

Buchalski B, Gutierrez E, Emlen D, Lavine L, Swanson B Insects. 2019; 10(10).

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