Abstract
Sperm removal behaviour (SRB) is known in many animals, and male genital structures are often involved in the SRB, e.g. rubbing female genitalia vigorously. However, it remains unclear how those male genital structures function properly without severe genital damage during SRB. In the present study, we focused on the bushcricket Metaplastes ornatus and examined the biomechanics of male and female genital structures, involved in their SRB as a model case. During an initial phase of mating, males of this species thrust their subgenital plate with hook-like spurs and many microscopic spines into the female genital chamber. By moving the subgenital plate back-and-forth, males stimulate females, and this stimulation induces the ejection of sperm previously stored in females. We aimed to uncover the mechanics of the interaction between the subgenital plate and genital chamber during SRB. The genital morphology and its material composition were investigated using modern imaging and microscopy techniques. The obtained results showed a pronounced material heterogeneity in the subgenital plate and the genital chamber. The material heterogeneity was completely absent in that of a second bushcricket species, Poecilimon veluchianus, which does not exhibit SRB. Finite element simulations showed that the specific material heterogeneity can redistribute the stress in the subgenital plate of M. ornatus and, thereby, reduces stress concentration during SRB. This may explain why only a few examined males had a broken spur. We suggest that the observed structural features and material heterogeneity in M. ornatus are adaptations to their SRB.
Highlights
Sperm removal behaviour triggered by male stimulation is an offensive male adaptation to achieve fertilisation success under sperm competition (Parker 1970; Simmons 2001)
To simulate a genital coupling of M. ornatus, we carefully checked the outline of the intact female genital chamber in the volume rendering of the micro-CT scanned female and aligned the subgenital plate on it with the same size-scale (Fig. 1)
This study addresses for the first time in M. ornatus the biomechanics of a male genital structure involved in Sperm removal behaviour (SRB) and how they are adapted to reduce mechanical damage of the fine spur
Summary
Sperm removal behaviour triggered by male stimulation (hereafter SRB) is an offensive male adaptation to achieve fertilisation success under sperm competition (Parker 1970; Simmons 2001). The removal of rival sperm from female sperm storage organs is always likely to be beneficial due to increased fertilisation success. In one bushcricket species, a female had carried wounds in the reproductive tract, possibly inflicted by a male genital organ during the SRB (von Helversen and von Helversen 1991). It is not yet disentangled whether females eject sperm to minimise costs inflicted by SRB or whether SRB induces the ejaculation, considering these potential functions and costs of female sperm storage, SRB likely causes sexual conflict (Arnqvist and Rowe 2005). The mechanics of the interaction between male and female genitalia during SRB have not been addressed
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