Spermalege
The spermalege (also known as the organ of Berlese[1]) is a special-purpose organ found in bedbugs that appears to have evolved to mitigate the effects of traumatic insemination.[2] The spermalege is comprised of two embryologically distinct parts, known as the ectospermalege and mesospermalege.[3] The evolution of the spermalege as a female counter-adaptation for traumatic insemination was first proposed by Jacques Carayon in 1966.[2][4]
Structure
The spermalege is comprised of two embryologically distinct parts, known as the ectospermalege and mesospermalege.[3]
The ectospermalege is derived from the ectoderm.[3] It consists of a groove in the right-handed posterior margin of the fifth sclerite, overlying a pleural membrane.[3] In order to access the female's haemocoel during traumatic insemination, male bedbugs insert their needle-like penis[5] into the groove, and pierce the pleural membrane.[3] This piercing produces wounds that leave melanised scars.[3]
The mesospermalege is derived from the mesoderm.[3] It is a membrane-bound sac attached to the wall of the haemocoel, directly beneath the groove of the ectospermalege.[3] In all bedbug species except Primicimex cavernis, sperm are injected into the mesospermalege.[6] The structure contains two main types of hemocyte, though their function is not yet fully understood.[3] The first of these is phagocytic and may absorb seminal fluid,[3] whereas the other may digest spermatozoa.[3]
Function
The ectospermalege is visible externally in most bedbug species, giving the male a target through which to impale the female. In species without an externally visible ectospermalege, traumatic insemination takes place over a wide range of the body surface.[7]
Exactly why males 'comply' with this aspect of female control over the site of mating is unclear, especially as male P. cavernis appear to be able to penetrate the abdomen at a number of points independent of the presence of an ectospermalege. One possibility is that mating outside the ectospermalege reduces female fecundity to such an extent that the mating male's paternity is significantly reduced ... The ectospermalege appears to act as a mating guide, directing the male's copulatory interest, and therefore damage, to a restricted area of the female's abdomen.[7]
The spermalege structure serves to reduce the wounding and immunological costs of traumatic insemination.[3][6] The piercing wound typically occurs in the exocuticle of the mesospermalege,[6] and is repaired by "scarring substance" developed in the epidermis.[6] At least nine species of bacteria and fungi have been identified from the male intromittent organ,[6] and the mesospermalege reduces the likelihood of infection from such pathogenic organisms.[6]
References
- ^ Siva-Jothy, M. T. (2006) “Trauma, disease and collateral damage: conflict in cimicids,” Philosophical Transactions of the Royal Society B, 361, 269–275.
- ^ a b Edward H. Morrow & Goran Arnqvist (2003). "Costly traumatic insemination and a female counter-adaptation in bed bugs" (PDF). Proceedings of the Royal Society B. 270 (1531): 2377–2381. doi:10.1098/rspb.2003.2514. PMC 1691516. PMID 14667354.
- ^ a b c d e f g h i j k l Reinhardt, K., Naylor, R. & Siva-Jothy, M. T. (2003) “Reducing a cost of traumatic insemination: female bedbugs evolve a unique organ,” Proceedings of the Royal Society B, 270, 2371–2375.
- ^ Carayon, J. (1966) Traumatic insemination and the paragenital system. In Monograph of Cimicidae (Hemiptera—Heteroptera) (ed. R. L. Usinger), pp. 81–166. College Park, MD: Entomological Society of America.
- ^ Ryne, C. (2009) “Homosexual interactions in bed bugs: alarm pheromones as male recognition signals,” Animal Behaviour, 78, 1471-1475.
- ^ a b c d e f Reinhardt, K. & Siva-Jothy, M. T. (2007) “Biology of the bed bugs (Cimicidae),” Annual Review of Entomology, 52, 351–374.
- ^ a b Siva-Jothy MT (2006-02-28). "Trauma, disease and collateral damage: conflict in cimicids". Philosophical Transactions of the Royal Society B. 361 (1466): 269–75. doi:10.1098/rstb.2005.1789. PMC 1569606. PMID 16612886. Retrieved 2009-04-09.
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