Self-insemination

Self-insemination (also known as "selfing") is a mating behavior engaged in by individuals of multiple flatworm species, such as the free-living Macrostomum hystrix.^[1] Species that engage in this method of reproduction are hermaphroditic, meaning they possess both male and female reproductive organs. Selfing is referred to as a conditional reproductive strategy in this species, which means that there is a preference to reproduce with a mate.^[2]

Sea slugs have also been found to reproduce through self-insemination.^[3]

A fully matured Macrostomum hystrix.

Posterior end of M. hystrix, depicting the male copulatory stylet, seminal vesicle, and fertilized eggs anteriorly.

Mechanics[]

Self-insemination has been demonstrated in isolated individuals of the flatworm species M. hystrix.^[1] This is achieved by using their male copulatory organ, a needle-like stylet, to pierce through the epidermis and into the parenchyma. Sperm is injected into the anterior region of their body due to physical limitations, which is inclusive of their own head. From the site of injection, sperm migrate posteriorly to the female reproductive organs (ovaries) where fertilization occurs. Flatworms that were studied in isolation contained significantly more sperm in their anterior region than those who were placed in triplet groups.

As a conditional reproductive strategy[]

M. hystrix has been shown to prefer outcrossing under normal conditions.^[2] Another study showed the onset of reproduction is significantly delayed in isolated individuals in comparison to those who were placed in triplet groups. There is also a reduction in the number of hatchlings produced through self-insemination and a decrease in the survival of these offspring, which suggests that this method of reproduction is costly to the parent. While survival of the species is more likely via their ability to produce offspring in the absence of potential mates, these offspring will further lack genetic variety.^[4] Therefore, members of this species avail of delayed self-insemination as a conditional reproductive strategy to endure through periods where mates are scarce.^[2]

In sea slugs[]

It may be beneficial for hermaphroditic species to seldom reproduce via self-insemination since they can avoid the laborious costs of reproduction to the female function as experienced through traumatic insemination ― such as in the case of the sea slug Alderia willowi.^[3]

References[]

^ ^a ^b Ramm, S.A., Schlatter, A., Poirier, M., & Schärer, L. (2015). Hypodermic self-insemination as a reproductive assurance strategy. Proc. R. Soc. B 282: 20150660. http://dx.doi.org/10.1098/rspb.2015.0660
^ ^a ^b ^c Ramm, S. A., Vizoso, D. B., & Schärer, L. (2012). Occurrence, costs and heritability of delayed selfing in a free-living flatworm. Evolutionary Biology, 25, 2559-2568. DOI: 10.1111/jeb.12012
^ ^a ^b Smolensky, N., Romero, M. R., & Krug, P.J. (2009). Evidence for Costs of Mating and Self-Fertilization in a Simultaneous Hermaphrodite With Hypodermic Insemination the Opisthobranch Alderia willowi. Biol. Bull. 216,188-199. DOI: 10.1086/BBLv216n2p188
^ Kearn, G., & Whittington, I. (2014). Sperm transfer in monogenean (platyhelminth) parasites. Acta Parasitologica, 60(4), 567-600. DOI: 10.1515/ap-2015-0082

[:0-1] Ramm, S.A., Schlatter, A., Poirier, M., & Schärer, L. (2015). Hypodermic self-insemination as a reproductive assurance strategy. Proc. R. Soc. B 282: 20150660. http://dx.doi.org/10.1098/rspb.2015.0660

[:1-2] Ramm, S. A., Vizoso, D. B., & Schärer, L. (2012). Occurrence, costs and heritability of delayed selfing in a free-living flatworm. Evolutionary Biology, 25, 2559-2568. DOI: 10.1111/jeb.12012

[:2-3] Smolensky, N., Romero, M. R., & Krug, P.J. (2009). Evidence for Costs of Mating and Self-Fertilization in a Simultaneous Hermaphrodite With Hypodermic Insemination the Opisthobranch Alderia willowi. Biol. Bull. 216,188-199. DOI: 10.1086/BBLv216n2p188

[4] Kearn, G., & Whittington, I. (2014). Sperm transfer in monogenean (platyhelminth) parasites. Acta Parasitologica, 60(4), 567-600. DOI: 10.1515/ap-2015-0082

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