Transfer, subsequent movement, and fate of sperm in the tobacco hornworm moth, Manduca sexta

During mating in the Lepidoptera (moths and butterflies), sperm are passed to the female via a copulation in which the male transfers a large and often complex spermatophore over the major part of an hour or more. Subsequently, over the course of an hour or often considerably more, the sperm exit th...

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Bibliographic Details
Published in:Physiological entomology 2021-12, Vol.46 (3-4), p.218-229
Main Authors: Hague, Nancy L., Dickinson, Janis L., Shepherd, Julian G.
Format: Article
Language:English
Subjects:
Apyrene
Butterflies & moths
Copulation
Females
Insect migration
Lepidoptera
Males
Manduca
Manduca sexta
Mechanics
Ova
parasperm
Reproductive behaviour
Sperm
sperm competition
Spermatheca
spermatophore
Spermatophores
Spermatozoa
Tobacco
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Summary:During mating in the Lepidoptera (moths and butterflies), sperm are passed to the female via a copulation in which the male transfers a large and often complex spermatophore over the major part of an hour or more. Subsequently, over the course of an hour or often considerably more, the sperm exit the spermatophore and travel over a relatively complex route to the spermatheca, where the sperm are stored and then used as the eggs are laid. The process of spermatophore formation and migration of sperm in the female has been described in many Lepidoptera, but the mechanics involved have received less attention. Understanding these is important in discerning the relative roles of males and females in determining the outcome of matings. We describe how the spermatophore is formed, how the sperm migrate in the female, and the fate of the sperm in the spermatheca of the tobacco hornworm moth, Manduca sexta. We found that sperm movement from the spermatophore relied upon motility of the sperm, but further movement of the sperm to the spermatheca was dependent on female muscular action. After arriving in the spermatheca, the anucleate parasperm (apyrene sperm) separated into the lateral pouch of the spermatheca (lagena) and disappeared over 7 days, whereas the eusperm (eupyrene sperm) persisted in the central lumen of the spermatheca (utriculus). The relative persistence of these two sperm types could shed some light on what determines the proclivity of females to remate. Elucidation of these physiological mechanisms contributes to an understanding of the mechanisms of female choice and male competition in Lepidoptera. Spermatophore formation, progress of sperm migration, and fate of sperm in the female tobacco hornworm moth are described in detail. Experimental analysis indicates that both sperm motility and female muscular action are essential for translocation of sperm from the site of deposition by the male to the female's storage organ. Understanding of the mechanics of these processes contributes to our understanding of the mechanisms of female choice and male competition in moths and butterflies.
ISSN:0307-6962
1365-3032
DOI:10.1111/phen.12361