# Courtship Is a Major Factor of Mating‐Shortened Male Lifespan in an Egg Parasitoid

**Authors:** Zi‐Yin Wang, Jing Li, Jia‐Min Tang, Lan‐Feng Qiu, Hao‐Yuan Hu, Peng‐Cheng Liu

PMC · DOI: 10.1002/ece3.71932 · Ecology and Evolution · 2025-08-06

## TL;DR

Mating shortens male lifespan in an egg parasitoid species, mainly due to courtship rather than ejaculation, with lipid metabolism playing a key role.

## Contribution

This study identifies courtship as the main factor reducing male longevity in Anastatus disparis, challenging previous assumptions about sperm-related costs.

## Key findings

- Mating reduces male longevity in Anastatus disparis, primarily due to courtship.
- Transcriptomic analysis shows lipid metabolism is upregulated during courtship, contributing to energy expenditure.
- Lipid consumption during courtship is linked to shortened male lifespan in this species.

## Abstract

Mating is essential for population reproduction and survival, but individuals often incur costs of mating, including energy consumption and increased risks of death, predation, or disease transmission. Many studies on insects have reported a decreased post‐mating lifespan, and studies on the effects of mating on longevity have focused mainly on females. However, the effect of mating on lifespan has also been observed in males, and this process is thought to be more complex and distinctive. Sperm production and sperm transfer during copulation are believed to be the main factors involved in the mating‐induced reduction in male longevity due to significant energy investment, and this theory has been widely demonstrated in many insect species. Here, we found that mating has a negative effect on the longevity of males in an egg parasitoid species, 
Anastatus disparis
. However, our results suggest that courtship rather than ejaculation is the main factor responsible for the reduced longevity of mated 
A. disparis
 males. Integrated transcriptomic analyses revealed the lots of upregulated genes and enriched Gene Ontology (GO) terms involved in lipid metabolism during male courtship. This finding suggested that lipid metabolism may be an important source of high energy expenditure during courtship. Besides, we discussed the role of increased lipid consumption for satisfying energy expenditure for courtship in the shortened lifespan of 
A. disparis
 males. In summary, our study provides comprehensive insights into post‐mating changes in male longevity and provides a basis for future mechanistic studies.

Mating is vital for population survival but often leads to reduced post‐mating longevity in both sexes. In many insects, sperm‐related factors are thought to cut male longevity, while in 
Anastatus disparis
, mating also affects male longevity, with courtship being the main cause. Transcriptomic analyses of 
A. disparis
 males showed lipid‐metabolism‐related changes that impact courtship energy costs and post‐courtship longevity. This study offers insights into post‐mating male longevity and a basis for future research.

## Linked entities

- **Species:** Anastatus disparis (taxon 2740161)

## Full-text entities

- **Diseases:** death (MESH:D003643)
- **Chemicals:** lipid (MESH:D008055)
- **Species:** Anastatus disparis (species) [taxon 2740161]

## Full text

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## Figures

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## References

96 references — full list in the complete paper: https://tomesphere.com/paper/PMC12326143/full.md

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Source: https://tomesphere.com/paper/PMC12326143