# Persistent inner tepals and wings protect developing seeds of Rheum nanum from insect herbivory in Central Asian cold deserts

**Authors:** Yuting Li, Jannathan Mamut, Kaiqing Xie, Jing Zhao, Dunyan Tan

PMC · DOI: 10.1002/ece3.70179 · Ecology and Evolution · 2024-08-15

## TL;DR

This study shows that fruit appendages in Rheum nanum protect developing seeds from insect damage in cold deserts.

## Contribution

The study reveals a novel protective role of persistent inner tepals and wings in R. nanum against insect herbivory.

## Key findings

- Diaspores with appendages experienced more insect herbivory than those with pericarp damage.
- Seeds from diaspores with gnawed appendages suffered less damage than those with gnawed pericarps.
- Fruit appendages mechanically protect developing seeds from predispersal insect herbivory.

## Abstract

Although the postdispersal functions of diaspore (fruit and its appendages) have been reported, little is known about their protective/defensive functions. In this context, diaspores with appendages (persistent inner tepals and/or fruit wings) that experienced predispersal herbivory by insects in natural populations of Rheum nanum were investigated, and the seed abortion percentage, seed and embryo masses, and germination of seeds from diaspores with different categories of insect herbivory were measured and compared. Predispersal insect herbivory of R. nanum diaspores was prevalent in the four investigated populations, but the percentage of diaspores with appendages (persistent inner tepals and and/or fruit wings) damaged by insects was significantly higher than that of diaspores with the pericarp damaged by insects. Seeds from diaspores with gnawed appendages experienced significantly less damage than those with gnawed pericarps. Importantly, we conclude that fruit appendages of R. nanum help to mechanically protect developing seeds from predispersal insect herbivory.

Although the postdispersal function of fruit appendages has been reported, little is known about their protective/defensive functions. In this context, diaspores with appendages (persistent inner tepals and/or fruit wings) that experienced predispersal herbivory by insects in natural populations of Rheum nanum were investigated. The seed abortion percentage, seed and embryo masses, and germination of seeds from diaspores with different categories of insect herbivory were measured and compared. Predispersal insect herbivory of R. nanum diaspores was prevalent in the four natural populations, but the percentage of diaspores with appendages (persistent inner tepals and and/or fruit wings) damaged by insects was significantly higher than that of diaspores with the pericarp damaged by insects. Seeds from diaspores with gnawed appendages experienced significantly less damage than those with gnawed pericarps. Importantly, we conclude that fruit appendages of R. nanum help to mechanically protect developing seeds from predispersal insect herbivory.

## Linked entities

- **Species:** Rheum nanum (taxon 137219)

## Full-text entities

- **Species:** Rheum nanum (species) [taxon 137219]

## Full text

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## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/PMC11325163/full.md

## References

53 references — full list in the complete paper: https://tomesphere.com/paper/PMC11325163/full.md

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Source: https://tomesphere.com/paper/PMC11325163