# Seeing Through the Mimicry of Papilio bootes by Combining Computer‐Aided and Human Eyesight Morphological Comparisons

**Authors:** Yuan‐Rui‐Xue Xie, Zhi‐Xing Ding, Adam M. Cotton, Zhen‐Bang Xu, Yue Pan, Yi‐Ting Lin, Shao‐Ji Hu

PMC · DOI: 10.1002/ece3.72369 · Ecology and Evolution · 2025-10-30

## TL;DR

The study explores how different subspecies of the Tailed Redbreast butterfly mimic local Byasa species in China, revealing patterns of mimicry and evolutionary implications.

## Contribution

The study provides the first quantitative analysis of Batesian mimicry in Papilio bootes subspecies and their relationship with Byasa species.

## Key findings

- Western P. bootes subspecies mimic four-spotted Byasa species, while northeastern ones mimic spotless ones.
- B. polyeuctes acts as a morphological bridge between four-spotted and spotless Byasa species.
- The four-spotted trait in P. bootes is likely ancestral, with spotless traits evolving later.

## Abstract

The Tailed Redbreast Papilio bootes exhibits a tendency for specific mimicry of sympatric Byasa species across its distribution range, but this phenomenon has not yet been quantitatively analysed. To address this intriguing example of Batesian mimicry, the present study focused on three provinces (Yunnan, Sichuan, and Shaanxi) in West China, which have high taxonomic diversity of both P. bootes and Byasa. We combined computer‐aided and human eyesight morphological comparisons to reveal the visual similarity between five subspecies of P. bootes and 13 species of Byasa. Our findings demonstrate that the subspecies mindoni and parcesquamata of P. bootes in the western part of its range primarily mimic Byasa species with four hindwing white spots (
B. latreillei
, B. polla and B. genestieri), while the black subspecies nigricauda and dealbatus in the northeastern part of the range specifically mimic Byasa species without hindwing white spots (B. impediens, B. plutonius and black B. polyeuctes). Between these two extremes, the subspecies rubicundus and the spotted nigricauda mimic several different Byasa species, with the variable B. polyeuctes acting as the morphological bridge between them. Considering the phylogenetic history of Byasa and P. bootes, the authors propose that the four‐spotted trait in P. bootes could be ancestral, while the spotless trait may have resulted from subsequent selection. The widespread and morphologically variable B. polyeuctes may enhance its own fitness by potential Müllerian mimicry and also serve as a bridge to mingle P. bootes and various Byasa species through Batesian mimicry in the transition area between four‐spotted and spotless Byasa species.

The study investigates Batesian mimicry between Papilio bootes and Byasa species in West China, revealing that different subspecies of P. bootes mimic Byasa species with varying hindwing spot patterns. Subspecies in the western range mimic four‐spotted Byasa species, while northeastern subspecies mimic spotless ones, with B. polyeuctes acting as a transitional bridge. The findings suggest the four‐spotted trait in P. bootes may be ancestral, with spotless traits evolving later, and B. polyeuctes potentially enhancing fitness through both Batesian and Müllerian mimicry.

## Linked entities

- **Species:** Papilio bootes (taxon 1239066), Byasa latreillei (taxon 3047426), Byasa polla (taxon 3047429), Byasa genestieri (taxon 3047890), Byasa impediens (taxon 221691), Byasa plutonius (taxon 3047428), Byasa polyeuctes (taxon 129444)

## Full-text entities

- **Species:** Papilio bootes (species) [taxon 1239066], Rubicundus (genus) [taxon 1315019], Birandra latreillei (species) [taxon 2138417], Byasa polyeuctes (common windmill, species) [taxon 129444], Atrophaneura (genus) [taxon 85298], Byasa impediens (species) [taxon 221691], Homo sapiens (human, species) [taxon 9606]

## Full text

_Full body text omitted from this summary view._ Fetch the complete paper as Markdown: https://tomesphere.com/paper/PMC12572630/full.md

## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12572630/full.md

## References

48 references — full list in the complete paper: https://tomesphere.com/paper/PMC12572630/full.md

---
Source: https://tomesphere.com/paper/PMC12572630