# Feeding ecology of scolopendromorphs: integrating a global literature review with Japanese citizen-sourced data

**Authors:** Ryosuke Uno

PMC · DOI: 10.7717/peerj.20482 · PeerJ · 2026-01-05

## TL;DR

This study combines global research and citizen data to better understand the diet and ecological role of centipedes, revealing their diverse feeding habits.

## Contribution

The study introduces a novel dual approach combining literature review and citizen-sourced data to assess centipede feeding ecology.

## Key findings

- Scolopendromorphs consume small prey but can also prey on large reptiles similar in size to themselves.
- Citizen-sourced data revealed a broader range of trophic interactions, including plant material and venomous animals.
- The study highlights the risk of biased ecological inferences based on limited or unverified data.

## Abstract

Knowledge of food habits is essential for ecological research, yet those are often assessed based on general assumptions rather than evidence, especially in secretive animals that are difficult to observe in the wild, such as centipedes. This leads to underestimation and mischaracterisation of their ecological roles. To address this problem, the present study evaluates the trophic interactions of scolopendromorphs by a dual approach, which integrates a global literature review with analysis of Japanese citizen-sourced data to examine the diets of scolopendromorphs. A total of 76 publications were systematically reviewed, and 102 reported predation events were analysed to assess publication trends and predator–prey size ratios. Concurrently, 8,684 entries from social media and citizen science platforms were mined, yielding 1,130 predation records that were used to construct a detailed prey inventory for Japanese scolopendromorphs. The literature review revealed that scolopendromorphs consume small prey when targeting mammals and amphibians but are capable of preying on large reptiles comparable to themselves, at least regarding body length. Despite the increase in recent publications, it is highly probable that available reports are biased towards vertebrate prey. In contrast, although the citizen-sourced data lacked quantitative metrics such as body size, they encompassed a much broader array of trophic interactions, including the consumption of animals, both alive and dead, and plant material, many of which are not covered in the literature. The citizen-sourced data revealed ecologically notable interactions including cross predation, foraging on spider webs, and ingestion of venomous animals. Collectively, these findings highlight the remarkably broad foraging versatility of scolopendromorphs and ascertain a potential risk of drawing ecological inferences from unverified assumptions or a biased subset of evidence. By integrating a traditional literature review with analysis of citizen-sourced data, the present study not only provides a more comprehensive portrayal of the feeding ecology of scolopendromorphs but also illustrates a promising methodology for uncovering the structure of food webs for secretive animals, for which observations depend on chance encounters.

## Full-text entities

- **Chemicals:** sugar (MESH:D000073893), Skin poison (-)
- **Species:** Takydromus tachydromoides (Japanese grass lizard, species) [taxon 118850], Typopeltis stimpsonii (species) [taxon 1571430], Chilopoda (centipede, class) [taxon 7540], Diplopoda (millipede, class) [taxon 7553], Cryptoblepharus egeriae (species) [taxon 2509230], Gekko japonicus (species) [taxon 146911], Scincidae (skinks, family) [taxon 66056], Araneae (spiders, order) [taxon 6893], Serpentes (snakes, infraorder) [taxon 8570], Scutigera coleoptrata (house centipede, species) [taxon 29022], Hirundo rustica (Barn swallow, species) [taxon 43150], Cynops ensicauda (sword-tailed newt, species) [taxon 102207], Tenodera sp. (species) [taxon 2853729], Goniurosaurus kuroiwae (Tokashiki gecko, species) [taxon 96739], Spirostreptus heros (species) [taxon 2806054], Salamandridae (newts, family) [taxon 8314], earthworms (species) [taxon 71170], Crocodylia (alligators and others, order) [taxon 1294634], Plestiodon finitimus (species) [taxon 1054201], Lepidoptera (moths & butterflies, order) [taxon 7088], Scolopendra subspinipes (species) [taxon 55038], Metaphire sieboldi (earthworm, species) [taxon 506672], Orisarma dehaani (species) [taxon 559491], Lepidosauria (lepidosaurs, class) [taxon 8504], Thereuopoda clunifera (species) [taxon 60460], Emoia cyanura (blue-tailed skink, species) [taxon 38244], Gekko hokouensis (species) [taxon 146910], Sistrurus miliarius (pigmy rattlesnake, species) [taxon 8758], S. japonica [taxon 145423], Otostigmus scaber (species) [taxon 1091549], Salinicoccus sp. M (species) [taxon 1545528], Gloydius blomhoffii (mamushi, species) [taxon 242054], Heteropoda venatoria (giant crab spider, species) [taxon 152925], Chiroptera (bats, order) [taxon 9397], Scolopendra morsitans (species) [taxon 943129], P. japonicus [taxon 127818], Oniscidea (pillbugs, suborder) [taxon 41116], Zootoca vivipara (common lizard, species) [taxon 8524], Scolopendromorpha (order) [taxon 41361], Ethmostigmus rubripes (species) [taxon 62613], Homo sapiens (human, species) [taxon 9606]

## Full text

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## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12782032/full.md

## References

110 references — full list in the complete paper: https://tomesphere.com/paper/PMC12782032/full.md

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Source: https://tomesphere.com/paper/PMC12782032