# Beyond Ubiquity: Scale-dependent patterns of tardigrade diversity on the Iztaccíhuatl volcano

**Authors:** Alba Dueñas-Cedillo, Francisco Armendáriz-Toledano, Rodolfo J. Cancino-López, Jazmín García-Román, Enrico Alejandro Ruiz

PMC · DOI: 10.1371/journal.pone.0343098 · PLOS One · 2026-03-04

## TL;DR

This study explores how tardigrade diversity varies with different moss substrates, landscapes, and elevation zones on a volcano.

## Contribution

The study identifies scale-dependent patterns of tardigrade diversity and community composition in a montane ecosystem.

## Key findings

- Mosses on tree bark host the highest tardigrade species richness and include substrate-specific taxa.
- Alpine zones have the highest tardigrade richness and abundance, while nival zones host fewer species.
- Species turnover, rather than nestedness, drives community dissimilarities across substrates and habitats.

## Abstract

The diversity of tardigrade communities has been related with variables, such as habitat type, litter type, elevation, among others. However, the integration of variables in a multiscale context has been little explored, so this study analyzed tardigrade diversity and community composition across multiple ecological scales—moss substrates (rock, soil, bark), landscapes, and elevation zones—in a montane ecosystem. Mosses on tree bark harbor the highest species richness, including several substrate-specific taxa, while mosses on soil hosts unique species not found elsewhere. Mosses on rocks share species with soil mosses but lacks exclusive taxa. Among landscapes, the coniferous forests (mixed, Abies religiosa, and Pinus hartwegii) exhibit high species richness and community similarity, with distinct local assemblages characterized by exclusive species within each forest type. Three generalist species were ubiquitous across all landscapes. Elevation analysis reveals maximal tardigrade richness and abundance in the alpine zone, with the nival zone supporting fewer species, mostly a subset of alpine taxa, and hosting a few unique species likely adapted to harsher conditions. Beta diversity analyses indicated that species turnover rather than nestedness predominantly drives community dissimilarities across substrates and habitats. These findings highlight the importance of considering scale-dependent patterns in understanding tardigrade distribution in complex montane environments.

## Linked entities

- **Species:** Abies religiosa (taxon 425948), Pinus hartwegii (taxon 71634)

## Full-text entities

- **Chemicals:** claxtonae (-), PVA (MESH:D011142), Dip (MESH:C067227), water (MESH:D014867)
- **Species:** Lupinus montanus (species) [taxon 384412], Alnus jorullensis (species) [taxon 109064], Pinus hartwegii (species) [taxon 71634], Quercus (genus) [taxon 3511], Rotifera (rotifers, phylum) [taxon 10190], Bryophyta (mosses, clade) [taxon 3208], Pinus subgen. Pinus (diploxylon pines, subgenus) [taxon 139271], Diphascon (genus) [taxon 467035], Hesperocyparis (genus) [taxon 634378], Macrobiotidae (family) [taxon 42243], Hypsibius dujardini (species) [taxon 232323], Paramacrobiotus sp. (species) [taxon 2719578], Milnesium tardigradum (species) [taxon 46460], Senecio angustifolius (species) [taxon 1129148], Hepialidae sp. YS (species) [taxon 1404316], Peyritschia tolucensis (species) [taxon 640616], Festuca tolucensis (species) [taxon 464083], Bdellovibrio sp. ETA (species) [taxon 242951], Adropion scoticum (species) [taxon 947155], Macrobiotus hufelandi (species) [taxon 48693], Pseudechiniscus (genus) [taxon 510448], Abies religiosa (sacred fir, species) [taxon 425948], Hypsibius sp. (species) [taxon 2961725]

## Full text

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## Figures

8 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12959721/full.md

## References

80 references — full list in the complete paper: https://tomesphere.com/paper/PMC12959721/full.md

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Source: https://tomesphere.com/paper/PMC12959721