# Geographic distribution of nematodes in the Atacama is associated with elevation, climate gradients and parthenogenesis

**Authors:** Laura Villegas, Laura C. Pettrich, Esteban Acevedo-Trejos, Arunee Suwanngam, Nadim Wassey, Miguel L. Allende, Alexandra Stoll, Oleksandr Holovachov, Ann-Marie Waldvogel, Philipp H. Schiffer

PMC · DOI: 10.1038/s41467-025-67117-5 · Nature Communications · 2026-01-09

## TL;DR

This study explores how soil nematode biodiversity varies across the Atacama Desert, showing patterns linked to elevation, climate, and reproductive strategies.

## Contribution

The study reveals new biodiversity patterns of soil nematodes in extreme environments, including the role of parthenogenesis at high altitudes.

## Key findings

- Asexual nematode taxa are more common at higher altitudes, aligning with geographical parthenogenesis patterns.
- Genus richness increases with latitude and precipitation, showing a clear environmental gradient.
- Soil communities in the Atacama are stable but show simplified food webs, indicating vulnerability to environmental change.

## Abstract

Soil ecosystems are crucial for supporting life, yet little is known about their biodiversity and its distribution in extreme environments. The Atacama Desert, the driest non-polar desert on Earth, has scarce water, high salinity, and metal-rich water bodies, creating challenging conditions for most organisms. Above-ground life has been partially documented, but its soils remain poorly studied. Here we show that soil nematodes, an abundant and diverse group of invertebrates, display distinct biodiversity patterns across the Atacama at multiple biological scales, including genetic, taxonomic, community, and life-cycle levels. Surveys across dune systems, high-altitude mountains, saline lakes, river valleys, and fog oases reveal unique assemblages in each habitat. We find that asexual taxa are more common at higher altitudes, consistent with patterns of geographical parthenogenesis. Genus richness follows a latitudinal gradient and increases with precipitation. These results demonstrate that even in one of the most extreme terrestrial environments, stable soil communities can persist. However, evidence of simplified soil food webs suggests vulnerability to further environmental change. Our findings provide new insights into the mechanisms shaping biodiversity in arid ecosystems and can inform predictions about soil resilience under global climate-driven aridification.

This study reveals diverse soil nematode community patterns across Atacama habitats, including dunes, high elevation mountains and fog oases. Latitude, rainfall and elevation were found to be associated with diversity and reproductive modes.

## Linked entities

- **Species:** Nematodes (taxon 333870)

## Full-text entities

- **Chemicals:** metal (MESH:D008670)

## Full text

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## Figures

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## References

57 references — full list in the complete paper: https://tomesphere.com/paper/PMC12796448/full.md

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Source: https://tomesphere.com/paper/PMC12796448