# Nitrogen addition has negative effects on bacterial diversity and stability, but simulated grazing mitigates these effects

**Authors:** Zeyu Liu, Yiqiang Dong, Anjing Jiang, Zongjiu Sun, Yue Wu, Yaxin Lei, Xingyun Shan, Kai Wu

PMC · DOI: 10.3389/fmicb.2026.1747173 · Frontiers in Microbiology · 2026-02-17

## TL;DR

Adding nitrogen harms soil bacteria diversity and stability, but simulated grazing helps reduce these negative effects in grasslands.

## Contribution

This study reveals how simulated grazing mitigates the destabilizing effects of nitrogen addition on soil microbial communities.

## Key findings

- Excessive nitrogen reduces bacterial diversity and network stability in soil.
- Simulated grazing stabilizes bacterial interactions by enhancing organic nitrogen catabolism.
- Grazing helps maintain microbial functional stability under nitrogen enrichment.

## Abstract

Nitrogen addition and grazing, as common management tools in grasslands, alter the structure and function of soil microbial communities and have far-reaching effects on grassland ecosystems. However, the mechanisms by which nitrogen addition and grazing regulate the diversity and stability of soil microbial communities remain insufficiently understood.

In this study, a field experiment was conducted in the temperate desert grassland of Xinjiang, combining nitrogen addition treatments with simulated grazing to investigate the response mechanisms of soil microbial communities to nitrogen addition and simulated grazing. The regulation of soil microbial community diversity and stability under the combined effects of nitrogen addition and grazing was examined by using mowing to simulate aboveground vegetation disturbance.

The results showed that inorganic nitrogen (nitrate and ammonium nitrogen) was a key factor driving nitrogen-induced changes in microbial community structure, increasing the availability of soil nitrogen. Moderate nitrogen addition promoted bacterial community diversity, whereas excessive nitrogen input weakened this effect and reduced bacterial community complexity and co-occurrence network stability. Simulated grazing enhanced organic nitrogen catabolism through increased leucine aminopeptidase activity, thereby stabilizing bacterial community interactions under nitrogen-enriched conditions and alleviating the negative effects of nitrogen addition.

These results indicate that grazing can buffer nitrogen-induced destabilization of soil microbial communities and highlight its role in maintaining microbial functional stability in grassland ecosystems under increasing nitrogen deposition.

## Linked entities

- **Chemicals:** nitrate (PubChem CID 943)

## Full-text entities

- **Genes:** ALP [NCBI Gene 641306]
- **Chemicals:** Ammonium nitrogen (-), NaHCO3 (MESH:D017693), urea (MESH:D014508), AP (MESH:D000667), H2SO4 (MESH:C033158), molybdenum (MESH:D008982), HClO4 (MESH:C576518), Nitrate (MESH:D009566), phosphorus (MESH:D010758), carbon (MESH:D002244), ammonium (MESH:D064751), N (MESH:D009584), antimony (MESH:D000965), water (MESH:D014867), potassium dichromate (MESH:D011192)
- **Species:** Festuca ovina (species) [taxon 98750], kochia [taxon 267503], Homo sapiens (human, species) [taxon 9606], Carex liparocarpos (species) [taxon 241215], Artemisia transiliensis (species) [taxon 2844931], Bacteria Latreille et al. 1825 (Bacteria stick insect, genus) [taxon 629395], Stipa sareptana (species) [taxon 408132], Astragalus arbuscula (species) [taxon 2749462], Ziziphora clinopodioides (species) [taxon 751879], Bassia prostrata (species) [taxon 151232], Fungi (kingdom) [taxon 4751], Poa pratensis (Kentucky bluegrass, species) [taxon 4545]

## Full text

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## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12953565/full.md

## References

52 references — full list in the complete paper: https://tomesphere.com/paper/PMC12953565/full.md

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Source: https://tomesphere.com/paper/PMC12953565