# The invasion of Euphorbia jolkinii is mediated through the regulation of nitrogen transformation by functional microbial abundance in rhizosphere soils

**Authors:** Xue Xiao, Qiongmei Niu, Kai Zhou, Laixiang Ma, Zhili Zhao, Jiangui Zhang, Xiaohui Chu, Guilian Shan

PMC · DOI: 10.3389/fmicb.2026.1757844 · 2026-02-24

## TL;DR

The invasive plant Euphorbia jolkinii boosts nitrogen in its soil by altering microbes and genes, giving it a competitive edge.

## Contribution

The study reveals how E. jolkinii invasion alters nitrogen cycling via microbial and genetic changes in rhizosphere soils.

## Key findings

- E. jolkinii invasion increases available nitrogen in its rhizosphere while reducing it in companion plants.
- Metagenomic analysis shows E. jolkinii enriches nitrogen cycling genes in its rhizosphere soil.
- Key microbes like Nitrospirota and Edaphobacter are linked to nitrogen accumulation in E. jolkinii soils.

## Abstract

Euphorbia jolkinii Boiss. is a native invasive weed. Its invasion altered microbial composition, total nitrogen (TN) and available nitrogen (AN). However, the mechanisms influencing N transformation remain unclear. Particularly, the roles of the microbiome and genes in mediating N transformations to facilitate E. jolkinii invasion remain poorly understood. Therefore, the primary objectives of this study were to evaluate how E. jolkinii invasion affects N transformation, microbial interactions, and key genes associated with AN accumulation.

We compared three patches (non-invaded, lightly, and heavily invaded patches of E. jolkinii) by analyzing rhizosphere soils of E. jolkinii and Poa crymophila Keng. Integrating soil physicochemical indices with metagenomic sequencing, we investigated the relationships among microbial communities, gene abundance, and N transformation.

With E. jolkinii increasing invasion intensity, N accumulation and transformation rates were significantly reduced in the rhizosphere of P. crymophila but enhanced in that of E. jolkinii, particularly for AN. Metagenomic analysis revealed that the invasion and expansion of E. jolkinii promoted functional adaptation of the microbial community, particularly by enriching the N cycling-related genes and increasing their relative abundance in the rhizosphere soil of E. jolkinii. Moreover, it inhibited the accumulation of N transformation functional genes in the rhizosphere soil of the companion plant, P. crymophila. Structural equation modeling identified Nitrospirota, Edaphobacter, Anaeromyxobacter, and soil N transformation rates as key drivers of AN accumulation.

E. jolkinii facilitated N accumulation in its rhizosphere by modulating N-transforming microbes and key functional genes, underscoring one of its invasive advantages.

## Linked entities

- **Species:** Euphorbia jolkinii (taxon 457253), Poa crymophila (taxon 2683633)

## Full-text entities

- **Chemicals:** AN (-), N (MESH:D009584)
- **Species:** Poa crymophila (species) [taxon 2683633], Euphorbia jolkinii (species) [taxon 457253]

## Figures

8 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12974137/full.md

---
Source: https://tomesphere.com/paper/PMC12974137