# Host-Adaptive Divergence Shapes the Genetic Architecture of Magnaporthe oryzae in Southern China’s Rice Agroecosystems

**Authors:** Xin Liu, Jun Fu, Zhao Deng, Xinwei Chen, Xiaochun Hu, Zhouyi Tu, Qiuyi Wang, Yuxuan Zhu, Pengcheng Chen, Zhenan Bai, Tiangang Liu, Xuanwen Zhang, Peng Qin, Kai Wang, Nan Jiang, Yuanzhu Yang

PMC · DOI: 10.3390/jof11070485 · 2025-06-26

## TL;DR

This study explores the genetic diversity of a rice blast fungus in Southern China, revealing distinct lineages adapted to different rice types and regions.

## Contribution

The study identifies three clonal lineages of Magnaporthe oryzae with host-adaptive divergence and spatial genetic heterogeneity in Southern China.

## Key findings

- Three distinct clonal lineages (I, II, III) were identified with lineage I being the most widespread.
- Lineage III is predominantly associated with japonica rice regions, while lineages I and II are linked to indica rice regions.
- Genetic diversity varies significantly across regions, with evidence of recent population expansion or selective sweeps.

## Abstract

Rice blast disease, caused by the ascomycete fungus Magnaporthe oryzae (syn. Pyricularia oryzae), poses a severe threat to global rice production. Southern China, a major rice-growing region characterized by diverse agroecological conditions, faces substantial challenges from blast disease, yet our understanding of the genetic structure of M. oryzae populations in this region remains limited. Here, we analyzed 885 M. oryzae strains from 18 nurseries across four rice ecological regions in Southern China using a panel of genome-wide SNP markers. Phylogenetic and principal component analyses revealed three distinct clonal lineages: lineage I (58.19%), lineage II (21.36%), and lineage III (20.45%). Lineage I exhibited a broader geographic distribution compared to the other two lineages. Host-adapted divergence was observed across rice subspecies, with lineage III predominantly associated with japonica growing-regions, while lineages I and II mainly colonized indica rice-growing regions. Genetic diversity exhibited significant spatial heterogeneity, with the nucleotide diversity (π) ranging from 0.17 in South China to 0.32 in the Middle–Lower Yangtze River region, reflecting differential cropping systems. The predominantly negative Tajima’s D values across populations suggested recent expansion or selective sweeps, likely driven by host resistance pressures. High genetic differentiation between lineage I and other lineages contrasted with low divergence between lineages II and III, indicating distinct evolutionary trajectories. Furthermore, an uneven distribution of mating types among three genetic lineages was observed, suggesting limited sexual recombination within clonal lineages. The information obtained in this study may be beneficial in devising suitable strategies to control rice blast disease in Southern China.

## Full-text entities

- **Diseases:** Rice blast disease (MESH:D001753)
- **Species:** Oryza sativa Japonica Group (Japanese rice, no rank) [taxon 39947], Pyricularia oryzae (rice blast fungus, species) [taxon 318829], Oryza sativa Indica Group (Indian rice, no rank) [taxon 39946], Oryza sativa (Asian cultivated rice, species) [taxon 4530]

## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12295444/full.md

---
Source: https://tomesphere.com/paper/PMC12295444