# Straw-returning of Triticale to field improved the yield of foxtail millet efficiently by modulating soil physicochemical traits and fungal microbiome assembly

**Authors:** Guohong Yu, Ya Han, Jingqiang Liu, Yingying Zhang, Hongbo Hao, Mingzhe Li

PMC · DOI: 10.3389/fmicb.2026.1791055 · 2026-03-11

## TL;DR

Returning triticale straw to the field improved foxtail millet yield by enhancing soil health and fungal communities in the North China Plain.

## Contribution

The study identifies triticale-millet rotation as a novel and effective green manure practice for improving millet yield and soil properties.

## Key findings

- Triticale-millet rotation increased millet yield by 46.16% in 2021 and 85.7% in 2022 compared to winter fallow.
- Soil organic matter and nutrient levels like available phosphorus significantly increased under triticale-millet rotation.
- Triticale-millet rotation enhanced soil fungal diversity and abundance of beneficial fungal genera.

## Abstract

Green manure-crop rotation systems are effective management practices for maintaining soil health and enhancing crop yield. However, the influence of various green manure-millet rotation systems on soil properties, fungal community structure, and millet yield in the North China Plain remains undetermined. In this study, three types of green manures with foxtail millet rotation experiment were conducted. The physico-lchemica indexes, millet yield and soil fungal community characteristic were detected. Our findings suggest that three green manure-millet rotation systems increased millet yield compared to millet-winter fallow (Si-Le). Among them, the Triticale-millet rotation (Si-Ts) showed the highest yield increase, with a rise of 46.16% in 2021 and 85.7% in 2022. In 2021, compared with Si-Le, the organic matter (OM) in Si-Ts increased by 17.86%, and the available phosphorus (AP) rose by 113.82%. In 2022, in contrast to Si-Le, the alkali-hydrolyzed nitrogen (AHN) in Si-Ts increased by 17.68%, the available phosphorus (AP) by 37.56%, and the available potassium (AK) by 12.56%. Additionally, Si-Ts exhibited the highest diversity of soil fungi and the greatest relative abundance of beneficial genera from the dominant phylum Ascomycota and Mortierellomycota. Moreover, Green manure rotations (particularly Si–Ts) alleviate these constraints by simultaneously augmenting microbial diversity (driven by OM/AK/AHN) and crop yield (driven by AP/OM). Overall, the Triticale-millet rotation is a feasible practice for improving soil conditions, maintaining soil microbial balance, and ensuring high yields of millet. Our findings offer theoretical support for green manure-crop rotation in influencing the soil environment and the sustainable development of the millet industry in the North China Plain.

## Full-text entities

- **Chemicals:** potassium (MESH:D011188), AHN (-), nitrogen (MESH:D009584), phosphorus (MESH:D010758)
- **Species:** Setaria italica (foxtail millet, species) [taxon 4555]

## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/PMC13013490/full.md

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Source: https://tomesphere.com/paper/PMC13013490