# Effects of Microbial Inoculants from Three Nutrient-Poor Environments on Soil Improvement and Plant Growth Promotion in Sandy Soil

**Authors:** Xin Sun, Xuanran Yu, Xingyu Zhang, Xinxin Yang, Rengui Xue, Aodeng Rong, Xin Liu, Xiongfei Zhang, Chong Li, Jinchi Zhang

PMC · DOI: 10.3390/microorganisms14030722 · Microorganisms · 2026-03-23

## TL;DR

This study shows that microbial inoculants from harsh environments can improve sandy soil and boost plant growth by altering soil microbial communities.

## Contribution

The study systematically compares microbial inoculants from different stressed environments and their effects on sandy soil and plant growth.

## Key findings

- Microbial inoculants increased plant biomass by 4.15~25.59% and enhanced root growth significantly.
- Inoculation altered microbial community diversity, reducing bacterial Chao1 but increasing fungal Chao1.
- Soil nutrient and water content showed a reverse trend with plant growth, likely due to increased consumption.

## Abstract

Approximately 20% of China’s land area is desertified or highly desertifiable, where loose sandy soil and low nutrient availability restrict plant growth. Microbial inoculants, as an emerging ecological restoration technology, play a key role in plant growth and soil nutrient activation in sandy regions. However, a systematic understanding of functional differences among microorganisms isolated from different stressed environments remains insufficient. Nine functional microbial strains from three stressed habitats, including sandy land, coastal saline-alkali soil, and heavy metal mining areas, were selected to conduct a three-month pot experiment, investigating their effects on soil nutrient activation, plant growth and microbial communities. Results showed that all inoculants increase plant biomass (by 4.15~25.59%), with KS-33, KS-36, SD-13 and SD-3 significantly promoting biomass in different plant parts (p < 0.05), and with YJ-15 remarkably enhancing root growth (root length increased by 70.83%, p < 0.01). Inoculation reduced bacterial Chao1 by 27.18~53.97%, but increased fungal Chao1 by 12.77~28.38% (except SD-30). Bacterial generalist species proportion increased from 61.12% to 83.78~93.99% after inoculation, higher than the variation degree of the fungal community. Mantel analysis revealed a reverse trend between soil nutrients, water content and plant growth. This may be associated with the increased consumption by plants and microorganisms. In summary, microbial inoculants enhance nutrient cycling processes and plant growth by reshaping soil microbial communities. Performance of microbial inoculants is more likely governed by their inherent ecological functions rather than being entirely determined by their original environments. Despite varying mechanisms, these inoculants can effectively enhance sandy soil microbial communities, providing a theoretical basis for regional ecological restoration.

## Full-text entities

- **Chemicals:** YJ-15 (-), heavy metal (MESH:D019216)

## Full text

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## Figures

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## References

56 references — full list in the complete paper: https://tomesphere.com/paper/PMC13029691/full.md

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Source: https://tomesphere.com/paper/PMC13029691