# Synergistic Effects of Arbuscular Mycorrhizal Fungi and Mycorrhiza Helper Bacteria Alter Cucumber Rhizosphere Fungal Community and Reduce Soil Cadmium Contamination

**Authors:** Xinjie Pan, Musawar Ibrahim, Liyan Zhou, Asad Ullah, Ahmad Ali, Danmei Gao

PMC · DOI: 10.3390/jof12020129 · Journal of Fungi · 2026-02-11

## TL;DR

This study shows that combining fungi and bacteria can reduce cadmium in soil and plants by changing the fungal community around cucumber roots.

## Contribution

The study reveals how AMF and MHB co-inoculation alters the cucumber rhizosphere fungal community to reduce soil Cd contamination.

## Key findings

- Co-inoculation with AMF and MHB significantly reduced Cd concentrations in plant tissues and soil.
- The treatment increased beneficial fungal phyla like Mortierellomycota and decreased pathogenic Ascomycota.
- Fungal diversity and specific OTUs were enriched following AMF–MHB co-inoculation.

## Abstract

Cadmium (Cd) contamination in agricultural soils severely impairs plant growth, disrupts microbial communities, and threatens food safety due to its high toxicity and mobility. Conventional remediation methods are often expensive and environmentally unsustainable. In contrast, plant–microbiome interactions offer an eco-friendly solution to reduce Cd accumulation and improve plant growth. Arbuscular mycorrhizal fungi (AMF) and mycorrhiza helper bacteria (MHB) are known to improve plant growth and resilience in Cd-contaminated soils. However, the mechanisms by which AMF and MHB co-inoculation could reduce soil Cd contamination by altering the rhizosphere fungal community remain unclear. This study aimed to evaluate how co-inoculation with AMF (Funneliformis mosseae) and MHB (Alcaligenes faecalis) affects plant Cd uptake and soil Cd content, and how it reshapes the cucumber rhizosphere fungal community. A greenhouse experiment was conducted with four treatments: CK (no inoculation), Fm (AMF inoculation), Af (MHB inoculation), and FA (AMF + MHB co-inoculation). Co-inoculation with AMF and MHB (FA) significantly reduced Cd concentrations in both plant tissues and soil. Fungal communities were profiled using Illumina MiSeq sequencing of the ITS region, and diversity metrics and structural changes were assessed through PCoA and DESeq2. Co-inoculation (FA) significantly reshaped the fungal community, increasing the relative abundances of beneficial phyla such as Mortierellomycota, Basidiomycota and Glomeromycota, while decreasing the abundance of potentially pathogenic Ascomycota. Double inoculation with AMF and MHB also enhanced fungal diversity, as measured by the Simpson index, and enriched specific OTUs. This study uncovers the mechanisms through which AMF–MHB co-inoculation reduces Cd concentrations in both plants and soil by altering the cucumber rhizosphere fungal community composition. These findings demonstrate that AMF–MHB co-inoculation is an effective, biologically driven strategy for remediating Cd-contaminated soils by restructuring cucumber rhizosphere fungal communities.

## Linked entities

- **Chemicals:** Cadmium (PubChem CID 23973), Cd (PubChem CID 23973)
- **Species:** Cucumis sativus (taxon 3659), Funneliformis mosseae (taxon 27381), Alcaligenes faecalis (taxon 511)

## Full-text entities

- **Diseases:** injury to (MESH:D014947), toxicity (MESH:D064420), Cd (MESH:D002105), fungal (MESH:D009181)
- **Chemicals:** nitrate (MESH:D009566), phosphate (MESH:D010710), P (MESH:D010758), K (MESH:D011188), LB liquid medium (-), metal (MESH:D008670), carbon (MESH:D002244), Cr (MESH:D002857), N (MESH:D009584), Fm (MESH:D005286), agarose (MESH:D012685), HBCD (MESH:C089796), water (MESH:D014867), Cadmium chloride (MESH:D019256), HNO3 (MESH:D017942), auxins (MESH:D007210), FA (MESH:D005492), heavy metal (MESH:D019216), Cadmium (MESH:D002104), HClO4 (MESH:C576518)
- **Species:** Trifolium subterraneum (species) [taxon 3900], Lasiobolus (genus) [taxon 64163], Alcaligenes faecalis (species) [taxon 511], Cladorrhinum (genus) [taxon 223374], Mortierella (genus) [taxon 4855], Mycothermus (genus) [taxon 1940842], Pseudomonas fluorescens (species) [taxon 294], Iris tectorum (species) [taxon 114617], Talaromyces (genus) [taxon 5094], Iris pseudacorus (species) [taxon 82213], Rhizophagus irregularis (species) [taxon 588596], Homo sapiens (human, species) [taxon 9606], Funneliformis mosseae (species) [taxon 27381], Albifimbria (genus) [taxon 1859696], Botryotrichum (genus) [taxon 1934360], Paraglomus (genus) [taxon 144537], Cucumis sativus (cucumber, species) [taxon 3659], Podosphaera (genus) [taxon 62701], Cercophora (genus) [taxon 42303], PX clade (clade) [taxon 569578], Ascobolus (genus) [taxon 5190], Alternaria sect. Alternaria (section) [taxon 2499237], Cladosporium (genus) [taxon 5498], Penicillium (genus) [taxon 5073], Solanum nigrum (black nightshade, species) [taxon 4112], Thermomyces (genus) [taxon 5540], Podospora (genus) [taxon 5144], Aspergillus (genus) [taxon 5052], Poaceascoma (genus) [taxon 1708635], Fungi (kingdom) [taxon 4751], Humicola (genus) [taxon 5526], Acorus calamus (Eurasian sweet-flag, species) [taxon 4465]

## Full text

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## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12941401/full.md

## References

103 references — full list in the complete paper: https://tomesphere.com/paper/PMC12941401/full.md

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Source: https://tomesphere.com/paper/PMC12941401