# Evaluation of the biodiversity of arbuscular mycorrhizal fungi during regenerative succession in quarries

**Authors:** A.A. Kryukov, A.P. Yurkov, A.O. Gorbunova, T.R. Kudriashova, A.I. Gorenkova, Y.V. Kosulnikov, Y.V. Laktionov

PMC · DOI: 10.18699/vjgb-25-09 · 2025-02-01

## TL;DR

This study examines how the diversity of arbuscular mycorrhizal fungi changes during the recovery of plant life in quarries.

## Contribution

The study uses molecular genetic methods to track AMF biodiversity across regenerative succession stages in quarries.

## Key findings

- Maximum AMF biodiversity occurs at the pioneer and grass stages of overgrowth.
- AMF diversity decreases significantly at the shrub stage and partially recovers at the forest stage.
- AMF biodiversity correlates with grass diversity and negatively with woody plant species.

## Abstract

Arbuscular mycorrhizal fungi (AMF) play a key role in the regenerative successions of plant communities after anthropogenic disturbances, particularly in quarries. AMF help plants with water and mineral nutrition, contributing to the restoration rate of vegetation cover. The research is aimed to study the biodiversity of AMF using molecular genetic methods at different stages of overgrowth of two quarries in the Leningrad region. Molecular genetic identification of fungi was carried out using Illumina MiSeq analysis of the ITS1 and ITS2 regions as barcodes for the identification of operational taxonomic units (OTUs) with species-level identification. An adapted and error-checked AMF genetic sequence database from NCBI was used as a reference. The study applied an optimized nucleic acid isolation technique for sandy soils. The results showed maximum AMF biodiversity at the initial stages of overgrowth – pioneer and grass stages – with minimum diversity observed at the shrub stage, where it decreased by five times. At the forest stage, the biodiversity of AMF was almost restored to the level seen at the grass stage. It has been shown that the biodiversity and species composition of AMF can vary greatly between the stages of regenerative succession and probably depends primarily on the biodiversity of grasses, with which AMF most effectively enter into symbiotic relationships. The analysis showed a reliable negative correlation between the number of AMF species and the number of woody plant species. Such studies can aid in understanding how plant-fungal symbiosis develops in regenerative successions and which AMF most effectively contribute to vegetation cover restoration

## Full-text entities

- **Chemicals:** carbon (MESH:D002244), CTAB (MESH:D000077286), Phytol (MESH:D010836), NaCl (MESH:D012965), HCl (MESH:D006851), isopropanol (MESH:D019840), phosphorus (MESH:D010758), nitrogen (MESH:D009584), EDTA (MESH:D004492), ethyl alcohol (MESH:D000431), agarose (MESH:D012685), chloroform (MESH:D002725), Tris (-), water (MESH:D014867)
- **Species:** Artemisia vulgaris (common mugwort, species) [taxon 4220], Tussilago farfara (coltsfoot, species) [taxon 118778], Acaulospora paulinae (species) [taxon 282667], Homo sapiens (human, species) [taxon 9606], Entrophospora sp. (species) [taxon 1920922], Glomus cerebriforme (species) [taxon 658196], Agrostis capillaris (browntop, species) [taxon 204232], Paraglomus laccatum (species) [taxon 397623], Acaulospora brasiliensis (species) [taxon 765251], Diversispora versiformis (species) [taxon 1963269], Ambispora sp. (species) [taxon 2040673], Deschampsia cespitosa (tufted hair grass, species) [taxon 37723], Eubalaena glacialis (North Atlantic right whale, species) [taxon 27606], Rhizophagus irregularis (species) [taxon 588596], Dominikia sp. (species) [taxon 2011914], Archaeosporaceae (family) [taxon 144513], Glomus sp. (species) [taxon 1921602], Solanum tuberosum (potatoes, species) [taxon 4113], Nanoglomus sp. (species) [taxon 2754700], Rhizophagus intraradices (species) [taxon 4876], Chamaenerion angustifolium (fireweed, species) [taxon 13055]

## Figures

4 figures with captions in the complete paper: https://tomesphere.com/paper/PMC11933903/full.md

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Source: https://tomesphere.com/paper/PMC11933903