Turfgrass-dependent mycotrophic change enhances soil deterioration in dry, cold and high-alkali environments

Yong Zhi Yang, Jui Tse Chang, Hai Xia Yan, Run Hong Gao*, Min Xin Luo, Chien Ti Chao, Pei Chun Liao*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

Abstract

Aims: Soil quality is undergoing severe degradation under anthropogenic effects. Different methods of land management have been implemented for soil reclamation, such as turfing. Although widely accepted to improve soil quality, turfing in specific environments may also culminate in soil deterioration. We aim to know how turfing impacts soils by changing mycobiomes. Methods and results: The soil physicochemical properties and ITS metabarcoding were used to investigate mycobiome diversity and eco-function differences between the eudicot Dianthus plumarius and the monocot Poa pratensis in dry, cold, and high-alkali soil. The effects of plantation and the rhizosphere (e.g. root exudates) were tested. We showed that the change in soil mycobiomes in different planted bulk soils and rhizospheres could mainly be attributed to species turnover, with minor nestedness. Unexpectedly, the soil deteriorates more following turfing. The increasing saprotrophs in planted bulk soil were more marked in the monocot than in the eudicot, even the rhizosphere effect alleviated saprotrophic risks in the rhizosphere. Conclusions: Turfing deteriorates the health of high-alkali soil by reducing nitrification, and upshift the soil saprotrophs in a dry and cold environment.

Original languageEnglish
Article numberlxac084
JournalJournal of Applied Microbiology
Volume134
Issue number2
DOIs
Publication statusPublished - 2023 Feb

Keywords

  • land management
  • legacy effect
  • mycobiome
  • nitrogen cycle
  • turfgrass
  • β-diversity

ASJC Scopus subject areas

  • Biotechnology
  • Applied Microbiology and Biotechnology

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