Seasonal Changes in the Soil Microbial Community Structure in Urban Forests

Overview

Journal Biology (Basel)

Publisher MDPI

Specialty Biology

Date 2024 Jan 22

PMID 38248462

Authors

Xin Wan

Runyang Zhou

Sian Liu

Wei Xing

Yingdan Yuan

Affiliations

Soon will be listed here.

Abstract

Urban forests play a crucial role in the overall health and stability of urban ecosystems. Soil microorganisms are vital to the functioning of urban forest ecosystems as they facilitate material cycling and contribute to environmental stability. This study utilized high-throughput sequencing technology to examine the structural characteristics of bacterial and fungal communities in the bulk soil of six different forest stands: (ZL), (SSL), (SZY), mixed broad-leaved shrub forest (ZKG), mixed pine and cypress forest (SBL), and mixed broad-leaved tree forest (ZKQ). Soil samples were collected from each forest stand, including the corners, center, and edges of each plot, and a combined sample was created from the first five samples. The results revealed that among the bacterial communities, ZKG exhibited the highest alpha diversity in spring, while ZL demonstrated the highest alpha diversity in both summer and autumn. Proteobacteria was the most abundant bacterial phylum in all six forest stand soils. The dominant fungal phylum across the six forest stands was identified as Ascomycota. Notably, the microbial community diversity of SBL bulk soil exhibited significant seasonal changes. Although ZL exhibited lower bacterial community diversity in spring, its fungal community diversity was the highest. The bulk soil microbial diversity of ZL and SSL surpassed that of the other forest stands, suggesting their importance in maintaining the stability of the urban forest ecosystem in the Zhuyu Bay Scenic Area. Furthermore, the diversity of the bulk soil microbial communities was higher in all six stands during spring compared to summer and autumn. Overall, this study provides valuable insights into the seasonal variations of bulk soil microbial communities in urban forests and identifies dominant tree species, offering guidance for tree species' selection and preservation in urban forest management.

Citing Articles

Subtle changes in topsoil microbial communities of drained forested peatlands after prolonged drought.

Hillgen O, Palviainen M, Lauren A, Kononen M, Ojala A, Pumpanen J Environ Microbiol Rep. 2024; 16(6):e70041.

PMID: 39512007 PMC: 11544035. DOI: 10.1111/1758-2229.70041.

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