Issue 10, 2024

Fungal diversity and key functional gene abundance in Iowa bioretention cells: implications for stormwater remediation potential

Abstract

Stormwater bioretention cells are green stormwater infrastructure systems that can help mitigate flooding and remove contaminants. Plants and bacteria improve nutrient removal and degrade organic contaminants; however, the roles of fungi in bioretention cells are less known. Although mycorrhizal fungi aid in plant growth/improve nutrient uptake, there is a notable lack of research investigating fungal diversity in bioretention cells. Other types of fungi could benefit bioretention cells (e.g., white rot fungi degrade recalcitrant contaminants). This study addresses the knowledge gap of fungal function and diversity within stormwater bioretention cells. We collected multiple soil samples from 27 different bioretention cells in temperate-climate eastern Iowa USA, characterized soil physicochemical parameters, sequenced the internal transcribed spacer (ITS) amplicon to identify fungal taxa from extracted DNA, and measured functional gene abundances for two fungal laccases (Cu1, Cu1A) and a fungal nitrite reductase gene (nirKf). Fungal biodegradation functional genes were present in bioretention soils (mean copies per g: 7.4 × 105nirKf, 3.2 × 106Cu1, 4.0 × 108Cu1A), with abundance of fungal laccase and fungal nitrite reductase genes significantly positively correlated with soil pH and organic matter (Pearson's R: >0.39; rho < 0.05). PERMANOVA analysis determined soil characteristics were not significant explanatory variables for community composition (beta diversity). In contrast, planting specifications significantly impacted fungal diversity; the presence/absence of a few planting types and predominant vegetation type in the cell explained 89% of variation in fungal diversity. These findings further emphasize the importance of plants and media as key design parameters for bioretention cells, with implications for fungal bioremediation of captured stormwater contaminants.

Graphical abstract: Fungal diversity and key functional gene abundance in Iowa bioretention cells: implications for stormwater remediation potential

Supplementary files

Article information

Article type
Paper
Submitted
14 May 2024
Accepted
17 Aug 2024
First published
20 Aug 2024
This article is Open Access
Creative Commons BY license

Environ. Sci.: Processes Impacts, 2024,26, 1796-1810

Fungal diversity and key functional gene abundance in Iowa bioretention cells: implications for stormwater remediation potential

E. A. Wiener, J. M. Ewald and G. H. LeFevre, Environ. Sci.: Processes Impacts, 2024, 26, 1796 DOI: 10.1039/D4EM00275J

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