Impact of environmental factors on diversity of fungi in sediments from the Shenzhen River Estuary

Lin, Wei-Ming; Liu, Xin; Gong, Li; Liu, Ruzhen; Ling, Minghuang; Guo, Chuangxin; Meng, Hongyan; Luo, Zengwei; Du, Xiaona; Guo, Ying; Xu, Wei

doi:10.1007/s00203-023-03438-7

Arch Microbiol

2023

DOI: 10.1007/s00203-023-03438-7

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Impact of environmental factors on diversity of fungi in sediments from the Shenzhen River Estuary

Wei-Ming Lin

Xin Liu

Li Gong

et al.

Abstract: In this study, to explore the relationship between environmental factors and fungal diversity in the Shenzhen River ecosystem, multiple methods including chemical analysis, culture isolation, qPCR analysis of fungal ITS region and ITS-based Illumina next-generation-sequencing were integrated. A total of 115 isolates were finally isolated and could be classified into 23 genera. Top three abundant genera isolated were Meyerozyma (18 strains), Aspergillus (17 strains) and Penicillium (14 strains). Based on the Il… Show more

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Cited by 5 publications

References 75 publications

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Physicochemistry and comparative metagenomics of a tropical estuary persistently inundated with anthropogenic pollutants

Salam,

Apollos,

Obayori

et al. 2024

Folia Microbiol

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Physicochemistry and comparative metagenomics of a tropical estuary persistently inundated with anthropogenic pollutants

Salam,

Apollos,

Obayori

et al. 2024

Folia Microbiol

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Global Diversity and Distribution of Rhizosphere and Root-Associated Fungi in Coastal Wetlands: A Systematic Review

Lumibao,

Harris,

Birnbaum

2024

Estuaries and Coasts

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Coastal wetlands have been long recognized for their importance to biodiversity and many biogeochemical processes including carbon sequestration; however, our understanding of plant-microbe interactions that govern many processes in these ecosystems remains elusive. Fungal communities are known to play critical roles in coastal wetlands, particularly due to their close relationships with plants, yet, systematic understanding of their distributional patterns and the factors shaping these patterns in natural coastal wetland environments has been rarely assessed. We synthesized existing published literature from fifty-one studies spanning 60 years to examine global fungal distributional patterns in coastal wetlands, draw linkages between fungi, the plant communities, and their environment, and identify gaps in fungal research and suggest future research directions. We focused on studies that reported root-associated fungi and fungi from the plant rhizosphere (i.e., soil surrounding roots) in coastal dunes, intertidal flats, salt marshes, and tidal wetlands. Our synthesis has revealed that (1) 203 fungal species were reported from salt marshes, 59 fungal species from coastal dunes, 32 from tidal wetlands, and ten from intertidal flats; (2) rhizosphere fungal communities were more species-rich and reported more often for all ecosystems except in salt marshes; and (3) nineteen different fungal guilds, which are predominantly arbuscular mycorrhizal fungi. We conclude that more research is needed to better understand root-associated fungal diversity in less studied ecosystems reviewed here. We have identified knowledge gaps in reported data and outlined suggestions to facilitate future plant-fungal research in these declining, but important, coastal ecosystems.

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Methodology comparison of environmental sediment fungal community analysis

Li,

Wang

et al. 2024

Environmental Research

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Impact of environmental factors on diversity of fungi in sediments from the Shenzhen River Estuary

Cited by 5 publications

References 75 publications

Physicochemistry and comparative metagenomics of a tropical estuary persistently inundated with anthropogenic pollutants

Physicochemistry and comparative metagenomics of a tropical estuary persistently inundated with anthropogenic pollutants

Global Diversity and Distribution of Rhizosphere and Root-Associated Fungi in Coastal Wetlands: A Systematic Review

Methodology comparison of environmental sediment fungal community analysis

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