Fungal Community Complexity and Stability in Clay Loam and Sandy Soils in Mangrove Ecosystems DOI Creative Commons
Shu Zhou, Xiaojie Deng,

Rajapakshalage Thashikala Nethmini

et al.

Journal of Fungi, Journal Year: 2025, Volume and Issue: 11(4), P. 262 - 262

Published: March 28, 2025

Soil fungi in mangroves are diverse and crucial for organic matter decomposition element cycling. However, the drivers influencing network complexity stability of fungal communities across different mangrove soil habitats remain unclear. This study investigated main factors driving composition, diversity, complexity, clay loam sandy soils ecosystems. Results showed that Dothideomycetes Sordariomycetes dominated soils, respectively. Sandy exhibited higher alpha diversity than loam. Beta analysis revealed significant differences community structure between two types. Network demonstrated soil. Spearman's correlation NH4+-N total nitrogen were affecting loam, Partial least squares path modeling properties closely linked to whereas beta was primary driver Our enhances understanding mechanisms maintain ecosystems, with important implications restoring vegetation degraded areas.

Language: Английский

Fungal Community Complexity and Stability in Clay Loam and Sandy Soils in Mangrove Ecosystems DOI Creative Commons
Shu Zhou, Xiaojie Deng,

Rajapakshalage Thashikala Nethmini

et al.

Journal of Fungi, Journal Year: 2025, Volume and Issue: 11(4), P. 262 - 262

Published: March 28, 2025

Soil fungi in mangroves are diverse and crucial for organic matter decomposition element cycling. However, the drivers influencing network complexity stability of fungal communities across different mangrove soil habitats remain unclear. This study investigated main factors driving composition, diversity, complexity, clay loam sandy soils ecosystems. Results showed that Dothideomycetes Sordariomycetes dominated soils, respectively. Sandy exhibited higher alpha diversity than loam. Beta analysis revealed significant differences community structure between two types. Network demonstrated soil. Spearman's correlation NH4+-N total nitrogen were affecting loam, Partial least squares path modeling properties closely linked to whereas beta was primary driver Our enhances understanding mechanisms maintain ecosystems, with important implications restoring vegetation degraded areas.

Language: Английский

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