Analysis of Soil Fungal Community Characteristics of <i>Morchella sextelata</i> Under Different Rotations and Intercropping Patterns and Influencing Factors

Analysis of Soil Fungal Community Characteristics of <i>Morchella sextelata</i> Under Different Rotations and Intercropping Patterns and Influencing Factors

Morchella rotation and intercropping is a new and efficient ecological planting mode, which not only contributes to economic growth, but also promotes the sustainable development of agriculture and has high ecological benefits. <i>Morchella sextelata</i> is an edible mushroom that relies...

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Bibliographic Details
Main Authors: Weilin Feng, Jiawen Wang, Qunli Jin, Zier Guo, Weiming Cai
Format: Article
Language:English
Published: MDPI AG 2025-04-01
Series:Agriculture
Subjects:
<i>Morchella sextelata</i>
cropping pattern
cultivation soils
pathogenic fungi
Online Access:https://www.mdpi.com/2077-0472/15/8/823
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Summary:Morchella rotation and intercropping is a new and efficient ecological planting mode, which not only contributes to economic growth, but also promotes the sustainable development of agriculture and has high ecological benefits. <i>Morchella sextelata</i> is an edible mushroom that relies on soil-based cultivation. Understanding the composition and dynamics of soil fungal communities under different cropping systems is crucial for optimising its cultivation. This study investigated the fungal community characteristics of <i>Morchella</i> spp. under different rotation and intercropping patterns, together with the associated environmental factors. Using Illumina NovaSeq high-throughput sequencing coupled with ecological and statistical analyses, the relative abundance, alpha diversity index, beta diversity, and intergroup differences in fungal communities were assessed. Additionally, key soil physical and chemical properties were evaluated across four cultivation systems: conventional <i>Morchella</i> spp. cultivation, <i>Morchella sextelata</i>—ginger rotation, vine—<i>Morchella sextelata</i> intercropping, and mulberry tree—<i>Morchella sextelata</i> intercropping. Our results indicate that <i>Morchella</i> spp. cultivation leads to a significant decline in soil fungal diversity compared to uncultivated soils This indicates that cultivation with <i>Morchella</i> spp. simplifies the soil fungal community structure to some extent. Furthermore, distinct variations in fungal community structure were observed across the different cropping systems. Regarding major pathomycete, the relative abundance of P<i>aecilomyces penicillatus</i> increases in vine intercropping soil (VIS), whereas <i>Botryotrichum atrogriseum</i> and <i>Paecilomyces</i> sp. are more abundant in ginger rotation soil (GRS). Similarly, <i>Fusarium solani</i> and <i>Mortierella</i> sp. exhibit higher relative abundance in mulberry tree intercropping soil (MTIS) and fallow soil (FS) compared to natural soil (NS). Functional prediction analysis indicated a general increase in the relative abundance of potential animal and plant pathogenic fungi across all the soil samples, excluding the VIS. This increase was most pronounced in GRS. Further study revealed that the physical and chemical properties of covering soil, including pH, available potassium (AK), available phosphorus (AP), and total phosphorus (TP), significantly influence fungal community diversity and structure. A significant negative correlation was observed between pH and the relative abundance of <i>Fusarium</i> fungi. These findings provide valuable data for further exploration of the ecological mechanisms underlying <i>Morchella</i> spp. cultivation, including rotation constraints and disease dynamics. Ultimately, this research aims to support the development of sustainable and high-quality <i>Morchella</i> spp. production.
ISSN:2077-0472

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