Impacts of Solidago canadensis and Erigeron canadensis co-invasion on soil microbial communities
文献类型: 外文期刊
第一作者: He, Mengying
作者: He, Mengying;Liu, Tingting;Liu, Yaqi;Long, Yiyi;Li, Yue;Xie, Qingsong;Zhang, Zhen;He, Mengying;Zhang, Zhen;Zhang, Zhen
作者机构:
关键词: bacterial interaction; co-invasion; fungal interaction; invasive plants; soil microorganisms
期刊名称:CONSERVATION SCIENCE AND PRACTICE ( 影响因子:2.8; 五年影响因子:3.2 )
ISSN:
年卷期: 2024 年
页码:
收录情况: SCI
摘要: Invasive plants disrupt the structure and function of ecosystems, causing a decline in their diversity. The coexistence of Solidago canadensis and Erigeron canadensis within shared habitats is a common phenomenon, and the frequent occurrence of co-invasion has substantial implications for ecosystems. However, the effects of the co-invasion of two plants on the soil ecosystem across varying degrees of invasion remain uninvestigated. Therefore, we investigated how the co-invasion of S. canadensis and E. canadensis affects soil physiochemical properties and microorganisms across various degrees of invasion. The invaded regions exhibited significantly lower soil moisture content and pH values than those in the uninvaded areas (p < .05). Additionally, co-invasion resulted in higher soil organic matter (OM), total nitrogen (TN), total phosphorus (TP), and available phosphorus (AP) contents compared to single invasion by E. canadensis. Furthermore, the invaded regions exhibited a greater diversity of soil bacterial and fungal communities than the uninvaded regions. Under diverse invasion conditions, Actinobacteria and Ascomycota emerged as the predominant phyla of soil bacteria and fungi, respectively, leading to a shift in the soil microbial community structure. Moreover, homogenizing dispersal significantly influenced bacterial community succession, while ecological drift influenced the progression of fungal communities. Using structural equation modeling, this study established significant correlations between soil properties (pH, TN, and nitrate nitrogen) and bacterial interactions (diversity and community assembly) relative to microbial composition. This study revealed the influence of S. canadensis and E. canadensis co-invasion on soil microbial communities, thereby contributing a theoretical framework delineating the impact of these two invasive plant species.
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