Soil microorganisms in the urban ecosystems of the russian subarctic (Murmansk region, Apatity)

Korneykova, Maria V.; Redkina, Vera V.; Fokina, N. V.; Myazin, V. A.; Soshina, Anastasia S.

doi:10.5817/cpr2021-2-23

Cited by 3 publications

References 46 publications

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Soil Microbial Assemblages and Landscape Patterns Shape Compositional Dissimilarities in Woody Plants in Urban Remnant Forest Patches

Yang,

Wang

2024

Land Degrad Dev

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The effects of abiotic factors on plant composition in urban remnant forests are well‐known, while the relationships between soil microbial and plant communities in terms of compositional similarity remain unclear. In this study, we explored the relative contribution of landscape factors and soil microbial assemblages in shaping the β‐diversity of woody plants in urban remnant forest patches. Research was conducted on woody plants and soil microorganisms across 15 remnant patches in Guiyang, China. The existence of compositional similarity between soil microbial and plant assemblages in these forests was investigated. Furthermore, the study assessed the relative influence of soil microbial assemblages and landscape variables on woody plant compositions employing generalized dissimilarity models (GDMs). Findings indicate that variations in composition among woody plants are positively correlated with soil microbial communities, underscoring the vital interaction between aboveground and belowground biodiversity. The GDM results revealed that the woody plant assemblages were equally determined by both direct and indirect (via soil microbial assemblages) effects of landscape patterns, and the indirect effects were even greater than the separate direct effects. These indirect effects often surpass the direct impact of landscape features by bolstering nutrient cycling and establishing beneficial relationships between microbes and plants. Consequently, soil microbes serve as a critical bridge, transforming and amplifying the influence of landscape patterns on plant communities. Moreover, the influence of soil microbial communities and landscape patterns on the variation in woody plant compositions is modulated by their life forms. This research underscores the intertwined roles of landscape patterns and soil microbial communities in shaping plant assemblages, highlighting a dual pathway of influence—direct from landscape and indirect via soil microbes. It reveals the critical importance of considering both abiotic and biotic factors, particularly the often‐overlooked soil microbes, in ecological studies and conservation strategies.

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