Selection processes play dominant role in shaping coexisting assemblages of trees and soil fungi: Study
Community assembly is shaped by four main processes: selection—fitness differences between organisms; dispersal—organisms' movement across space; drift—unpredictable variation in abundance; and diversification—new genetic variants. However, whether the dominant processes governing macro- and microbial communities are fundamentally different remains elusive.
In a study published in Fungal Diversity, researchers from the Xishuangbanna Tropical Botanical Garden (XTBG) of the Chinese Academy of Sciences and their collaborators investigated the contribution of the four processes to co-occurring tree and fungal communities in three approximately 20-hectare forest ecosystems in Yunnan Province, China.
They proposed a research approach to explore the four major processes influencing community assembly by analyzing distance pattern of similarity (DPS). Specifically, they investigated the DPS of tree and soil fungal communities in three approximately 20-ha forest plots covering climates from tropical to temperate in Yunnan Province, China.
Two models (a drift-inexplicit ordination model without considering the effect of drift and a drift-explicit baseline model with consideration of the effect of drift) were used to decipher the contribution of individual-based random sampling, selection, and/or dispersal to community assembly.
Using these two models, the researchers found that most soil fungi had shorter realized distribution ranges (RDR) than most trees. Because drift was explicitly incorporated into the selection baseline model and the DPS spanned wider ranges than RDR for most trees and fungi, these models were able to capture the DPS structure of trees and fungi at different spatial scales, as well as the DPS structure of fungi across taxonomic levels and fungal guilds in tropical, subtropical, and subalpine forest ecosystems.
It was assumed that the model framework, ecosystems, spatial scales, sample intensity, selection variables and dispersal variables were well unified, leading to the conclusion that the ubiquity of selection did not reveal any fundamental differences in assembly mechanisms between trees and soil fungi.
"Our study suggests that selection processes play a dominant role in shaping the coexisting assemblages of tree and soil fungal communities, and this process is similar for both organisms," said Hu Yuehua of XTBG.
More information: Yue-Hua Hu et al, Selection dictates the distance pattern of similarity in trees and soil fungi across forest ecosystems, Fungal Diversity (2024). DOI: 10.1007/s13225-024-00537-8
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