The Self-Organization of Marine Microbial Networks under Evolutionary and Ecological Processes: Observations and Modeling

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Abstract

Evolutionary and ecological processes are primary drivers of ecological network constric-tions. However, the ways that these processes underpin self-organization and modularity in networks are poorly understood. Here, we performed network analyses to explore the evolutionary and ecological effects on global marine microbial co-occurrence networks across multiple network levels, including those of nodes, motifs, modules and whole networks. We found that both direct and indirect species interactions were evolutionarily and ecologically constrained across at least four network levels. Compared to ecological processes, evolutionary processes generally showed stronger long-lasting effects on indirect interactions and dominated the network assembly of particle-associated communities in spatially homogeneous environments. Regarding the large network path distance, the contributions of either processes to species interactions generally decrease and almost disappear when network path distance is larger than six. Accordingly, we developed a novel mathematical model based on scale-free networks by considering the joint effects of evolutionary and ecological processes. We simulated the self-organization of microbial co-occurrence networks and found that long-lasting effects increased network stability via decreasing link gain or loss. Overall, these results revealed that evolutionary and ecological processes played key roles in the self-organization and modularization of microbial co-occurrence networks.

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Liu, Z., Wang, J., Meng, D., Li, L., Liu, X., Gu, Y., … Yin, H. (2022). The Self-Organization of Marine Microbial Networks under Evolutionary and Ecological Processes: Observations and Modeling. Biology, 11(4). https://doi.org/10.3390/biology11040592

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