Abstract
Microbial communities are composed of many rare species and a few abundant species. Considering the disproportionate importance of rare species for ecosystem functioning, it is important to understand the mechanisms structuring the rare and abundant components of a diverse community in response to environmental changes. Here, we used a 16S ribosomal RNA gene sequencing approach to investigate the bacterial community diversity in the Eastern Indian Ocean (EIO) during the monsoon and intermonsoon. We employed a phylogenetic null model and network analysis to evaluate the assembly processes and co-occurrence pattern of the microbial community. We found that higher bacterial diversity was detected in the intermonsoon with high temperature and low Chlorophyll a concentrations and N/P ratios. The balance between ecological deterministic processes and stochastic processes varied with seasons in the EIO. Meanwhile, conditionally rare taxa (CRT) were more likely modulated by variable selection processes than always rare taxa (ART) and abundant taxa (AT) (CRT > ART > AT). By linking assembly process and species co-occurrence, we demonstrated that the microbial co-occurrence associations tended to be higher when deterministic processes (mainly variable selection) were weaker. This negative trend was observed in rare species rather than abundant species. The linkage could enhance our understanding of the underlying mechanisms underpinning the generation and maintenance of microbial community diversity.
Highlights
Constructing the linkage between community assembly and species co-occurring is important in ecology
Prochlorococcus belonging to Cyanobacteria and SAR11 belonging to Alphaproteobacteria were observed to be the most abundant taxa (AT)
By constructing a link between assembly process and species co-occurrence in the microbial community (Figure 6), we found that (I) deterministic processes became a less dominant assembly process in the intermonsoon communities as microbial co-occurrence increased; (II) this negative tendency between deterministic assembly process and species co-occurrence was observed in rare species rather than abundant species
Summary
Constructing the linkage between community assembly and species co-occurring is important in ecology. Neutral theory holds that all members in microbial communities are ecologically functionally equivalent, and communities are shaped by stochastic processes involving dispersal limitation and homogenizing dispersal, as well as the undominated process consisting of weak selection, weak dispersal, and diversification or drift (Chave, 2004; Bahram et al, 2016; Zhou and Ning, 2017; Tripathi et al, 2018) These ecological processes can drive community assembly concurrently (Fargione et al, 2003; Langenheder and Szekely, 2011; Zhou and Ning, 2017; Jiao and Lu, 2020a). Natural systems are highly complex (Hooper et al, 2005), and disentangling the relative contributions of each ecological process in ecosystem is challenging (Dini-Andreote et al, 2015; Evans et al, 2017; Jiao et al, 2020)
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