Affiliation:
1. State Key Laboratory of Biocontrol, School of Ecology Sun Yat‐sen University Shenzhen China
2. State Key Laboratory of Biocontrol, School of Life Sciences Sun Yat‐sen University Guangzhou China
3. Department of Biological Sciences University of Alberta Edmonton Alberta Canada
4. Guangdong Chebaling National Nature Reserve Shaoguan China
Abstract
AbstractRoot‐centric studies have revealed fast taxonomic turnover across root neighborhoods, but how such turnover is accompanied by changes in species functions and phylogeny (i.e., β diversity) remains largely unknown. As β diversity can reflect the degree of community‐wide biotic homogenization, such information is crucial for better inference of below‐ground assembly rules, community structuring, and ecosystem processes. We collected 2480 root segments from 625 0–30 cm soil profiles in a subtropical forest in China. Root segments were identified into 138 species with DNA‐barcoding with six root morphological and architectural traits measured per species. By using the mean pairwise (Dpw) and mean nearest neighbor distance (Dnn) to quantify species ecological differences, we first tested the non‐random functional and phylogenetic turnover of root neighborhoods that would lend more support to deterministic over stochastic community assembly processes. Additionally, we examined the distance‐decay pattern of β diversity, and finally partitioned β diversity into geographical and environmental components to infer their potential drivers of environmental filtering, dispersal limitation, and biotic interactions. We found that functional turnover was often lower than expected given the taxonomic turnover, whereas phylogenetic turnover was often higher than expected. Phylogenetic Dpw (e.g., interfamily species) turnover exhibited a distance‐decay pattern, likely reflecting limited dispersal or abiotic filtering that leads to the spatial aggregation of specific plant lineages. Conversely, both functional and phylogenetic Dnn (e.g., intrageneric species) exhibited an inverted distance‐decay pattern, likely reflecting strong biotic interactions among spatially and phylogenetically close species leading to phylogenetic and functional divergence. While the spatial distance was generally a better predictor of β diversity than environmental distance, the joint effect of environmental and spatial distance usually overrode their respective pure effects. These findings suggest that root neighborhood functional homogeneity may somewhat increase forest resilience after disturbance by exhibiting an insurance effect. Likewise, root neighborhood phylogenetic heterogeneity may enhance plant fitness by hindering the transmission of host‐specific pathogens through root networks or by promoting interspecific niche complementarity not captured by species functions. Our study highlights the potential role of root‐centric β diversity in mediating community structures and functions largely ignored in previous studies.
Funder
National Natural Science Foundation of China
Postdoctoral Research Foundation of China
Basic and Applied Basic Research Foundation of Guangdong Province
Subject
Ecology, Evolution, Behavior and Systematics
Cited by
2 articles.
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