Name:Wenjie Wan Yuyi Yang
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Email:wanwenjie@wbgcas.cn yangyy@wbgcas
Organization:Wuhan Botanical Garden
The Biogeographical Distribution and Diversity Maintenance of Organic Phosphorus-Mineralizing-related Bacteria Disentangled in the Shennongjia Primeval Forest
2021-09-22
Forests, considered as the Lungs of the Planet, are momentous ecosystems for breeding biodiversity, regulating climate, fixing carbon, providing woods, and stabilizing soils. However, forest soils display phosphorus (P) deficiency pervasively, which in turn limits plant productivity and ecosystem functions. The input of P into forest soils is mainly derived from the decomposition of parent organic phosphorus-containing materials (e.g., plant residues and animal droppings). The phoD gene, encoding alkaline phosphatase, is used to reflect organic P mineralization. Therefore, deciphering geographical distribution and diversity maintenance of phoD-harboring bacteria is important for understanding diversity-driven ecosystem processes and functions.
The research team, consisted of associate professor WAN Wenjie and professor YANG Yuyi from Wuhan Botanical Garden and professor HE Donglan from South-Central University for Nationalities, determined community composition and diversity of phoD-harboring bacteria along with environmental gradient in the Shennongjia primeval forest.
The researchers applied multiple statistical analysis methods to calculate environmental breadths, phylogenetic signals and community assembly processes. In addition, they also investigated relationships between community diversity and soil ecosystem multifunctionality.
By considering altitude, the researchers find higher community diversity, broader environmental breadths, and stronger phylogenetic signals of phoD-harboring bacteria at high elevations (> 1500 m) than at low elevations (< 1500 m). Stochastic processes dominate community assembly of phoD-harboring bacteria at high elevations, whereas stochastic and deterministic processes mediate community assembly of phoD-harboring bacteria at low elevations. Additionally, the phoD-harboring bacterial community is less environmentally constrained. The research team resets seven elevation thresholds (i.e., 1000, 1100, 1200, 1700, 1900, 2100, and 2500 m) to verify the robustness of the conclusions based on biotic diversity characteristic in the Shennongjia primeval forest. The additional analysis indicates that the results are robust with elevation ranges of 1100–1500 m.
By considering rare and abundant taxa, the researchers find that abundant phoD-harboring bacteria exhibit closer phylogenetic clustering and stronger phylogenetic signals, while rare taxa display higher community diversity and broader environmental breadths. Stochasticity dominates community assemblies of both rare and abundant phoD-harboring bacteria, and soil temperature adjusts the balance between stochastic and deterministic processes. The results emphasize that rare phoD-harboring bacteria present stronger environmental adaptation at the taxonomic level, whereas abundant taxa exhibit stronger environmental adaptation at the phylogenetic level. Consequently, taxonomic α-diversity of rare rather than abundant phoD-harboring bacteria contributes significantly more to soil ecosystem multifunctionality, whereas phylogenetic α-diversity of abundant taxa displays significant effect on soil ecosystem multifunctionality.
The findings extend knowledge of the diversity maintenance of phoD-harboring bacteria and decipher diversity-driven soil ecosystem functions in the Shennongjia primeval forest. The findings clarify important ecological roles of phoD-harboring bacteria in forest ecosystem, which might guide the formulation of environmental protection measures for forests, especially the Shennongjia primeval forest.
The researches were funded by the National Natural Science Foundation of China, Fundamental Research Funds for the Central Universities, and Open Fund of Key Laboratory of Urban Land Resources Monitoring and Simulation, Ministry of Natural Resources.
The findings have been published in the SCI Journals of Geoderma and Science of the Total Environment respectively.
Associate professor WAN Wenjie is the first author of this paper, professor YANG Yuyi is the corresponding author, and the Key Laboratory of Aquatic Botany and Watershed Ecology, Wuhan Botanical Garden of the Chinese Academy of Sciences is the first institute.
Environmental adaptation and environmental constraint of phoD-harboring bacteria at low elevations and high elevations (Image by WBG)
Conceptual models revealing environmental response and stochasticity in the community assemblies of rare and abundant phoD-harboring bacteria under the influence of soil temperature (Image by WBG)