Microbial species performance responses to environmental changes: genomic traits and nutrient availability

	Microbial species performance responses to environmental changes: genomic traits and nutrient availability
	Hu, Ang; Ren, Minglei; Wang, Jianjun
刊名	ECOLOGY
	2021
卷号	102 期号:7
英文摘要	How microbial species performance indicators, such as growth rate and carbon assimilation rate, respond to environmental changes is a challenging question, especially for complex communities. This limits our ability to understand how species performance responses to environmental changes (that is, species environmental responses) of microbes could be linked to genomic traits and nutrient availability. Based on stable isotope labeling of DNA, we propose a new approach with effect-size metrics to quantify the species environmental responses of microbes by comparing the species performance between defined control and treatment groups. The species performance within microbial communities of the natural or altered environments could be quantitatively determined with quantitative stable isotope probing (qSIP). We further apply this approach, namely effect-size qSIP, to measure species environmental responses upon carbon and nitrogen additions for soil bacteria on mountainsides and to understand their responses from the perspective of genomic traits. Towards high elevations, there is a stronger nitrogen limitation that is indicated by the higher aggregated responses, measured as community-weighted means, of bacterial growth rate upon nitrogen additions. The aggregated responses are further explained by genomic traits, which show higher percentages of significant Kyoto Encyclopedia of Genes and Genomes (KEGG) orthologues (KOs) and more diverse KEGG pathways under nutrient additions including nitrogen, and further improve the explanatory power of microbial environmental responses. Nitrogen-induced responses at the species level show the strongest associations with essential KOs for rare species, whereas carbon-induced responses show the strongest associations for dominant species. We conclude that, in addition to environmental determinants such as nitrogen limitation, genomic traits are extremely important for predicting microbial environmental responses at both the community and species levels. Taking advantage of this new approach at the species level, we reveal that rare and dominant species differentially respond to nutrient enrichment via their metabolic traits. The approach and findings can lead to a more holistic understanding of microbial environmental responses in natural habitats, which will be essential for predicting microbial community responses to global environmental changes.
内容类型	期刊论文
源URL	[http://159.226.73.51/handle/332005/20516]
专题	中国科学院南京地理与湖泊研究所
推荐引用方式 GB/T 7714	Hu, Ang,Ren, Minglei,Wang, Jianjun. Microbial species performance responses to environmental changes: genomic traits and nutrient availability[J]. ECOLOGY,2021,102(7).
APA	Hu, Ang,Ren, Minglei,&Wang, Jianjun.(2021).Microbial species performance responses to environmental changes: genomic traits and nutrient availability.ECOLOGY,102(7).
MLA	Hu, Ang,et al."Microbial species performance responses to environmental changes: genomic traits and nutrient availability".ECOLOGY 102.7(2021).