Growth rate as a link between microbial diversity and soil biogeochemistry

生物地球化学 生态系统 生物地球化学循环 生物量(生态学) 微生物生态学 人口 环境科学 生态学 陆地生态系统 生物 社会学 遗传学 人口学 细菌
作者
Megan M. Foley,Bram WG Stone,A. Tristan,Noah W. Sokol,Benjamin J. Koch,Steven J. Blazewicz,Paul Dijkstra,Michaela Hayer,Kirsten Hofmockel,Brianna Finley,Michelle C. Mack,Jane C. Marks,Rebecca L. Mau,Victoria Monsaint-Queeney,Ember M. Morrissey,Jeffrey Propster,Alicia M. Purcell,Egbert Schwartz,Jennifer Pett‐Ridge,Noah Fierer
出处
期刊:Nature Ecology and Evolution [Nature Portfolio]
卷期号:8 (11): 2018-2026 被引量:27
标识
DOI:10.1038/s41559-024-02520-7
摘要

Measuring the growth rate of a microorganism is a simple yet profound way to quantify its effect on the world. The absolute growth rate of a microbial population reflects rates of resource assimilation, biomass production and element transformation-some of the many ways in which organisms affect Earth's ecosystems and climate. Microbial fitness in the environment depends on the ability to reproduce quickly when conditions are favourable and adopt a survival physiology when conditions worsen, which cells coordinate by adjusting their relative growth rate. At the population level, relative growth rate is a sensitive metric of fitness, linking survival and reproduction to the ecology and evolution of populations. Techniques combining omics and stable isotope probing enable sensitive measurements of the growth rates of microbial assemblages and individual taxa in soil. Microbial ecologists can explore how the growth rates of taxa with known traits and evolutionary histories respond to changes in resource availability, environmental conditions and interactions with other organisms. We anticipate that quantitative and scalable data on the growth rates of soil microorganisms, coupled with measurements of biogeochemical fluxes, will allow scientists to test and refine ecological theory and advance process-based models of carbon flux, nutrient uptake and ecosystem productivity. Measurements of in situ microbial growth rates provide insights into the ecology of populations and can be used to quantitatively link microbial diversity to soil biogeochemistry.
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