Fei Qin scite author profile

Microbial communities play critical roles in fixing carbon from the atmosphere and fixing it in the soils. However, the large-scale variations and drivers of these microbial communities remain poorly understood. Here, we conducted a large-scale survey across China and found that soil autotrophic organisms are critical for explaining CO 2 fluxes from the atmosphere to soils. In particular, we showed that large-scale variations in CO 2 fixation rates are highly correlated to those in autotrophic bacteria and phototrophic protists. Paddy soils, supporting a larger proportion of obligate bacterial and protist autotrophs, display four-fold of CO 2 fixation rates over upland and forest soils. Precipitation and pH, together with key ecological clusters of autotrophic microbes, also played important roles in controlling CO 2 fixation. Our work provides a novel quantification on the contribution of terrestrial autotrophic microbes to soil CO 2 fixation processes at a large scale, with implications for global carbon regulation under climate change.

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Long-term chemical fertilization-driving changes in soil autotrophic microbial community depresses soil CO2 fixation in a Mollisol

Liao

Qin

Wang

et al. 2020

Science of The Total Environment

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Sources and the distribution of heavy metals in the particle size of soil polluted by gold mining upstream of Miyun Reservoir, Beijing: implications for assessing the potential risks

Qin

et al. 2014

Environ Monit Assess

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Mining has been carried out upstream of Miyun Reservoir, Beijing, for several decades, and has caused metal emissions to the environment, threatening human health. We conducted a soil survey to assess metal contamination in this area and to determine distribution of heavy metals in the particle size. We attempted to determine the possible sources of the metals and the significance of metals in the fine particle fractions to soil risk assessments. Thirty-four soil samples were collected, and eight samples were partitioned into seven size fractions. Most of the metal concentrations in the soils were higher than the background levels in Beijing, and the metal concentrations and total organic matter (TOC) contents generally increased as the particle size decreased. Each metal except Hg significantly positively correlated with the TOC. The metals in the coarse-grained soils were mainly derived from parent materials, but the metals in the fine fractions were mostly anthropogenic. Statistical analyses showed that there were three metal sources: Cd, Cu, Hg, Pb, and Zn had anthropogenic sources; Co, Cr, Ni, and V had mixed anthropogenic and natural sources; and As and Be had natural sources. The trace metals were primarily in the clay and fine silt fractions, and they might pose health risks through the inhalation of resuspended soil particles (PM10 and PM2.5). The elevated accumulation factors, enrichment factors, and ecological risk indices for the metals in the fine fractions suggest that risk assessments should be based on the fine particle size.

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Soil aggregate modulates microbial ecological adaptations and community assemblies in agricultural soils

Liao

Hao

Zhang

et al. 2022

Soil Biology and Biochemistry

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Fei Qin

Evaluation of trace elements and identification of pollution sources in particle size fractions of soil from iron ore areas along the Chao River

Microbial autotrophy explains large‐scale soil CO₂ fixation

Long-term chemical fertilization-driving changes in soil autotrophic microbial community depresses soil CO2 fixation in a Mollisol

Sources and the distribution of heavy metals in the particle size of soil polluted by gold mining upstream of Miyun Reservoir, Beijing: implications for assessing the potential risks

Soil aggregate modulates microbial ecological adaptations and community assemblies in agricultural soils

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Fei Qin

Evaluation of trace elements and identification of pollution sources in particle size fractions of soil from iron ore areas along the Chao River

Microbial autotrophy explains large‐scale soil CO2 fixation

Long-term chemical fertilization-driving changes in soil autotrophic microbial community depresses soil CO2 fixation in a Mollisol

Sources and the distribution of heavy metals in the particle size of soil polluted by gold mining upstream of Miyun Reservoir, Beijing: implications for assessing the potential risks

Soil aggregate modulates microbial ecological adaptations and community assemblies in agricultural soils

Contact Info

Product

Resources

About

Microbial autotrophy explains large‐scale soil CO₂ fixation