Resistance and resilience of Cu-polluted soil after Cu perturbation, tested by a wide range of soil microbial parameters |
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Authors: | Huan Deng Xiao-Fang Li Wang-Da Cheng & Yong-Guan Zhu |
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Institution: | Research Center for Eco-Environmental Sciences, Chinese Academy of Sciences, Beijing, China;;Institute of Urban Environment, Chinese Academy of Sciences, Xiamen, China;and;Jiaxing Academy of Agricultural Sciences, Jiaxing, China |
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Abstract: | Copper (Cu)-polluted and unpolluted soils were used to study the effect of initial pollution on soil biological resistance and resilience by measuring the responses to perturbation using different parameters. Microbial biomass carbon, substrate-induced respiration and copy numbers of 16S rRNA gene were grouped as general parameters, while potential ammonia oxidation rate and copy numbers of amo A gene were grouped as specific functions. In addition, to illustrate how initial pollution affects soil biological resistance and resilience following secondary perturbation, the microbial community structure, together with free Cu2+ activities (Cu2+]) in soil pore water and soil pH were also measured after secondary perturbation. Results showed that general parameters were more stable than specific ones. High Cu2+] and low pH in soil pore water induced by Cu addition may lead to apparently low resistance and resilience, whereas the formation of a tolerant community after Cu pollution, secondary perturbation and Cu aging may contribute to resistance and resilience. Analysis of the phospholipid fatty acids profile showed that microbial community structure shifted along with the Cu2+] gradient. The microbial community structure of the control soil was both resistant and resilient to 400 mg kg?1 Cu perturbation, whereas other treatments were neither resistant nor resilient. |
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Keywords: | ammonia oxidation free copper activity general parameters specific parameters resilience |
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