Abstract
Diversity in bacterial communities was investigated along a petroleum hydrocarbon content gradient (0–0.4043 g/g) in surface (5–10 cm) and subsurface (35–40 cm) petroleum-contaminated soil samples from the Dagang Oilfield, China. Using 16S rRNA Illumina high-throughput sequencing technology and several statistical methods, the bacterial diversity of the soil was studied. Subsequently, the environmental parameters were measured to analyze its relationship with the community variation. Nonmetric multidimensional scaling and analysis of similarities indicated a significant difference in the structure of the bacterial community between the nonpetroleum-contaminated surface and subsurface soils, but no differences were observed in different depths of petroleum-contaminated soil. Meanwhile, many significant correlations were obtained between diversity in soil bacterial community and physicochemical properties. Total petroleum hydrocarbon, total organic carbon, and total nitrogen were the three important factors that had the greatest impacts on the bacterial community distribution in the long-term petroleum-contaminated soils. Our research has provided references for the bacterial community distribution along a petroleum gradient in both surface and subsurface petroleum-contaminated soils of oilfield areas.
Highlights
Microorganisms are the decomposers that play an indispensable role in the material exchange and energy operations of the ecosystem [1]
We have focused on the diversity of the soil bacterial community and its correlation with environmental factors in the oil-contaminated soils of the Dagang Oilfield
The range of the total petroleum hydrocarbon (TPH) gradient was 0–0.4043 g/g, water content (WC) gradient was 0.1128–0.4070 g/g, pH gradient was 7.6–8.9, electrical conductivity (EC) gradient was 735–8150 μs/cm, and total organic carbon (TOC) gradient was 6.880–172.000 mg/g. These environmental factors have a wide range of values, especially for TPH
Summary
Microorganisms are the decomposers that play an indispensable role in the material exchange and energy operations of the ecosystem [1]. High energy efficiency, advanced petroleum extraction technology, and widely distributed oil wells promote the use of petroleum in industries. Xueke Feng and Zhen Liu have contributed to this work. Various petroleum industry activities have resulted in serious oil contamination in the environment [2]. Petroleum pollution affects the growth and reproduction of many kinds of microorganisms, resulting in changes in the soil microbial diversity [3]
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