pH is the primary determinant of the bacterial community structure in agricultural soils impacted by polycyclic aromatic hydrocarbon pollution

Acidification and pollution are two major threats to agricultural ecosystems; however, microbial community responses to co-existed soil acidification and pollution remain less explored. In this study, arable soils of broad pH (4.26–8.43) and polycyclic aromatic hydrocarbon (PAH) gradients (0.18–20.6...

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Veröffentlicht in:	Scientific reports 2017-01, Vol.7 (1), p.40093, Article 40093
Hauptverfasser:	Wu, Yucheng, Zeng, Jun, Zhu, Qinghe, Zhang, Zhenfa, Lin, Xiangui
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Sprache:	eng
Schlagworte:	38/77 631/158/855 704/158/855 Abundance Acidic soils Acidification Agricultural ecosystems Agricultural land Aromatic hydrocarbons Bacteria Community composition Community structure Humanities and Social Sciences Hydrocarbons multidisciplinary Next-generation sequencing Nutrients Ordination pH effects Pollution Pollution levels Polycyclic aromatic hydrocarbons Polymerase chain reaction rRNA 16S Science Science (multidisciplinary) Soil acidification Soil microorganisms Soil pH Soils
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description	Acidification and pollution are two major threats to agricultural ecosystems; however, microbial community responses to co-existed soil acidification and pollution remain less explored. In this study, arable soils of broad pH (4.26–8.43) and polycyclic aromatic hydrocarbon (PAH) gradients (0.18–20.68 mg kg −1 ) were collected from vegetable farmlands. Bacterial community characteristics including abundance, diversity and composition were revealed by quantitative PCR and high-throughput sequencing. The bacterial 16S rRNA gene copies significantly correlated with soil carbon and nitrogen contents, suggesting the control of nutrients accessibility on bacterial abundance. The bacterial diversity was strongly related to soil pH, with higher diversity in neutral samples and lower in acidic samples. Soil pH was also identified by an ordination analysis as important factor shaping bacterial community composition. The relative abundances of some dominant phyla varied along the pH gradient, and the enrichment of a few phylotypes suggested their adaptation to low pH condition. In contrast, at the current pollution level, PAH showed marginal effects on soil bacterial community. Overall, these findings suggest pH was the primary determinant of bacterial community in these arable soils, indicative of a more substantial influence of acidification than PAH pollution on bacteria driven ecological processes.
doi_str_mv	10.1038/srep40093
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In this study, arable soils of broad pH (4.26–8.43) and polycyclic aromatic hydrocarbon (PAH) gradients (0.18–20.68 mg kg −1 ) were collected from vegetable farmlands. Bacterial community characteristics including abundance, diversity and composition were revealed by quantitative PCR and high-throughput sequencing. The bacterial 16S rRNA gene copies significantly correlated with soil carbon and nitrogen contents, suggesting the control of nutrients accessibility on bacterial abundance. The bacterial diversity was strongly related to soil pH, with higher diversity in neutral samples and lower in acidic samples. Soil pH was also identified by an ordination analysis as important factor shaping bacterial community composition. The relative abundances of some dominant phyla varied along the pH gradient, and the enrichment of a few phylotypes suggested their adaptation to low pH condition. In contrast, at the current pollution level, PAH showed marginal effects on soil bacterial community. 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however, microbial community responses to co-existed soil acidification and pollution remain less explored. In this study, arable soils of broad pH (4.26–8.43) and polycyclic aromatic hydrocarbon (PAH) gradients (0.18–20.68 mg kg −1 ) were collected from vegetable farmlands. Bacterial community characteristics including abundance, diversity and composition were revealed by quantitative PCR and high-throughput sequencing. The bacterial 16S rRNA gene copies significantly correlated with soil carbon and nitrogen contents, suggesting the control of nutrients accessibility on bacterial abundance. The bacterial diversity was strongly related to soil pH, with higher diversity in neutral samples and lower in acidic samples. Soil pH was also identified by an ordination analysis as important factor shaping bacterial community composition. The relative abundances of some dominant phyla varied along the pH gradient, and the enrichment of a few phylotypes suggested their adaptation to low pH condition. In contrast, at the current pollution level, PAH showed marginal effects on soil bacterial community. Overall, these findings suggest pH was the primary determinant of bacterial community in these arable soils, indicative of a more substantial influence of acidification than PAH pollution on bacteria driven ecological processes.</abstract><cop>London</cop><pub>Nature Publishing Group UK</pub><pmid>28051171</pmid><doi>10.1038/srep40093</doi><oa>free_for_read</oa></addata></record>
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subjects	38/77 631/158/855 704/158/855 Abundance Acidic soils Acidification Agricultural ecosystems Agricultural land Aromatic hydrocarbons Bacteria Community composition Community structure Humanities and Social Sciences Hydrocarbons multidisciplinary Next-generation sequencing Nutrients Ordination pH effects Pollution Pollution levels Polycyclic aromatic hydrocarbons Polymerase chain reaction rRNA 16S Science Science (multidisciplinary) Soil acidification Soil microorganisms Soil pH Soils
title	pH is the primary determinant of the bacterial community structure in agricultural soils impacted by polycyclic aromatic hydrocarbon pollution
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