Impact of sub-zero temperatures on the fungal community composition and diversity in short-term petroleum polluted temperate soils

C. Okonkwo, J. Li, N. Liu
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Abstract

Climate change is already altering the temperate ecosystems and as a result these ecosystems are now subjected to increased incidence of freezing and warming events. To understand the impact of sub-zero temperatures on the fungal communities in temperate soils, three soils namely clean natural soil (CNS), short term diesel oil polluted (SDS) and crude oil polluted (SCS) from a temperate region in Northern China were subjected to freezing and thawing temperatures ranging from –20 to 0C for 32 days. This study monitors and compares the changes in fungal community composition and diversity in clean and short-term petroleum polluted soils at specific temperature points (20, 0, –10 and –20C) during the laboratory-controlled freeze-thaw experiments. Structural analysis of the fungal community with 18S RNA gene analysis revealed that the sub-zero temperatures caused distinct shifts in the fungal phylum composition of the temperate soils during soil freezing phase and thawing phase respectively. The community in CNS was most responsive to the sub-zero temperature changes among the studied soil types. The thawing sub-zero temperatures were characterized by decreased community richness in the clean soil while the short-term polluted soils SDS and SCS increased in richness. Overall, our results established that the fungal community composition and diversity in the polluted soil types were more adaptable to the sub-zero temperature variations during soil freezing and thawing conditions when compared to those in the clean natural soil, suggesting that the native fungal communities present in the temperate soils with different contamination profiles displayed varying levels of cold survivability.
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低温对短期石油污染温带土壤真菌群落组成和多样性的影响
气候变化已经改变了温带生态系统,因此这些生态系统现在受到越来越多的冰冻和变暖事件的影响。为了解低温对温带土壤真菌群落的影响,以中国北方温带地区洁净自然土壤(CNS)、短期柴油污染土壤(SDS)和原油污染土壤(SCS)为研究对象,在-20 ~ 0℃冻融温度下进行了32 d的研究。本研究在实验室控制的冻融实验中,监测和比较了清洁和短期石油污染土壤在特定温度点(20、0、-10和- 20℃)下真菌群落组成和多样性的变化。利用18S RNA基因分析对温带土壤真菌群落结构进行了分析,发现低温对土壤冻结期和解冻期真菌门组成的影响明显。在研究的土壤类型中,CNS群落对零下温度变化的响应最为明显。在低温解冻过程中,清洁土壤的群落丰富度降低,而短期污染土壤SDS和SCS的群落丰富度增加。总体而言,研究结果表明,污染土壤类型的真菌群落组成和多样性比干净的自然土壤更能适应土壤冻融过程中低于零度的温度变化,这表明温带土壤中不同污染状况的本地真菌群落表现出不同程度的冷生存能力。
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来源期刊
CiteScore
1.80
自引率
0.00%
发文量
9
期刊介绍: Current Research in Environmental & Applied Mycology (Journal of Fungal Biology) is an international peer-reviewed journal with swift publication. This includes reviews of research advances and methodology and articles in applied and environmental mycology. Current Research in Environmental & Applied Mycology has no page charges or open access charges and offers a free outlet for the publications of the mycology community. All manuscripts will undergo peer review before acceptance. Copyright is retained by the authors.
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