Bourceret Amélia, Cébron Aurélie, Tisserant Emilie, Poupin Pascal, Bauda Pascale, Beguiristain Thierry, Leyval Corinne
CNRS, LIEC UMR7360, Faculté des Sciences et Technologies, BP70239, 54506, Vandoeuvre-lès-Nancy, France.
Université de Lorraine, LIEC UMR7360, Faculté des Sciences et Technologies, BP 70239, 54506, Vandoeuvre-lès-Nancy, France.
Microb Ecol. 2016 Apr;71(3):711-24. doi: 10.1007/s00248-015-0682-8. Epub 2015 Oct 6.
Industrial wasteland soils with aged PAH and heavy metal contaminations are environments where pollutant toxicity has been maintained for decades. Although the communities may be well adapted to the presence of stressors, knowledge about microbial diversity in such soils is scarce. Soil microbial community dynamics can be driven by the presence of plants, but the impact of plant development on selection or diversification of microorganisms in these soils has not been established yet. To test these hypotheses, aged-contaminated soil samples from a field trial were collected. Plots planted with alfalfa were compared to bare soil plots, and bacterial and fungal diversity and abundance were assessed after 2 and 6 years. Using pyrosequencing of 16S rRNA gene and ITS amplicons, we showed that the bacterial community was dominated by Proteobacteria, Actinobacteria, and Bacteroidetes and was characterized by low Acidobacteria abundance, while the fungal community was mainly represented by members of the Ascomycota. The short-term toxic impact of pollutants usually reduces the microbial diversity, yet in our samples bacterial and fungal species richness and diversity was high suggesting that the community structure and diversity adapted to the contaminated soil over decades. The presence of plants induced higher bacterial and fungal diversity than in bare soil. It also increased the relative abundance of bacterial members of the Actinomycetales, Rhizobiales, and Xanthomonadales orders and of most fungal orders. Multivariate analysis showed correlations between microbial community structure and heavy metal and PAH concentrations over time, but also with edaphic parameters (C/N, pH, phosphorus, and nitrogen concentrations).
受到老化多环芳烃(PAH)和重金属污染的工业废弃地土壤,是污染物毒性已持续数十年的环境。尽管群落可能已很好地适应了压力源的存在,但关于此类土壤中微生物多样性的知识却很匮乏。土壤微生物群落动态可能受植物存在的驱动,然而植物发育对这些土壤中微生物的选择或多样化的影响尚未确定。为了验证这些假设,我们采集了来自田间试验的老化污染土壤样本。将种植苜蓿的地块与裸土地块进行比较,并在2年和6年后评估细菌和真菌的多样性及丰度。通过对16S rRNA基因和ITS扩增子进行焦磷酸测序,我们发现细菌群落以变形菌门、放线菌门和拟杆菌门为主,其特征是酸杆菌门丰度较低,而真菌群落主要由子囊菌门成员构成。污染物的短期毒性影响通常会降低微生物多样性,但在我们的样本中,细菌和真菌的物种丰富度及多样性很高,这表明群落结构和多样性在数十年间已适应了污染土壤。植物的存在比裸土诱导出更高的细菌和真菌多样性。它还增加了放线菌目、根瘤菌目和黄单胞菌目细菌成员以及大多数真菌目的相对丰度。多变量分析表明,微生物群落结构与重金属和PAH浓度随时间变化相关,同时也与土壤参数(碳氮比、pH值、磷和氮浓度)相关。
