中文摘要：

采集安徽某铁矿酸性矿山废水库周边的废矿石样品,分析了样品的主要物化参数,进而利用分子生物学方法,构建真核生物18S rDNA克隆文库,对样品中的真核生物多样性和群落结构进行了研究.结果表明,该区域呈现强酸性,pH均在3以下,Fe、SO2-4、P、NO-3-N含量都显示同一个趋势,即裸露的废矿石样品PD和1M的含量高于有植被覆盖的样品LW和XC.4个样品含有子囊菌门（Ascomycota）、担子菌门（Basidiomycota）、球囊菌门（Glomeromycota）和节肢动物门（Arthropoda）这4类真核生物.其中球囊菌门可以与植物形成绝对共生关系,是早期植物适应陆地环境的关键.包含球囊菌门的样品LW和XC,有植被保护,其生物多样性比裸露的废矿石样品PD和1M的生物多样性更丰富.此外,还发现样品中存在很多对极低pH、重金属有耐受力的菌种,如Penicillium purpurogenum、Chaetothyriales sp.、Staninwardia suttonii等.

英文摘要：

The abandoned mineral samples were collected in an acid mine drainage area in Anhui Province. Molecular ecological methods were used to construct 18S rDNA clone libraries after analyzing the main physicoehemieal parameters, and then the microeukaryotic diversity and community structure in the acid mine drainage area were studied. The results showed that the region was strongly acidic （pH 〈 3） , and the concentrations of Fe, SO42- , P, NO3- -N showed the same trend, all higher in the bare waste ore samples PD and 1 M than in the vegetation covered samples LW and XC. Four eukaryotic phyla were detected in the abandoned mineral samples： Ascomyeota, Basidiomyeota, Glomeromyeota and Arthropoda. Glomeromycota can form an absolute symbiotic relationship with the plant, and it was a key factor for early plant to adapt the terrestrial environment. The biodiversity of the vegetation covered samples LW and XC, which contained Glomeromycota, was much higher than that of the bare abandoned rock samples PD and 1M. Moreover, many sequences in the libraries were closely related to some isolated strains, which are tolerant to low pH and heavy metals, such as Penicillium purpurogenum, Chaetothyriales sp. and Staninwardia suttonii.