Abstract
In the study area, mining processes have led to the accumulation of a large amount of ore sand and a tailings dam was established above this artificial overburden. After a long period of restoration, the area was reclaimed by a variety of native vegetation. This study investigated four of these native grass species, namely, Bothriochloa ischaemum, Imperata cylindrica, Elymus dahuricus and Calamagrostis epigejos, having reestablished themselves after the restoration of a copper tailings dam built in 1969 in Shanxi Province, China. We analyzed the fungal community structure in the soil and the phyllosphere of the four native grass species using high-throughput sequencing. Results showed that the soil of the tailings dam was weakly alkaline and copper (Cu) was the most pervasive element present. Ascomycota were the dominant fungal taxa in the soil and the phyllosphere of all four native grass species, for which total soil nitrogen (N) content was an influencing factor. Basidiomycota was positively correlated to cadmium (Cd), which can additionally be used as an indicator of Cd pollution in copper tailings dams. Among the four native grass species, Nectriaceae was the dominant fungal family found exclusively in B. ischaemum; Meruliaceae and Phaeosphaeriaceae were the dominant fungal families of E. dahuricus; Cordycipitaceae and Sporormiaceae were only found in C. epigejos. However, we found no evidence of a dominant fungal family in I. cylindrica. Furthermore, Erythrobasidiales sp., which had the highest betweenness centrality after network analysis, was identified as the key fungal species in all four native grass species.
Highlights
As the basis of agricultural production and productive resources, soil is an agent of plant growth.Soil moisture and nutrients necessary for plant growth are absorbed by roots
Pezizomycetes was identified in I. cylindrica and C. epigejos; Leotiomycetes was identified in I. cylindrical and B. ischaemum; and in I. cylindrica and C. epigejos; Leotiomycetes was identified in I. cylindrical and B. ischaemum; Ustilaginomycetes was identified in E. dahuricus and B. ischaemum
We found that Ascomycota was mainly affected by total nitrogen (TN) and the relative abundance of Basidiomycota was positively correlated to Cd, which can be used as an indicator of Cd pollution in copper mining areas
Summary
Soil moisture and nutrients necessary for plant growth are absorbed by roots. Soil microorganisms are the principal decomposers of plant, litter, and animal residue and they play a major role in the native cycle of matter and the transformation of soil organic matter (SOC) and inorganic matter [1]. Fungi play an important role in soil microbial communities and are involved in a variety of functions associated with soil ecosystems [2]. Being an important member of the soil microbial community, soil fungi in conjunction with other microorganisms participate in the material circulation and energy flow of ecosystems [3]. Soil fungi participate in the nutrient cycle and are one of the basic components of the ecosystem food chain, from which other organisms form mutually
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
