4.7 Article

Responses of microbial community to geochemical parameters on vertical depth in bioheap system of low-grade copper sulfide

Journal

SCIENCE OF THE TOTAL ENVIRONMENT
Volume 869, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.scitotenv.2023.161752

Keywords

Bioleaching; Leaching heap; Leaching solution; 16S rRNA gene sequencing; Microbial community structure

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Monitoring the microbial community in bioleaching system is crucial for controlling process parameters and enhancing leaching efficiency. This study investigated the geo-chemical parameters and microbial community structure in a bioleaching heap and leachate. The results revealed that pH, Cu, Fe, and total sulfur contents were major factors shaping the microbial communities in the bioleaching system. The abundance of sulfur and iron oxidizers was significantly higher in the leaching heap than in the leaching solution, while members of Leptospirillum and unclassified Archaea were abundant in the leaching solution and showed strong interactions with members of Thermoplasmatales. This study provides theoretical guidance for future process design and control of microbial community in heap leaching.
Monitoring of the microbial community in bioleaching system is essential for control process parameters and enhance the leaching efficiency. Due to the difficulty of sampling, microbial distribution, community succession and bioleaching activity along the vertical depth of bioleaching heaps remain unresolved. This study investigated the geo-chemical parameters and microbial community structure along a depth profile in a bioleaching heap and leachate. 80 ore samples at different heap depths and 9 leaching solution samples from three bioheaps of Zijin Copper Mine were collected. Microbial composition, mineral types and geochemical parameters of these samples were analyzed by 16S rRNA high-throughput sequencing and a series of chemical measurement technologies. The results revealed that the pH, Cu, Fe and the total sulfur contents were the major factors shaping the composition of the microbial communities in the bioleaching system. The extent of mineral oxidation increased as the sample depth increases, followed by the increasing of sulfur oxidizers. The abundance of sulfur and iron oxidizers including members of Acidithiobacillus, Sulfobacillus and Acidiferrobacter were significantly higher in the leaching heap than in the leaching solution, mean-while, they showed strong positive interactions with other members within the same genera and iron oxidizer Leptospirillum and Ferroplasma. Besides, Acidithiobacillus negatively interacted with heterotrophs such as Sphingobium, Exiguobacterium, Brevundimonas and so on. On the contrast, members of Leptospirillum and unclassified Archaea were significantly abundant in the leaching solution and revealed strong interactions with members of Thermoplasmatales. The main conclusion of this study, especially the leaching potential of microorganisms prevailing in bioheaps and their relationships with geochemical factors, provides theoretical guidance for future process design such as the control of processing parameters and microbial community in heap leaching.

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