Diverse Sulfuriferula spp. from sulfide mineral weathering environments oxidize ferrous iron and reduced inorganic sulfur compounds
Kathryn K. Hobart, Gabriel M. Walker, Joshua M. Feinberg, Jake V. Bailey, Daniel S. Jones

TL;DR
Sulfuriferula bacteria can oxidize sulfur and iron compounds in mine waste, contributing to mineral breakdown and biogeochemical cycles.
Contribution
The study reveals the metabolic and genomic diversity of Sulfuriferula strains in sulfide mineral weathering environments.
Findings
Sulfuriferula strains oxidize ferrous iron and reduced sulfur compounds in pH 4.5–7 conditions.
Each strain uses distinct pathways for sulfur oxidation and shows diverse nitrogen metabolism.
These bacteria likely play a key role in sulfide mineral breakdown in mine waste environments.
Abstract
Microorganisms are important catalysts for the oxidation of reduced inorganic sulfur compounds. One environmentally important source of reduced sulfur is metal sulfide minerals that occur in economic mineral deposits and mine waste. Previous research found that Sulfuriferula spp. were abundant and active in long-term weathering experiments with simulated waste rock and tailings from the Duluth Complex, Northern Minnesota. We, therefore, isolated several strains of Sulfuriferula spp. from these long-term experiments and characterized their metabolic and genomic properties to provide insight into microbe-mineral interactions and the microbial biogeochemistry in these and other moderately acidic to circumneutral environments. The Sulfuriferula strains are all obligate chemolithoautotrophs capable of oxidizing inorganic sulfur compounds and ferrous iron. The strains grew over different pH…
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Taxonomy
TopicsMine drainage and remediation techniques · Metal Extraction and Bioleaching · Minerals Flotation and Separation Techniques
