2018
DOI: 10.3390/min8080343
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The Evolution, Current Status, and Future Prospects of Using Biotechnologies in the Mineral Extraction and Metal Recovery Sectors

Abstract: The current global demand in terms of both the amounts and range of metals for industrial and domestic use greatly exceeds that at any previous time in human history. Recycling is inadequate to meet these needs and therefore mining primary metal ores will continue to be a major industry in the foreseeable future. The question of how metal mining can develop in a manner which is less demanding of energy and less damaging of the environment in a world whose population is increasingly aware of, and concerned abou… Show more

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Cited by 88 publications
(48 citation statements)
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“…can catalyze the dissimilatory oxidation of sulfur compounds, some members of the genus grow by oxidizing ferrous iron, using oxygen as electron acceptor [2]. These combined physiological traits are used extensively in biotechnological applications, including the biomining of metal sulfide ores [3]. From a fundamental perspective, the acidithiobacilli are model bacteria for the study of chemolithotrophic energy conversion reactions and pathways under acidic conditions (reviewed in ref.…”
Section: Introductionmentioning
confidence: 99%
“…can catalyze the dissimilatory oxidation of sulfur compounds, some members of the genus grow by oxidizing ferrous iron, using oxygen as electron acceptor [2]. These combined physiological traits are used extensively in biotechnological applications, including the biomining of metal sulfide ores [3]. From a fundamental perspective, the acidithiobacilli are model bacteria for the study of chemolithotrophic energy conversion reactions and pathways under acidic conditions (reviewed in ref.…”
Section: Introductionmentioning
confidence: 99%
“…Compared to the traditional mineral processing technology like ore smelting/toasting, biomining is more attractive regarding to its lower energy costs and also is more environmentally friendly. In addition, due to the autotrophic lifestyle of most bioleaching microbes, bioleaching involves less carbon footprints (CO 2 fixation by autotrophs) compared to smelting operations (CO 2 emission) [2]. Biomining is an increasingly applied biotechnological procedure for processing of ores in the mining industry (biohydrometallurgy) [3].…”
Section: Introductionmentioning
confidence: 99%
“…Nitrogen (e.g., ammonium) and phosphorus (e.g., phosphates) are important for farming and have many external uses, such as fish and animal feeds and biofuels. For instance, several studies have reported that about 5-7% of global energy production is consumed for the mining of phosphorus-containing rocks [39][40][41][42]. However, research has reported that inefficient utilization of phosphorus will be the main cause of increased eutrophication and leakage of fertilizers, detergent and sewage containing phosphorus into water bodies [43].…”
Section: Nitrogen-and Phosphorus-based Nutrientsmentioning
confidence: 99%