| Summary: | Thesis (M.S.) University of Alaska Fairbanks, 2016 A series of investigations and tests vetting the proprietary Mobile Metal Ion™ (MMI) technique for its effectiveness specifically in regards to identify Au concentrations in the subsurface. The Marigold Mine, north central NV, and the Gil Prospect, Interior AK, near Fairbanks, provide two site areas under active exploration and development in drastically contrasting environments. MMI has been widely available as an alternative to conventional soil geochemical methods since the 1990's, during which time it has been used successfully to identify several base metal deposits, mostly in arid climates. Criticisms and reluctance from industry to use the method generally stem from the poor understanding of ion migration mechanisms in the subsurface, and the proprietary extractants' undisclosed composition. While MMI has shown promise in the identification of large base metal deposits, Au is significantly less mobile than other metals at the near surface; a detailed investigation of MMI's ability to identify buried Au deposits is yet to be documented. This thesis conducts a critical review of MMI's overall effectiveness at identifying Au in the subsurface through a combination of small studies investigating both its analytical and geological reproducibility, and comparisons of soil anomalies to subsurface Au identified through drilling. Marigold areas tested with MMI (2007-2009, 2012) are currently being mined, allowing best-case scenario comparisons between ore grade and surface response; whereas at Gil investigations compare MMI responses to total organic carbon (TOC) profiles in soil cores, and test the method's usefulness in variably permafrost-rich soils. Both sites provide comparisons to conventional methods illustrating: MMI's advantages over conventional techniques in situations with between 5 to <100 meters alluvial cover; ineffectiveness over deposits with >100 meters alluvial cover; an interesting case where both MMI and conventional methods identified ...
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