The Coles Hill Uranium Deposit, Virginia, USA: Geology, Geochemistry, Geochronology, and Genetic Model

Abstract: The Coles Hill uranium deposit, with an indicated resource of about 130 Mlb of U3O8, is the largest unmined uranium deposit in the United States. The deposit is hosted in the Taconian (approx. 480–450 Ma) Martinsville igneous complex, which consists of the Ordovician Leatherwood Granite (granodiorite) and the Silurian Rich Acres Formation (diorite). The host rock was metamorphosed to orthogneiss during the Alleghanian orogeny (approx. 325–260 Ma), when it also underwent dextral strike-slip movement along the B… Show more

“…The deposit group has diverse ore stage mineral assemblages and bulk mineralogy differs substantially between adjacent deposits in the same district and even within deposits since some deposits are zoned [2,12,16,17]. Deposition of uranium can typically be shown to postdate (i.e., to vein or replace) the relatively high-temperature, feldspar-dominant hydrothermal alteration assemblage, but in some instances uranium deposition appears to be coeval with riebeckite formation (e.g., Coles Hill, [18]). Ore mineral assemblages typically contain a high proportion of refractory phases such as brannerite, U-ferropseudobrookite and an unnamed uraniferous Zr-rich mineral [2,12].…”

“…Uranium-bearing fluids were likely to have been rich in fluorine as evidenced by elevated F in syn-ore amphibole and fluorapatite [3,18,19]. The abundance of fluorapatite also suggests that the activity of aqueous phosphorous was high [18].…”

“…Uranium-bearing fluids were likely to have been rich in fluorine as evidenced by elevated F in syn-ore amphibole and fluorapatite [3,18,19]. The abundance of fluorapatite also suggests that the activity of aqueous phosphorous was high [18]. High F activity can explain several features of the deposits, namely dissolution of quartz during early stage alteration and the cotransport of U and Zr.…”

Shear-Hosted Uranium Deposits: A Review

“…The deposit group has diverse ore stage mineral assemblages and bulk mineralogy differs substantially between adjacent deposits in the same district and even within deposits since some deposits are zoned [2,12,16,17]. Deposition of uranium can typically be shown to postdate (i.e., to vein or replace) the relatively high-temperature, feldspar-dominant hydrothermal alteration assemblage, but in some instances uranium deposition appears to be coeval with riebeckite formation (e.g., Coles Hill, [18]). Ore mineral assemblages typically contain a high proportion of refractory phases such as brannerite, U-ferropseudobrookite and an unnamed uraniferous Zr-rich mineral [2,12].…”

“…Uranium-bearing fluids were likely to have been rich in fluorine as evidenced by elevated F in syn-ore amphibole and fluorapatite [3,18,19]. The abundance of fluorapatite also suggests that the activity of aqueous phosphorous was high [18].…”

“…Uranium-bearing fluids were likely to have been rich in fluorine as evidenced by elevated F in syn-ore amphibole and fluorapatite [3,18,19]. The abundance of fluorapatite also suggests that the activity of aqueous phosphorous was high [18]. High F activity can explain several features of the deposits, namely dissolution of quartz during early stage alteration and the cotransport of U and Zr.…”

Shear-Hosted Uranium Deposits: A Review

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