Locality type: | Mine |
Classification |
---|
|
Species: | 'Serpentine Subgroup' (not an IMA approved species) |
Formula: | D3[Si2O5](OH)4 |
Confirmation |
---|
|
Validity: | Confirmed |
Confirmation Methods: | XRD |
Data |
---|
|
Mineral Data: | Click here to view Serpentine Subgroup data |
Locality Data: | Click here to view Boss mine, Zeehan mineral field, Zeehan mining district, West Coast municipality, Tasmania, Australia |
Data Identifiers |
---|
|
Mindat Occurrence Record ID: | 796468 |
Long-form Identifier: | 1:3:796468:8 |
GUID (UUID V4): | fa7b8fc1-41a9-4640-a621-2f7a056e66e6 |
Nearest other occurrences of Serpentine Subgroup |
---|
|
|
0.7km (0.5 miles) | ⓘSylvester skarn (Balstrup fault), Zeehan mineral field, Zeehan mining district, West Coast municipality, Tasmania, Australia |
11.2km (7.0 miles) | ⓘNevada Creek, North Dundas, Zeehan mining district, West Coast municipality, Tasmania, Australia |
11.5km (7.2 miles) | ⓘSt Dizier mine, Mt Heemskirk mineral field, Zeehan mining district, West Coast municipality, Tasmania, Australia |
11.8km (7.3 miles) | ⓘRed Lead Mine, Dundas mineral field, Zeehan mining district, West Coast municipality, Tasmania, Australia |
11.8km (7.3 miles) | ⓘRazorback mine, Dundas mineral field, Zeehan mining district, West Coast municipality, Tasmania, Australia |
12.3km (7.6 miles) | ⓘWest Comet Mine, Dundas mineral field, Zeehan mining district, West Coast municipality, Tasmania, Australia |
12.3km (7.7 miles) | ⓘBonanza Mine (Lucky Star Mine), Dundas mineral field, Zeehan mining district, West Coast municipality, Tasmania, Australia |
12.5km (7.8 miles) | ⓘTunnel Hill Quarry, Serpentine Hill, North Dundas, Zeehan mining district, West Coast municipality, Tasmania, Australia |
12.7km (7.9 miles) | ⓘSerpentine Hill asbestos mines, Serpentine Hill, North Dundas, Zeehan mining district, West Coast municipality, Tasmania, Australia |
13.4km (8.3 miles) | ⓘMelba Mine, North Dundas, Zeehan mining district, West Coast municipality, Tasmania, Australia |
References |
---|
|
|
Reference Search (possible matching items) |
---|
| Gaines, Richard V., Skinner, H. Catherine W., Foord, Eugene E., Mason, Brian, Rosenzweig, Abraham, King, Vandall T. (1997) Dana's New Mineralogy (8th ed.) Wiley-Interscience. p.1872 | Book (edition) | Perspective Acknowledgments Introduction Descriptions of Mineral Species Abbreviations for Literature References...1702 1721 Indexes List of Mineral Names in Numerical Order List of Mineral Names in Alphabetical Order...natural history collection contained some 2500 mineral specimens, and even today, individual minerals...properties, relationships, genesis, and uses of mineral species. It appears at a time when mineralogy has...Wiley & Putnam) published in the sciences. Dana’s mineral descriptions were considerably condensed, and he | | | Book | Derbyshin: ( ooper 2005) and the promise of new mineral galleries in Edinburgh in '.!011. I hope that these...community. It is the issue ofprown::mcc (where a mineral was found). For many reasons, it is important that...a world leader in the production of e0pper. the mining areas of Cornwall and Devon became important producers...player in world zinc produ.:tion. Th· development of mining tin particular during the 18th and 19th centuries)...continue unabated despite there n '" being , ·~- link mining acti,·ity in Britain or Ireland. My original intention | | | Journal (issue) | ................. 15 W. E. Wilson The Piedmont mine, Yavapai County, Arizona ....................................... 29 B. L. Muntyan The San Manuel mine, Pinal County, Arizona ................................ 71 M. Hay & W. E. Wilson Mineral collecting at the Magma mine, . . Superior, Arizona ..........123 L. Presmyk & M. Hay Treasures of the Magma mine, Pinal County, Arizona .................................... 147 W. E. Wilson & Mark Hay The Ford mine, Pinal County, Arizona ........................ | | | Journal (article/letter/editorial) | suggests that comet 81P/ Wild 2 contains large mineral grains that appear to have formed in the inner...indicating largescale mixing in the early solar nebula (Boss, 2008). Thus, meteorites may indeed provide clues...meteorites is decreasing with thermal processing. The mineral compositional and oxygen isotopic data provide...them to their constituent minerals (including Serpentine). They show them to be similar, the difference... W., 2005. The heat capacity of the serpentine subgroup mineral berthierine (Fe2:5 Al0:5 )[Si1:5 Al0:5 | | | Journal (article/letter/editorial) | compositions are plotted within the CR chondrite field [e.g., 4-6]. Therefore, it is of great interest...Tafassasset were observed with optical microscope and mineral compositions were analyzed by FE-EPMA (JEOL JXA...troilite. Tafassasset has a similar texture and mineral assemblages to NWA 7317, but two different Tafassasset...Tafassasset PTSs show slightly different mineral abundances and textural heterogeneity is observed even...meteorites were different. Closer look of other mineral compositions also exhibits difference between NWA |
|