Magnall, J. M., Hayward, N., Gleeson, S. A., Schleicher, A., Dalrymple, I., King, R., Mahlstadt, N. (2021) The Teena Zn-Pb Deposit (McArthur Basin, Australia) Part II: Carbonate Replacement Sulfide Mineralization During Burial Diagenesis—Implications for Mineral Exploration. Economic Geology, 116 (8) 1769-1801 doi:10.5382/econgeo.4845
| Reference Type | Journal (article/letter/editorial) | ||
|---|---|---|---|
| Title | The Teena Zn-Pb Deposit (McArthur Basin, Australia). Part II: Carbonate Replacement Sulfide Mineralization During Burial Diagenesis—Implications for Mineral Exploration | ||
| Journal | Economic Geology | ||
| Authors | Magnall, J. M. | Author | |
| Hayward, N. | Author | ||
| Gleeson, S. A. | Author | ||
| Schleicher, A. | Author | ||
| Dalrymple, I. | Author | ||
| King, R. | Author | ||
| Mahlstadt, N. | Author | ||
| Magnall, J. M. | Author | ||
| Hayward, N. | Author | ||
| Gleeson, S. A. | Author | ||
| Schleicher, A. | Author | ||
| Dalrymple, I. | Author | ||
| King, R. | Author | ||
| Mahlstadt, N. | Author | ||
| Year | 2021 (December 1) | Volume | 116 |
| Page(s) | 1769-1801 | Issue | 8 |
| Publisher | Society of Economic Geologists | ||
| DOI | doi:10.5382/econgeo.4845Search in ResearchGate | ||
| Generate Citation Formats | |||
| Classification | Not set | LoC | Not set |
| Mindat Ref. ID | 13220256 | Long-form Identifier | mindat:1:5:13220256:7 |
| GUID | 0 | ||
| Full Reference | Magnall, J. M., Hayward, N., Gleeson, S. A., Schleicher, A., Dalrymple, I., King, R., Mahlstadt, N. (2021) The Teena Zn-Pb Deposit (McArthur Basin, Australia) Part II: Carbonate Replacement Sulfide Mineralization During Burial Diagenesis—Implications for Mineral Exploration. Economic Geology, 116 (8) 1769-1801 doi:10.5382/econgeo.4845 | ||
| Plain Text | Magnall, J. M., Hayward, N., Gleeson, S. A., Schleicher, A., Dalrymple, I., King, R., Mahlstadt, N. (2021) The Teena Zn-Pb Deposit (McArthur Basin, Australia) Part II: Carbonate Replacement Sulfide Mineralization During Burial Diagenesis—Implications for Mineral Exploration. Economic Geology, 116 (8) 1769-1801 doi:10.5382/econgeo.4845 | ||
| In | (2021, December) Economic Geology Vol. 116 (8) Society of Economic Geologists | ||
| Abstract/Notes | Divergent genetic models have been proposed for clastic dominant (CD-type) massive sulfide Zn-Pb mineralization in the Proterozoic Carpentaria Zn Province. Due to varying degrees of tectonic overprint, it has been difficult to accurately constrain structural and paragenetic timing aspects of the CD-type genetic model, and the most basic timing constraints (syngenetic vs. epigenetic, synextension vs. syninversion) remain debated. The recently discovered Teena Zn-Pb deposit is hosted by an exceptionally well preserved subbasin that permits relative timing relationships to be well defined. Using a combination of geophysical, structural, sedimentological, and petrographic datasets, a new model for subbasin development and syndiagenetic hydrothermal replacement mineralization is developed for the Teena mineral system. At Teena, sulfide mineralization was deposited from lateral fluid flow beneath an impermeable seal several hundred meters below the paleosurface and maximum flood surface, after formation of fine-grained diagenetic pyrite (py1) and dolomite nodules. Sulfide mineralization resulted from syndiagenetic carbonate replacement and pore space cementation where thermochemical sulfate reduction took place. The sulfide mineralization is therefore partly cospatial but not cogenetic with its thick pyritic hanging wall, and its lateral alteration footprint is much smaller than predicted by sedimentary exhalative (SEDEX) models. An additional zone of low-grade Zn-Pb mineralization in the footwall W-Fold Shale Member represents a different style of mineralization not previously reported for Carpentaria CD-type Zn deposits: it is associated with strata-bound lenses of hydrothermal dolomite (HTD) that formed by both replacement and carbonate dissolution and infill, which yielded diverse cavity-infill textures that include coarse-bladed dolomite fans cemented by interstitial sphalerite, dolomite, and quartz. Volumetrically minor Zn mineralization is also present in a fault conduit hydrothermal breccia and in hanging-wall synorogenic vein sets derived by hydrothermal leaching and remobilization of Zn from the underlying mineralized zones. Whereas both the Teena and nearby McArthur River Zn-Pb deposits are located along the northern margin of the 3rd-order Hot Spring-Emu subbasin, they formed in separate 4th-order subbasins in association with local extensional growth faults. Growth fault movement in the Teena subbasin was initiated during deposition of the W-Fold Shale Member and persisted episodically until a weak structural disconformity associated with sedimentary facies regression developed in the Upper HYC unit. Shifting patterns in depocenter location, sedimentary facies development, mineralization, and alteration zonation are attributed to progressive growth and linkage of segments of a regionally anomalous ENE-trending, synsedimentary fault zone. Similar patterns of extensional subbasin development were repeated in other Zn-mineralized subbasins throughout the River supersequence across the northern Carpentaria Zn Province, and formed in response to a short-lived episode of north-northwest–south-southeast regional extension around ca 1640 ± 5 Ma, triggered by far-field subduction events. | ||
Map of Localities
Locality Pages
| Locality | Citation Details |
|---|---|
| Teena Deposit, Borroloola, Roper Gulf Region, Northern Territory, Australia |
Mineral Occurrences
| Locality | Mineral(s) |
|---|---|
| Teena Deposit, Borroloola, Roper Gulf Region, Northern Territory, Australia | ⓘ Albite, ⓘ Ankerite, ⓘ Arenite, ⓘ Breccia, ⓘ Chlorite Group, ⓘ Dolomite, ⓘ Dolostone, ⓘ Evaporite, ⓘ Feldspar Group, ⓘ Galena, ⓘ Hematite, ⓘ Hydrothermal breccia, ⓘ Illite, ⓘ K Feldspar, ⓘ Microcline, ⓘ Mudstone, ⓘ Muscovite, ⓘ Orthoclase, ⓘ Phengite, ⓘ Pyrite, ⓘ Quartz, ⓘ Sandstone, ⓘ Sedimentary breccia, ⓘ Shale, ⓘ Siltstone, ⓘ Sphalerite, ⓘ Tuff, ⓘ Zircon |
See Also
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