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Queen Elizabeth Land, Eastern Antarctica, Antarcticai
Regional Level Types
Queen Elizabeth LandSector
Eastern AntarcticaRegion
AntarcticaContinent

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PhotosMapsSearch
Latitude & Longitude (WGS84):
77° 0' South , 27° 30' West
Latitude & Longitude (decimal):
-77.00000,-27.50000
GeoHash:
G#: 56k3ynx47
GRN:
S52W05
Locality type:
Sector
KΓΆppen climate type:
EF : Ice cap climate
Other Languages:
View 15 more...
French:
Terre de la Reine-Γ‰lisabeth, Antarctique oriental (Est Antarctique), Antarctique
German:
Queen Elizabeth Land, Ostantarktika, Antarktika
Italian:
Terra della regina Elisabetta, Antartide orientale, Antartide
Russian:
ЗСмля ΠšΠΎΡ€ΠΎΠ»Π΅Π²Ρ‹ Π•Π»ΠΈΠ·Π°Π²Π΅Ρ‚Ρ‹, Восточная Антарктида, Антарктида
Simplified Chinese:
δΌŠδΈ½θŽŽη™½ε₯³ηŽ‹εœ°, ε—ζžζ΄²
Spanish:
Tierra de la Reina Isabel, AntΓ‘rtida Oriental, AntΓ‘rtida
Anglo-Saxon:
ElisabeΓΎ CwΔ“n Land, Antarctica
Azeri:
Kraliça Elizabet Torpağı, Antarktida
Bulgarian:
ЗСмя ΠΊΡ€Π°Π»ΠΈΡ†Π° Π•Π»ΠΈΠ·Π°Π±Π΅Ρ‚, Антарктида
Czech:
ZemΔ› krΓ‘lovny AlΕΎbΔ›ty, Antarktida
Dutch:
Queen Elizabeth Land, Antarctica
Esperanto:
Lando de Reĝino Elizabeto, Antarkto
Farsi/Persian:
Ψ³Ψ±Ψ²Ω…ΫŒΩ† Ω…Ω„Ϊ©Ω‡ Ψ§Ω„ΫŒΨ²Ψ§Ψ¨Ψͺ, Ψ¬Ω†ΩˆΨ¨Ϊ―Ψ§Ω†
Hindi:
ΰ€°ΰ€Ύΰ€¨ΰ₯€ ΰ€ΰ€²ΰ€Ώΰ€œΰ€Όΰ€Ύΰ€¬ΰ₯‡ΰ€₯ ΰ€§ΰ€°ΰ€€ΰ₯€, ΰ€…ΰ€‚ΰ€Ÿΰ€Ύΰ€°ΰ₯ΰ€•ΰ€Ÿΰ€Ώΰ€•ΰ€Ύ
Japanese:
クむーン・エγƒͺアベス・ランド, 南ζ₯΅ε€§ι™Έ
Latvian:
Karalienes Elizabetes Zeme, AntarktΔ«da
Minnan / Hokkien-Taiwanese:
Queen Elizabeth Land, LÒm-ke̍k Tāi-lio̍k
Norwegian (Nynorsk):
Queen Elizabeth Land, Antarktis
Polish:
Queen Elizabeth Land, Antarktyda
Swedish:
Drottning Elizabeths land, Antarktis
Ukrainian:
ЗСмля ΠšΠΎΡ€ΠΎΠ»Π΅Π²ΠΈ Π„Π»ΠΈΠ·Π°Π²Π΅Ρ‚ΠΈ, Антарктида


Coats Land is a region in Antarctica which lies westward of Queen Maud Land and forms the eastern shore of the Weddell Sea, extending in a general northeast-southwest direction between 20ΒΊ00Β΄W and 36ΒΊ00Β΄W. The northeast part was discovered from the Scotia by William S. Bruce, leader of the Scottish National Antarctic Expedition, 1902-04. He gave the name Coats Land for James Coats, Jr., and Major Andrew Coats, the two chief supporters of the expedition. [Wikipedia]

Select Mineral List Type

Standard Detailed Gallery Strunz Chemical Elements

Mineral List

Mineral list contains entries from the region specified including sub-localities

27 valid minerals.

Rock Types Recorded

Note: data is currently VERY limited. Please bear with us while we work towards adding this information!

Rock list contains entries from the region specified including sub-localities

Select Rock List Type

Alphabetical List Tree Diagram

Detailed Mineral List:

β“˜ Akaganeite
Formula: (Fe3+,Ni2+)8(OH,O)16Cl1.25 · nH2O
Reference: Buchwald, V. & Clark Jr, R.S. (1989) Corrosion of Fe-Ni alloys by Cl-containing akaganΓ©ite (Ξ²-FeOOH): The Antarctic meteorite case. American Mineralogist 74(5&6):656-667. (May-June1989).
β“˜ 'Alkali Feldspar'
Reference: Leat, P. T., Riley, T. R., Storey, B. C., Kelley, S. P., & Millar, I. L. (2000). Middle Jurassic ultramafic lamprophyre dyke within the Ferrar magmatic province, Pensacola Mountains, Antarctica. Mineralogical Magazine, 64(1), 95-111.
β“˜ Amesite
Formula: Mg2Al(AlSiO5)(OH)4
Reference: Hall, S.H., Bailey, S.W. (1976) Amesite from Antarctica. American Mineralogist: 61(5-6): 497-499.
β“˜ 'Amphibole Supergroup'
Formula: AB2C5((Si,Al,Ti)8O22)(OH,F,Cl,O)2
Reference: Leat, P. T., Riley, T. R., Storey, B. C., Kelley, S. P., & Millar, I. L. (2000). Middle Jurassic ultramafic lamprophyre dyke within the Ferrar magmatic province, Pensacola Mountains, Antarctica. Mineralogical Magazine, 64(1), 95-111.
β“˜ Ankerite
Formula: Ca(Fe2+,Mg)(CO3)2
Reference: Leat, P. T., Riley, T. R., Storey, B. C., Kelley, S. P., & Millar, I. L. (2000). Middle Jurassic ultramafic lamprophyre dyke within the Ferrar magmatic province, Pensacola Mountains, Antarctica. Mineralogical Magazine, 64(1), 95-111.
β“˜ 'Apatite'
Formula: Ca5(PO4)3(Cl/F/OH)
Reference: Leat, P. T., Riley, T. R., Storey, B. C., Kelley, S. P., & Millar, I. L. (2000). Middle Jurassic ultramafic lamprophyre dyke within the Ferrar magmatic province, Pensacola Mountains, Antarctica. Mineralogical Magazine, 64(1), 95-111.
β“˜ Atacamite
Formula: Cu2(OH)3Cl
Reference: Ford, A. B. (1983). The Dufek intrusion of Antarctica and a survey of its minor metals and possible resources. Petroleum and mineral resources of Antarctica. US Geological Survey, Circular, 909, 51-75.
β“˜ Augite
Formula: (CaxMgyFez)(Mgy1Fez1)Si2O6
Reference: Leat, P. T., Riley, T. R., Storey, B. C., Kelley, S. P., & Millar, I. L. (2000). Middle Jurassic ultramafic lamprophyre dyke within the Ferrar magmatic province, Pensacola Mountains, Antarctica. Mineralogical Magazine, 64(1), 95-111.
β“˜ Augite var. Ferroaugite
Reference: Leat, P. T., Riley, T. R., Storey, B. C., Kelley, S. P., & Millar, I. L. (2000). Middle Jurassic ultramafic lamprophyre dyke within the Ferrar magmatic province, Pensacola Mountains, Antarctica. Mineralogical Magazine, 64(1), 95-111.
β“˜ 'Biotite'
Formula: K(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2
Reference: Leat, P. T., Riley, T. R., Storey, B. C., Kelley, S. P., & Millar, I. L. (2000). Middle Jurassic ultramafic lamprophyre dyke within the Ferrar magmatic province, Pensacola Mountains, Antarctica. Mineralogical Magazine, 64(1), 95-111.
β“˜ Bornite
Formula: Cu5FeS4
Reference: Ford, A. B. (1983). The Dufek intrusion of Antarctica and a survey of its minor metals and possible resources. Petroleum and mineral resources of Antarctica. US Geological Survey, Circular, 909, 51-75.
β“˜ Calcite
Formula: CaCO3
Reference: Leat, P. T., Riley, T. R., Storey, B. C., Kelley, S. P., & Millar, I. L. (2000). Middle Jurassic ultramafic lamprophyre dyke within the Ferrar magmatic province, Pensacola Mountains, Antarctica. Mineralogical Magazine, 64(1), 95-111.
β“˜ Chalcopyrite
Formula: CuFeS2
Reference: Ford, A. B. (1983). The Dufek intrusion of Antarctica and a survey of its minor metals and possible resources. Petroleum and mineral resources of Antarctica. US Geological Survey, Circular, 909, 51-75.
β“˜ 'Chlorite Group'
Reference: Hall, S.H., Bailey, S.W. (1976) Amesite from Antarctica. American Mineralogist: 61(5-6): 497-499.
β“˜ 'Clinopyroxene Subgroup'
Reference: Leat, P. T., Riley, T. R., Storey, B. C., Kelley, S. P., & Millar, I. L. (2000). Middle Jurassic ultramafic lamprophyre dyke within the Ferrar magmatic province, Pensacola Mountains, Antarctica. Mineralogical Magazine, 64(1), 95-111.
β“˜ Diopside
Formula: CaMgSi2O6
Reference: Leat, P. T., Riley, T. R., Storey, B. C., Kelley, S. P., & Millar, I. L. (2000). Middle Jurassic ultramafic lamprophyre dyke within the Ferrar magmatic province, Pensacola Mountains, Antarctica. Mineralogical Magazine, 64(1), 95-111.
β“˜ Diopside var. Salite
Reference: Leat, P. T., Riley, T. R., Storey, B. C., Kelley, S. P., & Millar, I. L. (2000). Middle Jurassic ultramafic lamprophyre dyke within the Ferrar magmatic province, Pensacola Mountains, Antarctica. Mineralogical Magazine, 64(1), 95-111.
β“˜ Dolomite
Formula: CaMg(CO3)2
Reference: Leat, P. T., Riley, T. R., Storey, B. C., Kelley, S. P., & Millar, I. L. (2000). Middle Jurassic ultramafic lamprophyre dyke within the Ferrar magmatic province, Pensacola Mountains, Antarctica. Mineralogical Magazine, 64(1), 95-111.
β“˜ Enstatite
Formula: Mg2Si2O6
Reference: Himmelberg, G.R., Ford, A.B. (1977) Iron-titanium oxides of the Dufek intrusion, Antarctica. American Mineralogist: 62(7-8): 623-633.
β“˜ Enstatite var. Bronzite
Formula: (Mg,Fe2+)2[SiO3]2
Reference: Himmelberg, G.R., Ford, A.B. (1977) Iron-titanium oxides of the Dufek intrusion, Antarctica. American Mineralogist: 62(7-8): 623-633.
β“˜ 'Fayalite-Forsterite Series'
Reference: Leat, P. T., Riley, T. R., Storey, B. C., Kelley, S. P., & Millar, I. L. (2000). Middle Jurassic ultramafic lamprophyre dyke within the Ferrar magmatic province, Pensacola Mountains, Antarctica. Mineralogical Magazine, 64(1), 95-111.; Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p. 10-11
β“˜ 'Feldspar Group'
Reference: Leat, P. T., Riley, T. R., Storey, B. C., Kelley, S. P., & Millar, I. L. (2000). Middle Jurassic ultramafic lamprophyre dyke within the Ferrar magmatic province, Pensacola Mountains, Antarctica. Mineralogical Magazine, 64(1), 95-111.
β“˜ 'Glass'
Reference: Leat, P. T., Riley, T. R., Storey, B. C., Kelley, S. P., & Millar, I. L. (2000). Middle Jurassic ultramafic lamprophyre dyke within the Ferrar magmatic province, Pensacola Mountains, Antarctica. Mineralogical Magazine, 64(1), 95-111.; Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p. 10-11
β“˜ Goethite
Formula: Ξ±-Fe3+O(OH)
Reference: Buchwald, V. & Clark Jr, R.S. (1989) Corrosion of Fe-Ni alloys by Cl-containing akaganΓ©ite (Ξ²-FeOOH): The Antarctic meteorite case. American Mineralogist 74(5&6):656-667. (May-June1989).
β“˜ 'Hornblende'
Reference: Leat, P. T., Riley, T. R., Storey, B. C., Kelley, S. P., & Millar, I. L. (2000). Middle Jurassic ultramafic lamprophyre dyke within the Ferrar magmatic province, Pensacola Mountains, Antarctica. Mineralogical Magazine, 64(1), 95-111.
β“˜ Ilmenite
Formula: Fe2+TiO3
Reference: Himmelberg, G.R., Ford, A.B. (1977) Iron-titanium oxides of the Dufek intrusion, Antarctica. American Mineralogist: 62(7-8): 623-633.; (2014) 12th International Platinum Symposium p28.
β“˜ Iron
Formula: Fe
Reference: Krinov, E. L. - Editor (1965) The Meteoritical Bulletin, No. 34. Moscow: USSR. (Nov 1965).; Buchwald, V. F. (1975). Handbook of Iron Meteorites: Their History, Distribution, Composition and Structure, Vol.3. Univ. of California Press: Berkley. 1418 pages.
β“˜ Iron var. Kamacite
Formula: (Fe,Ni)
Reference: Krinov, E. L. - Editor (1965) The Meteoritical Bulletin, No. 34. Moscow: USSR. (Nov 1965).; Buchwald, V. F. (1975). Handbook of Iron Meteorites: Their History, Distribution, Composition and Structure, Vol.3. Univ. of California Press: Berkley. 1418 pages.
β“˜ Iron var. Martensite
Formula: Fe
Reference: Buchwald, V. F. (1975). Handbook of Iron Meteorites: Their History, Distribution, Composition and Structure, Vol.3. Univ. of California Press: Berkley. 1418 pages.
β“˜ 'Limonite'
Reference: Buchwald, V. F. (1975). Handbook of Iron Meteorites: Their History, Distribution, Composition and Structure, Vol.3. Univ. of California Press: Berkley. 1418 pages.
β“˜ Maghemite
Formula: (Fe3+0.670.33)Fe3+2O4
Reference: Buchwald, V. & Clark Jr, R.S. (1989) Corrosion of Fe-Ni alloys by Cl-containing akaganΓ©ite (Ξ²-FeOOH): The Antarctic meteorite case. American Mineralogist 74(5&6):656-667. (May-June1989).
β“˜ Magnetite
Formula: Fe2+Fe3+2O4
Reference: Himmelberg, G.R., Ford, A.B. (1977) Iron-titanium oxides of the Dufek intrusion, Antarctica. American Mineralogist: 62(7-8): 623-633.; (2014) 12th International Platinum Symposium p28.
β“˜ Magnetite var. Titanium-bearing Magnetite
Formula: Fe2+(Fe3+,Ti)2O4
Reference: Himmelberg, G.R., Ford, A.B. (1977) Iron-titanium oxides of the Dufek intrusion, Antarctica. American Mineralogist: 62(7-8): 623-633.; (2014) 12th International Platinum Symposium p28.
β“˜ Nepheline
Formula: Na3K(Al4Si4O16)
Reference: Leat, P. T., Riley, T. R., Storey, B. C., Kelley, S. P., & Millar, I. L. (2000). Middle Jurassic ultramafic lamprophyre dyke within the Ferrar magmatic province, Pensacola Mountains, Antarctica. Mineralogical Magazine, 64(1), 95-111.
β“˜ Orthoclase
Formula: K(AlSi3O8)
Reference: Leat, P. T., Riley, T. R., Storey, B. C., Kelley, S. P., & Millar, I. L. (2000). Middle Jurassic ultramafic lamprophyre dyke within the Ferrar magmatic province, Pensacola Mountains, Antarctica. Mineralogical Magazine, 64(1), 95-111.
β“˜ Perovskite
Formula: CaTiO3
Reference: Leat, P. T., Riley, T. R., Storey, B. C., Kelley, S. P., & Millar, I. L. (2000). Middle Jurassic ultramafic lamprophyre dyke within the Ferrar magmatic province, Pensacola Mountains, Antarctica. Mineralogical Magazine, 64(1), 95-111.
β“˜ 'Plagioclase'
Formula: (Na,Ca)[(Si,Al)AlSi2]O8
Reference: Himmelberg, G.R., Ford, A.B. (1977) Iron-titanium oxides of the Dufek intrusion, Antarctica. American Mineralogist: 62(7-8): 623-633.
β“˜ 'Plessite'
Reference: Buchwald, V. F. (1975). Handbook of Iron Meteorites: Their History, Distribution, Composition and Structure, Vol.3. Univ. of California Press: Berkley. 1418 pages.
β“˜ Pyrite
Formula: FeS2
Reference: Leat, P. T., Riley, T. R., Storey, B. C., Kelley, S. P., & Millar, I. L. (2000). Middle Jurassic ultramafic lamprophyre dyke within the Ferrar magmatic province, Pensacola Mountains, Antarctica. Mineralogical Magazine, 64(1), 95-111.
β“˜ Pyrrhotite
Formula: Fe1-xS
Reference: Ford, A. B. (1983). The Dufek intrusion of Antarctica and a survey of its minor metals and possible resources. Petroleum and mineral resources of Antarctica. US Geological Survey, Circular, 909, 51-75.
β“˜ Schreibersite
Formula: (Fe,Ni)3P
Reference: Buchwald, V. F. (1975). Handbook of Iron Meteorites: Their History, Distribution, Composition and Structure, Vol.3. Univ. of California Press: Berkley. 1418 pages.
β“˜ Spinel
Formula: MgAl2O4
Reference: Leat, P. T., Riley, T. R., Storey, B. C., Kelley, S. P., & Millar, I. L. (2000). Middle Jurassic ultramafic lamprophyre dyke within the Ferrar magmatic province, Pensacola Mountains, Antarctica. Mineralogical Magazine, 64(1), 95-111.
β“˜ Taenite
Formula: (Fe,Ni)
Reference: Krinov, E. L. - Editor (1965) The Meteoritical Bulletin, No. 34. Moscow: USSR. (Nov 1965).; Buchwald, V. F. (1975). Handbook of Iron Meteorites: Their History, Distribution, Composition and Structure, Vol.3. Univ. of California Press: Berkley. 1418 pages.
β“˜ Troilite
Formula: FeS
Description: Sparse, but ovoid surface depression (2x3cM) due to atmospheric ablation present.
Reference: Buchwald, V. F. (1975). Handbook of Iron Meteorites: Their History, Distribution, Composition and Structure, Vol.3. Univ. of California Press: Berkley. 1418 pages.
β“˜ Vesuvianite
Formula: Ca19Fe3+Al4(Al6Mg2)(◻4)◻[Si2O7]4[(SiO4)10]O(OH)9
Reference: Hall, S.H., Bailey, S.W. (1976) Amesite from Antarctica. American Mineralogist: 61(5-6): 497-499.
β“˜ Zircon
Formula: Zr(SiO4)
Reference: Minor, D. R., & Mukasa, S. B. (1997). Zircon Uξ—Έ Pb and hornblende< sup> 40 Arξ—Έ< sup> 39 Ar ages for the Dufek layered mafic intrusion, Antarctica: Implications for the age of the Ferrar large igneous province. Geochimica et Cosmochimica Acta, 61(12), 2497-2504.

Gallery:

List of minerals arranged by Strunz 10th Edition classification

Group 1 - Elements
β“˜Iron1.AE.05Fe
β“˜var. Kamacite1.AE.05(Fe,Ni)
β“˜var. Martensite1.AE.05Fe
β“˜Schreibersite1.BD.05(Fe,Ni)3P
β“˜Taenite1.AE.10(Fe,Ni)
Group 2 - Sulphides and Sulfosalts
β“˜Bornite2.BA.15Cu5FeS4
β“˜Chalcopyrite2.CB.10aCuFeS2
β“˜Pyrite2.EB.05aFeS2
β“˜Pyrrhotite2.CC.10Fe1-xS
β“˜Troilite2.CC.10FeS
Group 3 - Halides
β“˜Atacamite3.DA.10aCu2(OH)3Cl
Group 4 - Oxides and Hydroxides
β“˜Akaganeite4.DK.05(Fe3+,Ni2+)8(OH,O)16Cl1.25 Β· nH2O
β“˜Goethite4.00.Ξ±-Fe3+O(OH)
β“˜Ilmenite4.CB.05Fe2+TiO3
β“˜Maghemite4.BB.15(Fe3+0.67β—»0.33)Fe3+2O4
β“˜Magnetite4.BB.05Fe2+Fe3+2O4
β“˜var. Titanium-bearing Magnetite4.BB.05Fe2+(Fe3+,Ti)2O4
β“˜Perovskite4.CC.30CaTiO3
β“˜Spinel4.BB.05MgAl2O4
Group 5 - Nitrates and Carbonates
β“˜Ankerite5.AB.10Ca(Fe2+,Mg)(CO3)2
β“˜Calcite5.AB.05CaCO3
β“˜Dolomite5.AB.10CaMg(CO3)2
Group 9 - Silicates
β“˜Amesite9.ED.15Mg2Al(AlSiO5)(OH)4
β“˜Augite9.DA.15(CaxMgyFez)(Mgy1Fez1)Si2O6
β“˜var. Ferroaugite9.DA.15(CaxMgyFez)(Mgy1Fez1)Si2O6
β“˜Diopside9.DA.15CaMgSi2O6
β“˜var. Salite9.DA.15CaMgSi2O6
β“˜Enstatite9.DA.05Mg2Si2O6
β“˜var. Bronzite9.DA.05(Mg,Fe2+)2[SiO3]2
β“˜Nepheline9.FA.05Na3K(Al4Si4O16)
β“˜Orthoclase9.FA.30K(AlSi3O8)
β“˜Vesuvianite9.BG.35Ca19Fe3+Al4(Al6Mg2)(β—»4)β—»[Si2O7]4[(SiO4)10]O(OH)9
β“˜Zircon9.AD.30Zr(SiO4)
Unclassified Minerals, Rocks, etc.
β“˜'Alkali Feldspar'-
β“˜'Amphibole Supergroup'-AB2C5((Si,Al,Ti)8O22)(OH,F,Cl,O)2
β“˜'Apatite'-Ca5(PO4)3(Cl/F/OH)
β“˜'Biotite'-K(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2
β“˜'Chlorite Group'-
β“˜'Clinopyroxene Subgroup'-
β“˜'Fayalite-Forsterite Series'-
β“˜'Feldspar Group'-
β“˜'Glass'-
β“˜'Hornblende'-
β“˜'Limonite'-
β“˜'Plagioclase'-(Na,Ca)[(Si,Al)AlSi2]O8
β“˜'Plessite'-

List of minerals for each chemical element

HHydrogen
Hβ“˜ AmesiteMg2Al(AlSiO5)(OH)4
Hβ“˜ Amphibole SupergroupAB2C5((Si,Al,Ti)8O22)(OH,F,Cl,O)2
Hβ“˜ ApatiteCa5(PO4)3(Cl/F/OH)
Hβ“˜ VesuvianiteCa19Fe3+Al4(Al6Mg2)(◻4)◻[Si2O7]4[(SiO4)10]O(OH)9
Hβ“˜ Akaganeite(Fe3+,Ni2+)8(OH,O)16Cl1.25 · nH2O
Hβ“˜ GoethiteΞ±-Fe3+O(OH)
Hβ“˜ BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2
Hβ“˜ AtacamiteCu2(OH)3Cl
CCarbon
Cβ“˜ CalciteCaCO3
Cβ“˜ DolomiteCaMg(CO3)2
Cβ“˜ AnkeriteCa(Fe2+,Mg)(CO3)2
OOxygen
Oβ“˜ AmesiteMg2Al(AlSiO5)(OH)4
Oβ“˜ Amphibole SupergroupAB2C5((Si,Al,Ti)8O22)(OH,F,Cl,O)2
Oβ“˜ ApatiteCa5(PO4)3(Cl/F/OH)
Oβ“˜ CalciteCaCO3
Oβ“˜ DolomiteCaMg(CO3)2
Oβ“˜ NephelineNa3K(Al4Si4O16)
Oβ“˜ OrthoclaseK(AlSi3O8)
Oβ“˜ PerovskiteCaTiO3
Oβ“˜ SpinelMgAl2O4
Oβ“˜ VesuvianiteCa19Fe3+Al4(Al6Mg2)(◻4)◻[Si2O7]4[(SiO4)10]O(OH)9
Oβ“˜ Enstatite var. Bronzite(Mg,Fe2+)2[SiO3]2
Oβ“˜ Plagioclase(Na,Ca)[(Si,Al)AlSi2]O8
Oβ“˜ Magnetite var. Titanium-bearing MagnetiteFe2+(Fe3+,Ti)2O4
Oβ“˜ IlmeniteFe2+TiO3
Oβ“˜ ZirconZr(SiO4)
Oβ“˜ Akaganeite(Fe3+,Ni2+)8(OH,O)16Cl1.25 · nH2O
Oβ“˜ GoethiteΞ±-Fe3+O(OH)
Oβ“˜ Maghemite(Fe3+0.670.33)Fe23+O4
Oβ“˜ EnstatiteMg2Si2O6
Oβ“˜ MagnetiteFe2+Fe23+O4
Oβ“˜ BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2
Oβ“˜ DiopsideCaMgSi2O6
Oβ“˜ Augite(CaxMgyFez)(Mgy1Fez1)Si2O6
Oβ“˜ AnkeriteCa(Fe2+,Mg)(CO3)2
Oβ“˜ AtacamiteCu2(OH)3Cl
FFluorine
Fβ“˜ Amphibole SupergroupAB2C5((Si,Al,Ti)8O22)(OH,F,Cl,O)2
Fβ“˜ ApatiteCa5(PO4)3(Cl/F/OH)
Fβ“˜ BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2
NaSodium
Naβ“˜ NephelineNa3K(Al4Si4O16)
Naβ“˜ Plagioclase(Na,Ca)[(Si,Al)AlSi2]O8
MgMagnesium
Mgβ“˜ AmesiteMg2Al(AlSiO5)(OH)4
Mgβ“˜ DolomiteCaMg(CO3)2
Mgβ“˜ SpinelMgAl2O4
Mgβ“˜ VesuvianiteCa19Fe3+Al4(Al6Mg2)(◻4)◻[Si2O7]4[(SiO4)10]O(OH)9
Mgβ“˜ Enstatite var. Bronzite(Mg,Fe2+)2[SiO3]2
Mgβ“˜ EnstatiteMg2Si2O6
Mgβ“˜ BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2
Mgβ“˜ DiopsideCaMgSi2O6
Mgβ“˜ Augite(CaxMgyFez)(Mgy1Fez1)Si2O6
Mgβ“˜ AnkeriteCa(Fe2+,Mg)(CO3)2
AlAluminium
Alβ“˜ AmesiteMg2Al(AlSiO5)(OH)4
Alβ“˜ Amphibole SupergroupAB2C5((Si,Al,Ti)8O22)(OH,F,Cl,O)2
Alβ“˜ NephelineNa3K(Al4Si4O16)
Alβ“˜ OrthoclaseK(AlSi3O8)
Alβ“˜ SpinelMgAl2O4
Alβ“˜ VesuvianiteCa19Fe3+Al4(Al6Mg2)(◻4)◻[Si2O7]4[(SiO4)10]O(OH)9
Alβ“˜ Plagioclase(Na,Ca)[(Si,Al)AlSi2]O8
Alβ“˜ BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2
SiSilicon
Siβ“˜ AmesiteMg2Al(AlSiO5)(OH)4
Siβ“˜ Amphibole SupergroupAB2C5((Si,Al,Ti)8O22)(OH,F,Cl,O)2
Siβ“˜ NephelineNa3K(Al4Si4O16)
Siβ“˜ OrthoclaseK(AlSi3O8)
Siβ“˜ VesuvianiteCa19Fe3+Al4(Al6Mg2)(◻4)◻[Si2O7]4[(SiO4)10]O(OH)9
Siβ“˜ Enstatite var. Bronzite(Mg,Fe2+)2[SiO3]2
Siβ“˜ Plagioclase(Na,Ca)[(Si,Al)AlSi2]O8
Siβ“˜ ZirconZr(SiO4)
Siβ“˜ EnstatiteMg2Si2O6
Siβ“˜ BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2
Siβ“˜ DiopsideCaMgSi2O6
Siβ“˜ Augite(CaxMgyFez)(Mgy1Fez1)Si2O6
PPhosphorus
Pβ“˜ ApatiteCa5(PO4)3(Cl/F/OH)
Pβ“˜ Schreibersite(Fe,Ni)3P
SSulfur
Sβ“˜ PyriteFeS2
Sβ“˜ TroiliteFeS
Sβ“˜ PyrrhotiteFe1-xS
Sβ“˜ ChalcopyriteCuFeS2
Sβ“˜ BorniteCu5FeS4
ClChlorine
Clβ“˜ Amphibole SupergroupAB2C5((Si,Al,Ti)8O22)(OH,F,Cl,O)2
Clβ“˜ ApatiteCa5(PO4)3(Cl/F/OH)
Clβ“˜ Akaganeite(Fe3+,Ni2+)8(OH,O)16Cl1.25 · nH2O
Clβ“˜ AtacamiteCu2(OH)3Cl
KPotassium
Kβ“˜ NephelineNa3K(Al4Si4O16)
Kβ“˜ OrthoclaseK(AlSi3O8)
Kβ“˜ BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2
CaCalcium
Caβ“˜ ApatiteCa5(PO4)3(Cl/F/OH)
Caβ“˜ CalciteCaCO3
Caβ“˜ DolomiteCaMg(CO3)2
Caβ“˜ PerovskiteCaTiO3
Caβ“˜ VesuvianiteCa19Fe3+Al4(Al6Mg2)(◻4)◻[Si2O7]4[(SiO4)10]O(OH)9
Caβ“˜ Plagioclase(Na,Ca)[(Si,Al)AlSi2]O8
Caβ“˜ DiopsideCaMgSi2O6
Caβ“˜ Augite(CaxMgyFez)(Mgy1Fez1)Si2O6
Caβ“˜ AnkeriteCa(Fe2+,Mg)(CO3)2
TiTitanium
Tiβ“˜ Amphibole SupergroupAB2C5((Si,Al,Ti)8O22)(OH,F,Cl,O)2
Tiβ“˜ PerovskiteCaTiO3
Tiβ“˜ Magnetite var. Titanium-bearing MagnetiteFe2+(Fe3+,Ti)2O4
Tiβ“˜ IlmeniteFe2+TiO3
Tiβ“˜ BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2
FeIron
Feβ“˜ PyriteFeS2
Feβ“˜ VesuvianiteCa19Fe3+Al4(Al6Mg2)(◻4)◻[Si2O7]4[(SiO4)10]O(OH)9
Feβ“˜ Enstatite var. Bronzite(Mg,Fe2+)2[SiO3]2
Feβ“˜ Magnetite var. Titanium-bearing MagnetiteFe2+(Fe3+,Ti)2O4
Feβ“˜ IlmeniteFe2+TiO3
Feβ“˜ Iron var. Kamacite(Fe,Ni)
Feβ“˜ Taenite(Fe,Ni)
Feβ“˜ Iron var. MartensiteFe
Feβ“˜ Schreibersite(Fe,Ni)3P
Feβ“˜ TroiliteFeS
Feβ“˜ Akaganeite(Fe3+,Ni2+)8(OH,O)16Cl1.25 · nH2O
Feβ“˜ GoethiteΞ±-Fe3+O(OH)
Feβ“˜ Maghemite(Fe3+0.670.33)Fe23+O4
Feβ“˜ MagnetiteFe2+Fe23+O4
Feβ“˜ IronFe
Feβ“˜ BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2
Feβ“˜ Augite(CaxMgyFez)(Mgy1Fez1)Si2O6
Feβ“˜ AnkeriteCa(Fe2+,Mg)(CO3)2
Feβ“˜ PyrrhotiteFe1-xS
Feβ“˜ ChalcopyriteCuFeS2
Feβ“˜ BorniteCu5FeS4
NiNickel
Niβ“˜ Iron var. Kamacite(Fe,Ni)
Niβ“˜ Taenite(Fe,Ni)
Niβ“˜ Schreibersite(Fe,Ni)3P
Niβ“˜ Akaganeite(Fe3+,Ni2+)8(OH,O)16Cl1.25 · nH2O
CuCopper
Cuβ“˜ ChalcopyriteCuFeS2
Cuβ“˜ BorniteCu5FeS4
Cuβ“˜ AtacamiteCu2(OH)3Cl
ZrZirconium
Zrβ“˜ ZirconZr(SiO4)

Geochronology

Mineralization age: Early Jurassic : 183.2 Β± 2.2 Ma

Important note: This table is based only on rock and mineral ages recorded on mindat.org for this locality and is not necessarily a complete representation of the geochronology, but does give an indication of possible mineralization events relevant to this locality. As more age information is added this table may expand in the future. A break in the table simply indicates a lack of data entered here, not necessarily a break in the geologic sequence. Grey background entries are from different, related, localities.

Geologic TimeRocks, Minerals and Events
Phanerozoic
 Mesozoic
  Jurassic
   Early Jurassic
β“˜ Lamprophyre183.2 Β± 2.2 MaMount Campleman, Pensacola Mountains, Queen Elizabeth Land, Eastern Antarctica, Antarctica

Other Databases

Wikipedia:https://en.wikipedia.org/wiki/Queen_Elizabeth_Land
Wikidata ID:Q1193277
GeoNames ID:8521163

Localities in this Region

Antarctica

Other Regions, Features and Areas containing this locality

Antarctic MeteoritesGroup of Meteorite Fall Locations
Antarctic PlateTectonic Plate

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