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{{Short description|Silicate mineral}}
{{no footnotes|date=January 2021}}
{{Infobox mineral|boxbgcolor=#c79327|
{{Infobox mineral|boxbgcolor=#c79327|name=Ganophyllite|alt=260px|formula=(K,Na,Ca)<sub>2</sub>Mn<sub>8</sub>(Si,Al)<sub>12</sub>(O,OH)<sub>32</sub> · 8H<sub>2</sub>O|system=[[Monoclinic]]|class=[[Prismatic]] (2/m)|symmetry=A2/a|color=Brownish yellow to cinnamon brown|habit=Foliated micaceous|cleavage={???}Perfect|fracture=Brittle|mohs=4 - 4.5|luster=Vitreous|opticalprop=Biaxial(-)|refractive=n<sub>α</sub> = 1.537 n<sub>β</sub> = 1.611 n<sub>γ </sub>= 1.613|birefringence=δ = 0.076|dispersion=Weak|fluorescence=Non-fluorescent|streak=Brownish yellow|gravity=2.84|density=2.84|diaphaneity=Transparent to transculent|impurities=Fe, Zn, Pb, Ca, Ba|other=[[Image:Radioactive.svg|25px]] [[Radioactive]] 3.87% (K)}}
|image = Natural History Museum 139 (8047046589).jpg|
name=Ganophyllite|formula=(K,Na,Ca)<sub>2</sub>Mn<sub>8</sub>(Si,Al)<sub>12</sub>(O,OH)<sub>32</sub> · 8H<sub>2</sub>O| IMAsymbol = Gnp<ref>{{Cite journal|last=Warr|first=L.N.|date=2021|title=IMA–CNMNC approved mineral symbols|journal=Mineralogical Magazine|volume=85|issue=3 |pages=291–320|doi=10.1180/mgm.2021.43 |bibcode=2021MinM...85..291W |s2cid=235729616 |doi-access=free}}</ref>|strunz=09.EG.30|system=[[Monoclinic]]|dana=74.01.02.01|class=[[Prismatic]] (2/m)|symmetry=A2/a|unit cell=22,545.01|molweight=1,514.2|color=Brownish yellow to cinnamon brown|habit=Foliated micaceous|cleavage=Perfect on {???}|fracture=Brittle|mohs=4 - 4.5|luster=Vitreous|opticalprop=Biaxial(-)|refractive=n<sub>α</sub> = 1.537 <br/>n<sub>β</sub> = 1.611 <br/>n<sub>γ </sub>= 1.613|birefringence=0.076|pleochroism=X = Pale yellow brown <br/>Y = Z = Dark yellow brown|dispersion=Weak|fluorescence=None|streak=Brownish yellow|gravity=2.84|density=2.84|diaphaneity=Transparent to transculent|impurities=Fe, Zn, Pb, Ca, Ba|other=[[Image:Radioactive.svg|25px]] [[Radioactive]] 3.87% (K)}}


'''Ganophyllite''' is a [[phyllosilicate mineral]]. It was named by Axel Hamberg in 1890 from the Greek words for leaf (φύλλον) and luster (γανωμα); the latter one was chosen due to the lustrous cleavages. The mineral was approved by the [[International Mineralogical Association|IMA]] in 1959, and it is a grandfathered mineral, meaning its name is still believed to refer to an existing species until this day.<ref name=":0" /> [[Tamaite]] is the calcium analogue, while [[eggletonite]] is the natrium analogue of said mineral.<ref name=":1">{{Cite web|title=Mineral Database - Mineralogy of Wales|url=https://museum.wales/mineralogy-of-wales/database/?mineral=372&name=Ganophyllite|access-date=2021-10-18|website=National Museum Wales|language=en}}</ref>
'''Ganophyllite'''<nowiki/>'s name came from the Greek words leaf (φύλλον) and luster (γανωμα). It got its name from Axel Hamberg in 1890. It is a member of Ganophyllite group, among with [[eggletonite]] and [[tamaite]]. It has a barely detectable potassium radioactivity. The formula includes potassium (K) if it is ganophyllite, eggletonite includes natrium (Na), and tamaite includes calcium (Ca) in their formula.


== External links ==
== Properties ==
Ganophyllite is a member of the ganophyllite group, among with [[eggletonite]] and [[tamaite]], and it is the potassium variety of eggletonite. Common impurities of the mineral include lead, iron, calcium, barium, and zinc. The zinc impurities can be explained with the fact the mineral usually grows in zinc-manganese mines.<ref name=":0">{{Cite web|title=Ganophyllite|url=https://www.mindat.org/min-1649.html|access-date=2021-06-22|website=www.mindat.org}}</ref> The formula of ganophyllite includes potassium (K), while eggletonite includes sodium (Na) and tamaite includes calcium (Ca). It has a barely detectable potassium radioactivity and a barely detectable 1.8% radiation measured by GRapi ([[Gamma Ray American Petroleum Institute Units]]). It mostly consists of oxygen (47.02%), manganese (21.77%) and silicon (16.69%), but otherwise contains aluminium (5.88%), potassium (3.87%), which gives ganophyllite its radioactive attributes, magnesium (2.41%), hydrogen (1.6%) and sodium (0.76%). Ganophyllite is [[Pleochroism|pleochroic]], which means the mineral's color seems as though it changes depending on the axis it is inspected on: on the X axis, it is seen in a pale yellow-brown color, and on the Y and Z axis, it can be seen as a dark yellow-brown gem. The mineral has a foliated [[crystal habit]] - it forms platy, thin sheets that part, and are layered on top of one another.<ref>{{cite web |title=Ganophyllite Mineral Data |url=http://webmineral.com/data/Ganophyllite.shtml#.YApyD5MzZQI |website=webmineral.com |access-date=22 January 2021}}</ref>
*[http://webmineral.com/data/Ganophyllite.shtml Ganophyllite Mineral Data]
*[https://www.mindat.org/min-1649.html Ganophyllite]


== Distribution ==
{{uncategorized|date=January 2021}}
Ganophyllite occurs in metamorphosed manganese deposits, especially in zinc-manganese ones. It is a type locality of the Harstigen mine in Sweden, although the first specimen was found at the Nant mine in Wales, however, it can also be found in the Benallt mine as well.<ref name=":1" /> Other places where it has been found include Molinello and Gambatesa mines in Italy, Maple-Hovey deposits in [[Franklin, New Jersey]] and at [[Mont Saint-Hilaire]] in Canada. Asian mines include the Kumahata mine, the Noda-Tamagawa mine, the Ananai mine, and the Osu and Yonoyama mines, all in Japan. Ganophyllite can be found at the Broken hill in Australia as well.<ref name=":2">{{Cite journal|title=Ganophyllite|url=http://www.handbookofmineralogy.org/pdfs/ganophyllite.pdf|journal=Handbook of Mineralogy}}</ref>

== Associated minerals ==
Ganophyllite has a lot of minerals associated with it, although most of it is mine specific. In each mine, the minerals associated with ganophyllite may vary.

In the Harstigen mine, the associated minerals are the followings: [[pyrophanite]], [[caryopilite]], [[calcite]], [[garnet]], [[rhodonite]], [[barite]], [[lead]], and [[Biotite|manganoan biotite]].

Ganophyllites from the Molinello mine have the following associated minerals: caryopilite and [[parsettensite]].

The following associated minerals can occur with specimens from Franklin: [[axinite]], rhodonite, [[datolite]], [[willemite]], , [[bustamite]], [[charlesite]], [[clinohedrite]] and [[roeblingite]].<ref name=":2" />

== References ==
{{reflist}}
[[Category:Radioactive minerals]]
[[Category:Phyllosilicates]]

Latest revision as of 01:29, 10 August 2023

Ganophyllite
General
CategoryMineral
Formula
(repeating unit)
(K,Na,Ca)2Mn8(Si,Al)12(O,OH)32 · 8H2O
IMA symbolGnp[1]
Strunz classification09.EG.30
Dana classification74.01.02.01
Crystal systemMonoclinic
Crystal classPrismatic (2/m)
Space groupA2/a
Unit cell22,545.01
Identification
Formula mass1,514.2
ColorBrownish yellow to cinnamon brown
Crystal habitFoliated micaceous
CleavagePerfect on {???}
FractureBrittle
Mohs scale hardness4 - 4.5
LusterVitreous
StreakBrownish yellow
DiaphaneityTransparent to transculent
Specific gravity2.84
Density2.84
Optical propertiesBiaxial(-)
Refractive indexnα = 1.537
nβ = 1.611
nγ = 1.613
Birefringence0.076
PleochroismX = Pale yellow brown
Y = Z = Dark yellow brown
DispersionWeak
Ultraviolet fluorescenceNone
Common impuritiesFe, Zn, Pb, Ca, Ba
Other characteristics Radioactive 3.87% (K)

Ganophyllite is a phyllosilicate mineral. It was named by Axel Hamberg in 1890 from the Greek words for leaf (φύλλον) and luster (γανωμα); the latter one was chosen due to the lustrous cleavages. The mineral was approved by the IMA in 1959, and it is a grandfathered mineral, meaning its name is still believed to refer to an existing species until this day.[2] Tamaite is the calcium analogue, while eggletonite is the natrium analogue of said mineral.[3]

Properties

[edit]

Ganophyllite is a member of the ganophyllite group, among with eggletonite and tamaite, and it is the potassium variety of eggletonite. Common impurities of the mineral include lead, iron, calcium, barium, and zinc. The zinc impurities can be explained with the fact the mineral usually grows in zinc-manganese mines.[2] The formula of ganophyllite includes potassium (K), while eggletonite includes sodium (Na) and tamaite includes calcium (Ca). It has a barely detectable potassium radioactivity and a barely detectable 1.8% radiation measured by GRapi (Gamma Ray American Petroleum Institute Units). It mostly consists of oxygen (47.02%), manganese (21.77%) and silicon (16.69%), but otherwise contains aluminium (5.88%), potassium (3.87%), which gives ganophyllite its radioactive attributes, magnesium (2.41%), hydrogen (1.6%) and sodium (0.76%). Ganophyllite is pleochroic, which means the mineral's color seems as though it changes depending on the axis it is inspected on: on the X axis, it is seen in a pale yellow-brown color, and on the Y and Z axis, it can be seen as a dark yellow-brown gem. The mineral has a foliated crystal habit - it forms platy, thin sheets that part, and are layered on top of one another.[4]

Distribution

[edit]

Ganophyllite occurs in metamorphosed manganese deposits, especially in zinc-manganese ones. It is a type locality of the Harstigen mine in Sweden, although the first specimen was found at the Nant mine in Wales, however, it can also be found in the Benallt mine as well.[3] Other places where it has been found include Molinello and Gambatesa mines in Italy, Maple-Hovey deposits in Franklin, New Jersey and at Mont Saint-Hilaire in Canada. Asian mines include the Kumahata mine, the Noda-Tamagawa mine, the Ananai mine, and the Osu and Yonoyama mines, all in Japan. Ganophyllite can be found at the Broken hill in Australia as well.[5]

Associated minerals

[edit]

Ganophyllite has a lot of minerals associated with it, although most of it is mine specific. In each mine, the minerals associated with ganophyllite may vary.

In the Harstigen mine, the associated minerals are the followings: pyrophanite, caryopilite, calcite, garnet, rhodonite, barite, lead, and manganoan biotite.

Ganophyllites from the Molinello mine have the following associated minerals: caryopilite and parsettensite.

The following associated minerals can occur with specimens from Franklin: axinite, rhodonite, datolite, willemite, , bustamite, charlesite, clinohedrite and roeblingite.[5]

References

[edit]
  1. ^ Warr, L.N. (2021). "IMA–CNMNC approved mineral symbols". Mineralogical Magazine. 85 (3): 291–320. Bibcode:2021MinM...85..291W. doi:10.1180/mgm.2021.43. S2CID 235729616.
  2. ^ a b "Ganophyllite". www.mindat.org. Retrieved 2021-06-22.
  3. ^ a b "Mineral Database - Mineralogy of Wales". National Museum Wales. Retrieved 2021-10-18.
  4. ^ "Ganophyllite Mineral Data". webmineral.com. Retrieved 22 January 2021.
  5. ^ a b "Ganophyllite" (PDF). Handbook of Mineralogy.