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Colle Fabbri, Spoleto, Perugia Province, Umbria, Italy

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Name(s) in local language(s):Colle Fabbri, Spoleto, Provincia di Perugia, Umbria, Italia
Latitude & Longitude (WGS84): 42° 45' 2'' North , 12° 40' 27'' East
Latitude & Longitude (decimal): 42.75078,12.67441
GeoHash:G#: sr950qt1r
Köppen climate type:Cfb : Temperate oceanic climate


Leucite kalsilite melilitolite subvolcanic bodies near Colle Fabbri (Perugia). Colle Fabbri is a stock which intrudes a 4 meter thick, phreatic breccia, whereas the conduit is excavated in Pliocene clay. The stock is 60 m wide, with outcrops of approximately 500 m2.

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Standard Detailed Strunz Dana Chemical Elements

Mineral List


48 valid minerals.

Rock Types Recorded

Note: this is a very new system on mindat.org and data is currently VERY limited. Please bear with us while we work towards adding this information!

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Alphabetical List Tree Diagram

Detailed Mineral List:

Afwillite
Formula: Ca3(HSiO4)2 · 2H2O
Reference: Stoppa F., Scordari F., Mesto E., Sharygin V.V. and Bortolozzi G. - Calcium-aluminium-silicate-hydrate "cement" phases and rare Ca-zeolite association at Colle Fabbri, Central Italy (2010). Centr.Eur.J.Geosci. 2 (2), pag. 175-187 .
Åkermanite
Formula: Ca2Mg(Si2O7)
Reference: Stoppa F., Sharygin V.V., 2009. Melilitolite intrusion and pelite digestion by high temperature kamafugitic magma at Colle Fabbri, Spoleto, Italy. Lithos, 112, 306-320.
Andradite
Formula: Ca3Fe3+2(SiO4)3
Reference: Stoppa F., Sharygin V.V., 2009. Melilitolite intrusion and pelite digestion by high temperature kamafugitic magma at Colle Fabbri, Spoleto, Italy. Lithos, 112, 306-320.
Anorthite
Formula: Ca(Al2Si2O8)
Reference: Stoppa.F., Wolley A.R. and Bailey K. (2004). Extrusive carbonatites and their meaning: the case of Italy. 32nd International Geological Congress, Florence - Italy, August 20-28, 2004, pag. 7-8. L. Terrazzi Ed., Firenze, 2004
'Apatite'
Reference: Stoppa.F., Wolley A.R. and Bailey K. (2004). Extrusive carbonatites and their meaning: the case of Italy. 32nd International Geological Congress, Florence - Italy, August 20-28, 2004, pag. 7-8. L. Terrazzi Ed., Firenze, 2004; Stoppa, F., & Schiazza, M. (2014). Extreme chemical conditions of crystallisation of Umbrian Melilitolites and wealth of rare, late stage/hydrothermal minerals. Central European Journal of Geosciences, 6(4), 549-564.
Aragonite
Formula: CaCO3
Reference: Stoppa F., Scordari F., Mesto E., Sharygin V.V. and Bortolozzi G. - Calcium-aluminium-silicate-hydrate "cement" phases and rare Ca-zeolite association at Colle Fabbri, Central Italy (2010). Centr.Eur.J.Geosci. 2 (2), pag. 175-187 .; Wheeler, S., Spigarelli, S., Stoppa, F., & Rinaldi, R. (1996). Secondary minerals from the igneous complex of Colle Fabbri, Spoleto (PG). Plinius, 16(2), 1.; Stoppa, F., & Schiazza, M. (2014). Extreme chemical conditions of crystallisation of Umbrian Melilitolites and wealth of rare, late stage/hydrothermal minerals. Central European Journal of Geosciences, 6(4), 549-564.
Baryte
Formula: BaSO4
Reference: Stoppa F., Scordari F., Mesto E., Sharygin V.V. and Bortolozzi G. - Calcium-aluminium-silicate-hydrate "cement" phases and rare Ca-zeolite association at Colle Fabbri, Central Italy (2010). Centr.Eur.J.Geosci. 2 (2), pag. 175-187 .; Wheeler, S., Spigarelli, S., Stoppa, F., & Rinaldi, R. (1996). Secondary minerals from the igneous complex of Colle Fabbri, Spoleto (PG). Plinius, 16(2), 1.; Stoppa, F., & Schiazza, M. (2014). Extreme chemical conditions of crystallisation of Umbrian Melilitolites and wealth of rare, late stage/hydrothermal minerals. Central European Journal of Geosciences, 6(4), 549-564.
'Brownmillerite-Srebrodolskite Series'
Reference: EDX + XRD analysis by Gunter Blass.
Calcite
Formula: CaCO3
Reference: Stoppa F., Scordari F., Mesto E., Sharygin V.V. and Bortolozzi G. - Calcium-aluminium-silicate-hydrate "cement" phases and rare Ca-zeolite association at Colle Fabbri, Central Italy (2010). Centr.Eur.J.Geosci. 2 (2), pag. 175-187 .; Wheeler, S., Spigarelli, S., Stoppa, F., & Rinaldi, R. (1996). Secondary minerals from the igneous complex of Colle Fabbri, Spoleto (PG). Plinius, 16(2), 1.
'Carbonatite'
Reference: Wheeler, S., Spigarelli, S., Stoppa, F., & Rinaldi, R. (1996). Secondary minerals from the igneous complex of Colle Fabbri, Spoleto (PG). Plinius, 16(2), 1.
'Chabazite'
Reference: Wheeler, S., Spigarelli, S., Stoppa, F., & Rinaldi, R. (1996). Secondary minerals from the igneous complex of Colle Fabbri, Spoleto (PG). Plinius, 16(2), 1.
Chabazite-Ca
Formula: (Ca,K2,Na2)2[Al2Si4O12]2 · 12H2O
Reference: Stoppa F., Scordari F., Mesto E., Sharygin V.V. and Bortolozzi G. - Calcium-aluminium-silicate-hydrate "cement" phases and rare Ca-zeolite association at Colle Fabbri, Central Italy (2010). Centr.Eur.J.Geosci. 2 (2), pag. 175-187 .; Stoppa, F., & Schiazza, M. (2014). Extreme chemical conditions of crystallisation of Umbrian Melilitolites and wealth of rare, late stage/hydrothermal minerals. Central European Journal of Geosciences, 6(4), 549-564.
Chalcopyrite
Formula: CuFeS2
Reference: Stoppa F., Sharygin V.V., 2009. Melilitolite intrusion and pelite digestion by high temperature kamafugitic magma at Colle Fabbri, Spoleto, Italy. Lithos, 112, 306-320.
'Clinopyroxene Subgroup'
Reference: Stoppa.F., Wolley A.R. and Bailey K. (2004). Extrusive carbonatites and their meaning: the case of Italy. 32nd International Geological Congress, Florence - Italy, August 20-28, 2004, pag. 7-8. L. Terrazzi Ed., Firenze, 2004
Cordierite
Formula: (Mg,Fe)2Al3(AlSi5O18)
Reference: Stoppa.F., Wolley A.R. and Bailey K. (2004). Extrusive carbonatites and their meaning: the case of Italy. 32nd International Geological Congress, Florence - Italy, August 20-28, 2004, pag. 7-8. L. Terrazzi Ed., Firenze, 2004; Wheeler, S., Spigarelli, S., Stoppa, F., & Rinaldi, R. (1996). Secondary minerals from the igneous complex of Colle Fabbri, Spoleto (PG). Plinius, 16(2), 1.; Stoppa, F., & Schiazza, M. (2014). Extreme chemical conditions of crystallisation of Umbrian Melilitolites and wealth of rare, late stage/hydrothermal minerals. Central European Journal of Geosciences, 6(4), 549-564.
Cuspidine
Formula: Ca4(Si2O7)(F,OH)2
Reference: Stoppa, F., & Schiazza, M. (2014). Extreme chemical conditions of crystallisation of Umbrian Melilitolites and wealth of rare, late stage/hydrothermal minerals. Central European Journal of Geosciences, 6(4), 549-564.
Diopside
Formula: CaMgSi2O6
Reference: Stoppa F., Sharygin V.V., 2009. Melilitolite intrusion and pelite digestion by high temperature kamafugitic magma at Colle Fabbri, Spoleto, Italy. Lithos, 112, 306-320.
Esseneite
Formula: CaFe3+[AlSiO6]
Reference: SCXRD analysis by F.Scordari, Dip. Geominer. Univ.Bari; Ciesielczuk, J., Kruszewski, Ł., & Majka, J. (2015). Comparative mineralogical study of thermally-altered coal-dump waste, natural rocks and the products of laboratory heating experiments. International Journal of Coal Geology, 139, 114-141.
Ettringite
Formula: Ca6Al2(SO4)3(OH)12 · 26H2O
Reference: Stoppa F., Scordari F., Mesto E., Sharygin V.V. and Bortolozzi G. - Calcium-aluminium-silicate-hydrate "cement" phases and rare Ca-zeolite association at Colle Fabbri, Central Italy (2010). Centr.Eur.J.Geosci. 2 (2), pag. 175-187 .; Wheeler, S., Spigarelli, S., Stoppa, F., & Rinaldi, R. (1996). Secondary minerals from the igneous complex of Colle Fabbri, Spoleto (PG). Plinius, 16(2), 1.
Ferrobustamite
Formula: CaFe2+(Si2O6)
Reference: Stoppa F., Sharygin V.V., 2009. Melilitolite intrusion and pelite digestion by high temperature kamafugitic magma at Colle Fabbri, Spoleto, Italy. Lithos, 112, 306-320.
Fluorapatite
Formula: Ca5(PO4)3F
Reference: Stoppa F., Sharygin V.V., 2009. Melilitolite intrusion and pelite digestion by high temperature kamafugitic magma at Colle Fabbri, Spoleto, Italy. Lithos, 112, 306-320.
Fluorapophyllite-(K)
Formula: KCa4(Si8O20)(F,OH) · 8H2O
Reference: Stoppa F., Scordari F., Mesto E., Sharygin V.V. and Bortolozzi G. - Calcium-aluminium-silicate-hydrate "cement" phases and rare Ca-zeolite association at Colle Fabbri, Central Italy (2010). Centr.Eur.J.Geosci. 2 (2), pag. 175-187 .; Stoppa, F., & Schiazza, M. (2014). Extreme chemical conditions of crystallisation of Umbrian Melilitolites and wealth of rare, late stage/hydrothermal minerals. Central European Journal of Geosciences, 6(4), 549-564.
Gehlenite
Formula: Ca2Al(AlSiO7)
Reference: Stoppa F., Sharygin V.V., 2009. Melilitolite intrusion and pelite digestion by high temperature kamafugitic magma at Colle Fabbri, Spoleto, Italy. Lithos, 112, 306-320.
'Gismondine'
Reference: Stoppa F., Scordari F., Mesto E., Sharygin V.V. and Bortolozzi G. - Calcium-aluminium-silicate-hydrate "cement" phases and rare Ca-zeolite association at Colle Fabbri, Central Italy (2010). Centr.Eur.J.Geosci. 2 (2), pag. 175-187 .; Wheeler, S., Spigarelli, S., Stoppa, F., & Rinaldi, R. (1996). Secondary minerals from the igneous complex of Colle Fabbri, Spoleto (PG). Plinius, 16(2), 1.
'Glass'
Reference: Stoppa.F., Wolley A.R. and Bailey K. (2004). Extrusive carbonatites and their meaning: the case of Italy. 32nd International Geological Congress, Florence - Italy, August 20-28, 2004, pag. 7-8. L. Terrazzi Ed., Firenze, 2004
Götzenite
Formula: NaCa6Ti(Si2O7)2OF3
Reference: Stoppa, F., & Schiazza, M. (2014). Extreme chemical conditions of crystallisation of Umbrian Melilitolites and wealth of rare, late stage/hydrothermal minerals. Central European Journal of Geosciences, 6(4), 549-564.
Grossular
Formula: Ca3Al2(SiO4)3
Reference: Stoppa F., Sharygin V.V., 2009. Melilitolite intrusion and pelite digestion by high temperature kamafugitic magma at Colle Fabbri, Spoleto, Italy. Lithos, 112, 306-320.
Gypsum
Formula: CaSO4 · 2H2O
Reference: Stoppa F., Scordari F., Mesto E., Sharygin V.V. and Bortolozzi G. - Calcium-aluminium-silicate-hydrate "cement" phases and rare Ca-zeolite association at Colle Fabbri, Central Italy (2010). Centr.Eur.J.Geosci. 2 (2), pag. 175-187 .; Stoppa, F., & Schiazza, M. (2014). Extreme chemical conditions of crystallisation of Umbrian Melilitolites and wealth of rare, late stage/hydrothermal minerals. Central European Journal of Geosciences, 6(4), 549-564.
Hedenbergite
Formula: CaFe2+Si2O6
Reference: Stoppa F., Sharygin V.V., 2009. Melilitolite intrusion and pelite digestion by high temperature kamafugitic magma at Colle Fabbri, Spoleto, Italy. Lithos, 112, 306-320.
Hydroxyapophyllite-(K)
Formula: KCa4(Si8O20)(OH,F) · 8H2O
Reference: Stoppa F., Scordari F., Mesto E., Sharygin V.V. and Bortolozzi G. - Calcium-aluminium-silicate-hydrate "cement" phases and rare Ca-zeolite association at Colle Fabbri, Central Italy (2010). Centr.Eur.J.Geosci. 2 (2), pag. 175-187 .; Stoppa, F., & Schiazza, M. (2014). Extreme chemical conditions of crystallisation of Umbrian Melilitolites and wealth of rare, late stage/hydrothermal minerals. Central European Journal of Geosciences, 6(4), 549-564.
Indialite
Formula: Mg2Al3(AlSi5O18)
Reference: Stoppa, F., & Schiazza, M. (2014). Extreme chemical conditions of crystallisation of Umbrian Melilitolites and wealth of rare, late stage/hydrothermal minerals. Central European Journal of Geosciences, 6(4), 549-564.
Jennite
Formula: Ca9(Si3O9)2(OH)8 · 8H2O
Reference: Stoppa F., Scordari F., Mesto E., Sharygin V.V. and Bortolozzi G. - Calcium-aluminium-silicate-hydrate "cement" phases and rare Ca-zeolite association at Colle Fabbri, Central Italy (2010). Centr.Eur.J.Geosci. 2 (2), pag. 175-187 .; Wheeler, S., Spigarelli, S., Stoppa, F., & Rinaldi, R. (1996). Secondary minerals from the igneous complex of Colle Fabbri, Spoleto (PG). Plinius, 16(2), 1.
Kalsilite
Formula: KAlSiO4
Reference: Stoppa.F., Wolley A.R. and Bailey K. (2004). Extrusive carbonatites and their meaning: the case of Italy. 32nd International Geological Congress, Florence - Italy, August 20-28, 2004, pag. 7-8. L. Terrazzi Ed., Firenze, 2004
Khibinskite
Formula: K2ZrSi2O7
Reference: Stoppa, F., & Schiazza, M. (2014). Extreme chemical conditions of crystallisation of Umbrian Melilitolites and wealth of rare, late stage/hydrothermal minerals. Central European Journal of Geosciences, 6(4), 549-564.
Leucite
Formula: K(AlSi2O6)
Reference: Stoppa.F., Wolley A.R. and Bailey K. (2004). Extrusive carbonatites and their meaning: the case of Italy. 32nd International Geological Congress, Florence - Italy, August 20-28, 2004, pag. 7-8. L. Terrazzi Ed., Firenze, 2004
Lévyne-Ca
Formula: (Ca,Na2,K2)[Al2Si4O12] · 6H2O
Reference: Stoppa F., Scordari F., Mesto E., Sharygin V.V. and Bortolozzi G. - Calcium-aluminium-silicate-hydrate "cement" phases and rare Ca-zeolite association at Colle Fabbri, Central Italy (2010). Centr.Eur.J.Geosci. 2 (2), pag. 175-187 .; Stoppa, F., & Schiazza, M. (2014). Extreme chemical conditions of crystallisation of Umbrian Melilitolites and wealth of rare, late stage/hydrothermal minerals. Central European Journal of Geosciences, 6(4), 549-564.
Magnesioferrite
Formula: MgFe3+2O4
Reference: Stoppa F., Sharygin V.V., 2009. Melilitolite intrusion and pelite digestion by high temperature kamafugitic magma at Colle Fabbri, Spoleto, Italy. Lithos, 112, 306-320.
Magnetite
Formula: Fe2+Fe3+2O4
Reference: Stoppa F., Scordari F., Mesto E., Sharygin V.V. and Bortolozzi G. - Calcium-aluminium-silicate-hydrate "cement" phases and rare Ca-zeolite association at Colle Fabbri, Central Italy (2010). Centr.Eur.J.Geosci. 2 (2), pag. 175-187 .; Wheeler, S., Spigarelli, S., Stoppa, F., & Rinaldi, R. (1996). Secondary minerals from the igneous complex of Colle Fabbri, Spoleto (PG). Plinius, 16(2), 1.
Magnetite var: Titaniferous Magnetite
Formula: Fe2+(Fe3+,Ti)2O4
Reference: Stoppa F., Sharygin V.V., 2009. Melilitolite intrusion and pelite digestion by high temperature kamafugitic magma at Colle Fabbri, Spoleto, Italy. Lithos, 112, 306-320. ; Wheeler, S., Spigarelli, S., Stoppa, F., & Rinaldi, R. (1996). Secondary minerals from the igneous complex of Colle Fabbri, Spoleto (PG). Plinius, 16(2), 1.
'Melilite Group'
Formula: Ca2M(XSiO7)
Reference: Stoppa.F., Wolley A.R. and Bailey K. (2004). Extrusive carbonatites and their meaning: the case of Italy. 32nd International Geological Congress, Florence - Italy, August 20-28, 2004, pag. 7-8. L. Terrazzi Ed., Firenze, 2004; Ciesielczuk, J., Kruszewski, Ł., & Majka, J. (2015). Comparative mineralogical study of thermally-altered coal-dump waste, natural rocks and the products of laboratory heating experiments. International Journal of Coal Geology, 139, 114-141.; Stoppa, F., & Schiazza, M. (2014). Extreme chemical conditions of crystallisation of Umbrian Melilitolites and wealth of rare, late stage/hydrothermal minerals. Central European Journal of Geosciences, 6(4), 549-564.
'Melilitite'
Reference: Wheeler, S., Spigarelli, S., Stoppa, F., & Rinaldi, R. (1996). Secondary minerals from the igneous complex of Colle Fabbri, Spoleto (PG). Plinius, 16(2), 1.
'Melilitolite'
Reference: Wheeler, S., Spigarelli, S., Stoppa, F., & Rinaldi, R. (1996). Secondary minerals from the igneous complex of Colle Fabbri, Spoleto (PG). Plinius, 16(2), 1.
Opal
Formula: SiO2 · nH2O
Reference: Stoppa F., Scordari F., Mesto E., Sharygin V.V. and Bortolozzi G. - Calcium-aluminium-silicate-hydrate "cement" phases and rare Ca-zeolite association at Colle Fabbri, Central Italy (2010). Centr.Eur.J.Geosci. 2 (2), pag. 175-187 .
Pentlandite
Formula: (FexNiy)Σ9S8
Reference: Stoppa F., Sharygin V.V., 2009. Melilitolite intrusion and pelite digestion by high temperature kamafugitic magma at Colle Fabbri, Spoleto, Italy. Lithos, 112, 306-320.
'Peralkaline phonolite'
Reference: Wheeler, S., Spigarelli, S., Stoppa, F., & Rinaldi, R. (1996). Secondary minerals from the igneous complex of Colle Fabbri, Spoleto (PG). Plinius, 16(2), 1.
Perovskite
Formula: CaTiO3
Reference: Stoppa F., Sharygin V.V., 2009. Melilitolite intrusion and pelite digestion by high temperature kamafugitic magma at Colle Fabbri, Spoleto, Italy. Lithos, 112, 306-320.
'Phillipsite'
Reference: Wheeler, S., Spigarelli, S., Stoppa, F., & Rinaldi, R. (1996). Secondary minerals from the igneous complex of Colle Fabbri, Spoleto (PG). Plinius, 16(2), 1.
Phillipsite-Ca
Formula: (Ca0.5,K,Na,Ba0.5)4-7[Al4-7Si12-9O32 . 12H2O
Reference: Stoppa F., Scordari F., Mesto E., Sharygin V.V. and Bortolozzi G. - Calcium-aluminium-silicate-hydrate "cement" phases and rare Ca-zeolite association at Colle Fabbri, Central Italy (2010). Centr.Eur.J.Geosci. 2 (2), pag. 175-187 .
'Phonolite'
Reference: Wheeler, S., Spigarelli, S., Stoppa, F., & Rinaldi, R. (1996). Secondary minerals from the igneous complex of Colle Fabbri, Spoleto (PG). Plinius, 16(2), 1.
Portlandite
Formula: Ca(OH)2
Reference: Stoppa F., Scordari F., Mesto E., Sharygin V.V. and Bortolozzi G. - Calcium-aluminium-silicate-hydrate "cement" phases and rare Ca-zeolite association at Colle Fabbri, Central Italy (2010). Centr.Eur.J.Geosci. 2 (2), pag. 175-187 .; Stoppa, F., & Schiazza, M. (2014). Extreme chemical conditions of crystallisation of Umbrian Melilitolites and wealth of rare, late stage/hydrothermal minerals. Central European Journal of Geosciences, 6(4), 549-564.
'Pseudowollastonite'
Formula: CaSiO3
Reference: Stoppa F., Sharygin V.V., 2009. Melilitolite intrusion and pelite digestion by high temperature kamafugitic magma at Colle Fabbri, Spoleto, Italy. Lithos, 112, 306-320.
Pyrrhotite
Formula: Fe7S8
Reference: Stoppa F., Scordari F., Mesto E., Sharygin V.V. and Bortolozzi G. - Calcium-aluminium-silicate-hydrate "cement" phases and rare Ca-zeolite association at Colle Fabbri, Central Italy (2010). Centr.Eur.J.Geosci. 2 (2), pag. 175-187 .; Stoppa, F., & Schiazza, M. (2014). Extreme chemical conditions of crystallisation of Umbrian Melilitolites and wealth of rare, late stage/hydrothermal minerals. Central European Journal of Geosciences, 6(4), 549-564.
Rankinite
Formula: Ca3Si2O7
Reference: Stoppa F., Sharygin V.V., 2009. Melilitolite intrusion and pelite digestion by high temperature kamafugitic magma at Colle Fabbri, Spoleto, Italy. Lithos, 112, 306-320. ; Stoppa, F., & Schiazza, M. (2014). Extreme chemical conditions of crystallisation of Umbrian Melilitolites and wealth of rare, late stage/hydrothermal minerals. Central European Journal of Geosciences, 6(4), 549-564.
Sanidine
Formula: K(AlSi3O8)
Reference: Stoppa F., Sharygin V.V., 2009. Melilitolite intrusion and pelite digestion by high temperature kamafugitic magma at Colle Fabbri, Spoleto, Italy. Lithos, 112, 306-320.
Schorlomite
Formula: Ca3(Ti,Fe3+)2((Si,Fe3+)O4)3
Reference: Stoppa.F., Wolley A.R. and Bailey K. (2004). Extrusive carbonatites and their meaning: the case of Italy. 32nd International Geological Congress, Florence - Italy, August 20-28, 2004, pag. 7-8. L. Terrazzi Ed., Firenze, 2004
'Silica'
Reference: Wheeler, S., Spigarelli, S., Stoppa, F., & Rinaldi, R. (1996). Secondary minerals from the igneous complex of Colle Fabbri, Spoleto (PG). Plinius, 16(2), 1.
Strätlingite
Formula: Ca2Al2SiO7 · 8H2O
Reference: Stoppa F., Scordari F., Mesto E., Sharygin V.V. and Bortolozzi G. - Calcium-aluminium-silicate-hydrate "cement" phases and rare Ca-zeolite association at Colle Fabbri, Central Italy (2010). Centr.Eur.J.Geosci. 2 (2), pag. 175-187 .; Wheeler, S., Spigarelli, S., Stoppa, F., & Rinaldi, R. (1996). Secondary minerals from the igneous complex of Colle Fabbri, Spoleto (PG). Plinius, 16(2), 1.
Thaumasite
Formula: Ca3(SO4)[Si(OH)6](CO3) · 12H2O
Reference: Stoppa F., Scordari F., Mesto E., Sharygin V.V. and Bortolozzi G. - Calcium-aluminium-silicate-hydrate "cement" phases and rare Ca-zeolite association at Colle Fabbri, Central Italy (2010). Centr.Eur.J.Geosci. 2 (2), pag. 175-187 .; Wheeler, S., Spigarelli, S., Stoppa, F., & Rinaldi, R. (1996). Secondary minerals from the igneous complex of Colle Fabbri, Spoleto (PG). Plinius, 16(2), 1.
Titanite
Formula: CaTi(SiO4)O
Reference: Stoppa F., Sharygin V.V., 2009. Melilitolite intrusion and pelite digestion by high temperature kamafugitic magma at Colle Fabbri, Spoleto, Italy. Lithos, 112, 306-320.
Tobermorite
Formula: [Ca4Si6O17 · 2H2O]·(Ca·3H2O)
Reference: Stoppa F., Scordari F., Mesto E., Sharygin V.V. and Bortolozzi G. - Calcium-aluminium-silicate-hydrate "cement" phases and rare Ca-zeolite association at Colle Fabbri, Central Italy (2010). Centr.Eur.J.Geosci. 2 (2), pag. 175-187 .; Wheeler, S., Spigarelli, S., Stoppa, F., & Rinaldi, R. (1996). Secondary minerals from the igneous complex of Colle Fabbri, Spoleto (PG). Plinius, 16(2), 1.
Tridymite
Formula: SiO2
Reference: Stoppa F., Scordari F., Mesto E., Sharygin V.V. and Bortolozzi G. - Calcium-aluminium-silicate-hydrate "cement" phases and rare Ca-zeolite association at Colle Fabbri, Central Italy (2010). Centr.Eur.J.Geosci. 2 (2), pag. 175-187 .; Wheeler, S., Spigarelli, S., Stoppa, F., & Rinaldi, R. (1996). Secondary minerals from the igneous complex of Colle Fabbri, Spoleto (PG). Plinius, 16(2), 1.
Vertumnite
Formula: Ca4Al4Si4O6(OH)24 · 3H2O
Reference: Stoppa F., Scordari F., Mesto E., Sharygin V.V. and Bortolozzi G. - Calcium-aluminium-silicate-hydrate "cement" phases and rare Ca-zeolite association at Colle Fabbri, Central Italy (2010). Centr.Eur.J.Geosci. 2 (2), pag. 175-187 .; Wheeler, S., Spigarelli, S., Stoppa, F., & Rinaldi, R. (1996). Secondary minerals from the igneous complex of Colle Fabbri, Spoleto (PG). Plinius, 16(2), 1.
Willhendersonite
Formula: KCa[Al3Si3O12] · 5H2O
Reference: Stoppa F., Scordari F., Mesto E., Sharygin V.V. and Bortolozzi G. - Calcium-aluminium-silicate-hydrate "cement" phases and rare Ca-zeolite association at Colle Fabbri, Central Italy (2010). Centr.Eur.J.Geosci. 2 (2), pag. 175-187 .; Wheeler, S., Spigarelli, S., Stoppa, F., & Rinaldi, R. (1996). Secondary minerals from the igneous complex of Colle Fabbri, Spoleto (PG). Plinius, 16(2), 1.
Wollastonite
Formula: CaSiO3
Reference: Stoppa.F., Wolley A.R. and Bailey K. (2004). Extrusive carbonatites and their meaning: the case of Italy. 32nd International Geological Congress, Florence - Italy, August 20-28, 2004, pag. 7-8. L. Terrazzi Ed., Firenze, 2004; Stoppa, F., & Schiazza, M. (2014). Extreme chemical conditions of crystallisation of Umbrian Melilitolites and wealth of rare, late stage/hydrothermal minerals. Central European Journal of Geosciences, 6(4), 549-564.
'Zeolite Group'
Reference: Wheeler, S., Spigarelli, S., Stoppa, F., & Rinaldi, R. (1996). Secondary minerals from the igneous complex of Colle Fabbri, Spoleto (PG). Plinius, 16(2), 1.

List of minerals arranged by Strunz 10th Edition classification

Group 2 - Sulphides and Sulfosalts
'Chalcopyrite'2.CB.10aCuFeS2
'Pentlandite'2.BB.15(FexNiy)Σ9S8
'Pyrrhotite'2.CC.10Fe7S8
Group 4 - Oxides and Hydroxides
'Magnesioferrite'4.BB.05MgFe3+2O4
'Magnetite'4.BB.05Fe2+Fe3+2O4
var: Titaniferous Magnetite4.BB.05Fe2+(Fe3+,Ti)2O4
'Opal'4.DA.10SiO2 · nH2O
'Perovskite'4.CC.30CaTiO3
'Portlandite'4.FE.05Ca(OH)2
Tridymite4.DA.10SiO2
Group 5 - Nitrates and Carbonates
'Aragonite'5.AB.15CaCO3
'Calcite'5.AB.05CaCO3
Group 7 - Sulphates, Chromates, Molybdates and Tungstates
'Baryte'7.AD.35BaSO4
'Ettringite'7.DG.15Ca6Al2(SO4)3(OH)12 · 26H2O
'Gypsum'7.CD.40CaSO4 · 2H2O
'Thaumasite'7.DG.15Ca3(SO4)[Si(OH)6](CO3) · 12H2O
Group 8 - Phosphates, Arsenates and Vanadates
'Fluorapatite'8.BN.05Ca5(PO4)3F
Group 9 - Silicates
'Afwillite'9.AG.75Ca3(HSiO4)2 · 2H2O
'Andradite'9.AD.25Ca3Fe3+2(SiO4)3
'Anorthite'9.FA.35Ca(Al2Si2O8)
'Chabazite-Ca'9.GD.10(Ca,K2,Na2)2[Al2Si4O12]2 · 12H2O
'Cordierite'9.CJ.10(Mg,Fe)2Al3(AlSi5O18)
'Cuspidine'9.BE.17Ca4(Si2O7)(F,OH)2
'Diopside'9.DA.15CaMgSi2O6
'Esseneite'9.DA.15CaFe3+[AlSiO6]
'Ferrobustamite'9.DG.05CaFe2+(Si2O6)
'Fluorapophyllite-(K)'9.EA.15KCa4(Si8O20)(F,OH) · 8H2O
'Gehlenite'9.BB.10Ca2Al(AlSiO7)
'Gismondine'9..
'Grossular'9.AD.25Ca3Al2(SiO4)3
'Götzenite'9.BE.22NaCa6Ti(Si2O7)2OF3
'Hedenbergite'9.DA.15CaFe2+Si2O6
'Hydroxyapophyllite-(K)'9.EA.15KCa4(Si8O20)(OH,F) · 8H2O
'Indialite'9.CJ.05Mg2Al3(AlSi5O18)
'Jennite'9.DG.20Ca9(Si3O9)2(OH)8 · 8H2O
'Kalsilite'9.FA.05KAlSiO4
'Khibinskite'9.BC.10K2ZrSi2O7
'Leucite'9.GB.05K(AlSi2O6)
'Lévyne-Ca'9.GD.15(Ca,Na2,K2)[Al2Si4O12] · 6H2O
'Phillipsite-Ca'9.GC.10(Ca0.5,K,Na,Ba0.5)4-7[Al4-7Si12-9O32 . 12H2O
'Pseudowollastonite'9.CA.20CaSiO3
'Rankinite'9.BC.15Ca3Si2O7
'Sanidine'9.FA.30K(AlSi3O8)
'Schorlomite'9.AD.25Ca3(Ti,Fe3+)2((Si,Fe3+)O4)3
'Strätlingite'9.EG.25Ca2Al2SiO7 · 8H2O
Titanite9.AG.15CaTi(SiO4)O
Tobermorite9.DG.10[Ca4Si6O17 · 2H2O]·(Ca·3H2O)
Vertumnite9.EG.25Ca4Al4Si4O6(OH)24 · 3H2O
Willhendersonite9.GD.10KCa[Al3Si3O12] · 5H2O
Wollastonite9.DG.05CaSiO3
Zeolite Group9.G0.
'Åkermanite'9.BB.10Ca2Mg(Si2O7)
Unclassified Minerals, Rocks, etc.
'Apatite'-
'Brownmillerite-Srebrodolskite Series'-
'Carbonatite'-
'Chabazite'-
'Clinopyroxene Subgroup'-
'Glass'-
'Melilite Group'-Ca2M(XSiO7)
'Melilitite'-
'Melilitolite'-
'Peralkaline phonolite'-
'Phillipsite'-
'Phonolite'-
'Silica'-

List of minerals arranged by Dana 8th Edition classification

Group 2 - SULFIDES
AmBnXp, with (m+n):p = 9:8
Pentlandite2.7.1.1(FexNiy)Σ9S8
AmXp, with m:p = 1:1
Pyrrhotite2.8.10.1Fe7S8
AmBnXp, with (m+n):p = 1:1
Chalcopyrite2.9.1.1CuFeS2
Group 4 - SIMPLE OXIDES
A2X3
Perovskite4.3.3.1CaTiO3
Group 6 - HYDROXIDES AND OXIDES CONTAINING HYDROXYL
X(OH)2
Portlandite6.2.1.4Ca(OH)2
Group 7 - MULTIPLE OXIDES
AB2X4
Magnesioferrite7.2.2.1MgFe3+2O4
Magnetite7.2.2.3Fe2+Fe3+2O4
Group 14 - ANHYDROUS NORMAL CARBONATES
A(XO3)
Calcite14.1.1.1CaCO3
Group 28 - ANHYDROUS ACID AND NORMAL SULFATES
AXO4
Baryte28.3.1.1BaSO4
Group 29 - HYDRATED ACID AND NORMAL SULFATES
AXO4·xH2O
Gypsum29.6.3.1CaSO4 · 2H2O
Group 31 - HYDRATED SULFATES CONTAINING HYDROXYL OR HALOGEN
Miscellaneous
Ettringite31.10.2.1Ca6Al2(SO4)3(OH)12 · 26H2O
Group 32 - COMPOUND SULFATES
Hydrated Compound Sulfates containing Hydroxyl or Halogen
Thaumasite32.4.4.4Ca3(SO4)[Si(OH)6](CO3) · 12H2O
Group 41 - ANHYDROUS PHOSPHATES, ETC.CONTAINING HYDROXYL OR HALOGEN
A5(XO4)3Zq
Fluorapatite41.8.1.1Ca5(PO4)3F
Group 51 - NESOSILICATES Insular SiO4 Groups Only
Insular SiO4 Groups Only with cations in [6] and >[6] coordination
Andradite51.4.3b.1Ca3Fe3+2(SiO4)3
Grossular51.4.3b.2Ca3Al2(SiO4)3
Schorlomite51.4.3c.1Ca3(Ti,Fe3+)2((Si,Fe3+)O4)3
Group 52 - NESOSILICATES Insular SiO4 Groups and O,OH,F,H2O
Insular SiO4 Groups and O, OH, F, and H2O with cations in [6] and/or >[6] coordination
Afwillite52.4.7.1Ca3(HSiO4)2 · 2H2O
Titanite52.4.3.1CaTi(SiO4)O
Group 55 - SOROSILICATES Si2O7 Groups,Generally with no Additional Anions
Si2O7 Groups, Generally with no Additional Anions with cations in [6] coordination
Khibinskite55.2.2.2K2ZrSi2O7
Si2O7 Groups, Generally with no Additional Anions with cations in [7] coordination
Rankinite55.3.1.1Ca3Si2O7
Si2O7 Groups, Generally with No Additional Anions with cations in [8] and lower coordination
Gehlenite55.4.1.2Ca2Al(AlSiO7)
Åkermanite55.4.1.1Ca2Mg(Si2O7)
Group 56 - SOROSILICATES Si2O7 Groups, With Additional O, OH, F and H2O
Si2O7 Groups and O, OH, F, and H2O with cations in [4] and/or >[4] coordination
Cuspidine56.2.4.3Ca4(Si2O7)(F,OH)2
Götzenite56.2.5.4NaCa6Ti(Si2O7)2OF3
Jennite56.2.4.11Ca9(Si3O9)2(OH)8 · 8H2O
Group 61 - CYCLOSILICATES Six-Membered Rings
Six-Membered Rings with [Si6O18] rings; possible (OH) and Al substitution
Indialite61.1.1.3Mg2Al3(AlSi5O18)
Six-Membered Rings with Al substituted rings
Cordierite61.2.1.1(Mg,Fe)2Al3(AlSi5O18)
Group 65 - INOSILICATES Single-Width,Unbranched Chains,(W=1)
Single-Width Unbranched Chains, W=1 with chains P=2
Diopside65.1.3a.1CaMgSi2O6
Esseneite65.1.3a.6CaFe3+[AlSiO6]
Hedenbergite65.1.3a.2CaFe2+Si2O6
Single-Width Unbranched Chains, W=1 with chains P=3
Ferrobustamite65.2.1.3CaFe2+(Si2O6)
Wollastonite65.2.1.1cCaSiO3
Group 72 - PHYLLOSILICATES Two-Dimensional Infinite Sheets with Other Than Six-Membered Rings
Two-Dimensional Infinite Sheets with Other Than Six-Membered Rings with 3-, 4-, or 5-membered rings and 8-membered rings
Fluorapophyllite-(K)72.3.1.1KCa4(Si8O20)(F,OH) · 8H2O
Tobermorite72.3.2.1[Ca4Si6O17 · 2H2O]·(Ca·3H2O)
Group 73 - PHYLLOSILICATES Condensed Tetrahedral Sheets
Condensed Tetrahedral Sheets with double layers
Vertumnite73.1.6.1Ca4Al4Si4O6(OH)24 · 3H2O
Group 75 - TECTOSILICATES Si Tetrahedral Frameworks
Si Tetrahedral Frameworks - SiO2 with [4] coordinated Si
Tridymite75.1.2.1SiO2
Si Tetrahedral Frameworks - SiO2 with H2O and organics
Opal75.2.1.1SiO2 · nH2O
Group 76 - TECTOSILICATES Al-Si Framework
Al-Si Framework with Al-Si frameworks
Sanidine76.1.1.2K(AlSi3O8)
Al-Si Framework Feldspathoids and related species
Kalsilite76.2.1.1KAlSiO4
Leucite76.2.2.1K(AlSi2O6)
Group 77 - TECTOSILICATES Zeolites
Zeolite group - True zeolites
Chabazite-Ca77.1.2.1(Ca,K2,Na2)2[Al2Si4O12]2 · 12H2O
'Gismondine'77.1.3.1
Willhendersonite77.1.2.3KCa[Al3Si3O12] · 5H2O
Zeolite group - related species
Strätlingite77.2.5.1Ca2Al2SiO7 · 8H2O
Unclassified Minerals, Rocks, etc.
Anorthite-Ca(Al2Si2O8)
'Apatite'-
Aragonite-CaCO3
'Brownmillerite-Srebrodolskite Series'-
'Carbonatite'-
'Chabazite'-
'Clinopyroxene Subgroup'-
'Glass'-
Hydroxyapophyllite-(K)-KCa4(Si8O20)(OH,F) · 8H2O
Lévyne-Ca-(Ca,Na2,K2)[Al2Si4O12] · 6H2O
Magnetite
var: Titaniferous Magnetite
-Fe2+(Fe3+,Ti)2O4
'Melilite Group'-Ca2M(XSiO7)
'Melilitite'-
'Melilitolite'-
'Peralkaline phonolite'-
'Phillipsite'-
Phillipsite-Ca-(Ca0.5,K,Na,Ba0.5)4-7[Al4-7Si12-9O32 . 12H2O
'Phonolite'-
'Pseudowollastonite'-CaSiO3
'Silica'-
'Zeolite Group'-

List of minerals for each chemical element

HHydrogen
H AfwilliteCa3(HSiO4)2 · 2H2O
H Chabazite-Ca(Ca,K2,Na2)2[Al2Si4O12]2 · 12H2O
H CuspidineCa4(Si2O7)(F,OH)2
H EttringiteCa6Al2(SO4)3(OH)12 · 26H2O
H Fluorapophyllite-(K)KCa4(Si8O20)(F,OH) · 8H2O
H GypsumCaSO4 · 2H2O
H Hydroxyapophyllite-(K)KCa4(Si8O20)(OH,F) · 8H2O
H JenniteCa9(Si3O9)2(OH)8 · 8H2O
H Lévyne-Ca(Ca,Na2,K2)[Al2Si4O12] · 6H2O
H OpalSiO2 · nH2O
H Phillipsite-Ca(Ca0.5,K,Na,Ba0.5)4-7[Al4-7Si12-9O32 . 12H2O
H PortlanditeCa(OH)2
H SträtlingiteCa2Al2SiO7 · 8H2O
H ThaumasiteCa3(SO4)[Si(OH)6](CO3) · 12H2O
H Tobermorite[Ca4Si6O17 · 2H2O]·(Ca·3H2O)
H VertumniteCa4Al4Si4O6(OH)24 · 3H2O
H WillhendersoniteKCa[Al3Si3O12] · 5H2O
CCarbon
C AragoniteCaCO3
C CalciteCaCO3
C ThaumasiteCa3(SO4)[Si(OH)6](CO3) · 12H2O
OOxygen
O AfwilliteCa3(HSiO4)2 · 2H2O
O ÅkermaniteCa2Mg(Si2O7)
O AndraditeCa3Fe23+(SiO4)3
O AnorthiteCa(Al2Si2O8)
O AragoniteCaCO3
O BaryteBaSO4
O CalciteCaCO3
O Chabazite-Ca(Ca,K2,Na2)2[Al2Si4O12]2 · 12H2O
O Cordierite(Mg,Fe)2Al3(AlSi5O18)
O CuspidineCa4(Si2O7)(F,OH)2
O DiopsideCaMgSi2O6
O EsseneiteCaFe3+[AlSiO6]
O EttringiteCa6Al2(SO4)3(OH)12 · 26H2O
O FerrobustamiteCaFe2+(Si2O6)
O FluorapatiteCa5(PO4)3F
O Fluorapophyllite-(K)KCa4(Si8O20)(F,OH) · 8H2O
O GehleniteCa2Al(AlSiO7)
O GötzeniteNaCa6Ti(Si2O7)2OF3
O GrossularCa3Al2(SiO4)3
O GypsumCaSO4 · 2H2O
O HedenbergiteCaFe2+Si2O6
O Hydroxyapophyllite-(K)KCa4(Si8O20)(OH,F) · 8H2O
O IndialiteMg2Al3(AlSi5O18)
O JenniteCa9(Si3O9)2(OH)8 · 8H2O
O KalsiliteKAlSiO4
O KhibinskiteK2ZrSi2O7
O LeuciteK(AlSi2O6)
O Lévyne-Ca(Ca,Na2,K2)[Al2Si4O12] · 6H2O
O MagnesioferriteMgFe23+O4
O MagnetiteFe2+Fe23+O4
O Melilite GroupCa2M(XSiO7)
O OpalSiO2 · nH2O
O PerovskiteCaTiO3
O Phillipsite-Ca(Ca0.5,K,Na,Ba0.5)4-7[Al4-7Si12-9O32 . 12H2O
O PortlanditeCa(OH)2
O PseudowollastoniteCaSiO3
O RankiniteCa3Si2O7
O SanidineK(AlSi3O8)
O SchorlomiteCa3(Ti,Fe3+)2((Si,Fe3+)O4)3
O SträtlingiteCa2Al2SiO7 · 8H2O
O ThaumasiteCa3(SO4)[Si(OH)6](CO3) · 12H2O
O Magnetite (var: Titaniferous Magnetite)Fe2+(Fe3+,Ti)2O4
O TitaniteCaTi(SiO4)O
O Tobermorite[Ca4Si6O17 · 2H2O]·(Ca·3H2O)
O TridymiteSiO2
O VertumniteCa4Al4Si4O6(OH)24 · 3H2O
O WillhendersoniteKCa[Al3Si3O12] · 5H2O
O WollastoniteCaSiO3
FFluorine
F CuspidineCa4(Si2O7)(F,OH)2
F FluorapatiteCa5(PO4)3F
F Fluorapophyllite-(K)KCa4(Si8O20)(F,OH) · 8H2O
F GötzeniteNaCa6Ti(Si2O7)2OF3
F Hydroxyapophyllite-(K)KCa4(Si8O20)(OH,F) · 8H2O
NaSodium
Na GötzeniteNaCa6Ti(Si2O7)2OF3
Na Phillipsite-Ca(Ca0.5,K,Na,Ba0.5)4-7[Al4-7Si12-9O32 . 12H2O
MgMagnesium
Mg ÅkermaniteCa2Mg(Si2O7)
Mg Cordierite(Mg,Fe)2Al3(AlSi5O18)
Mg DiopsideCaMgSi2O6
Mg IndialiteMg2Al3(AlSi5O18)
Mg MagnesioferriteMgFe23+O4
AlAluminium
Al AnorthiteCa(Al2Si2O8)
Al Chabazite-Ca(Ca,K2,Na2)2[Al2Si4O12]2 · 12H2O
Al Cordierite(Mg,Fe)2Al3(AlSi5O18)
Al EsseneiteCaFe3+[AlSiO6]
Al EttringiteCa6Al2(SO4)3(OH)12 · 26H2O
Al GehleniteCa2Al(AlSiO7)
Al GrossularCa3Al2(SiO4)3
Al IndialiteMg2Al3(AlSi5O18)
Al KalsiliteKAlSiO4
Al LeuciteK(AlSi2O6)
Al Lévyne-Ca(Ca,Na2,K2)[Al2Si4O12] · 6H2O
Al Phillipsite-Ca(Ca0.5,K,Na,Ba0.5)4-7[Al4-7Si12-9O32 . 12H2O
Al SanidineK(AlSi3O8)
Al SträtlingiteCa2Al2SiO7 · 8H2O
Al VertumniteCa4Al4Si4O6(OH)24 · 3H2O
Al WillhendersoniteKCa[Al3Si3O12] · 5H2O
SiSilicon
Si AfwilliteCa3(HSiO4)2 · 2H2O
Si ÅkermaniteCa2Mg(Si2O7)
Si AndraditeCa3Fe23+(SiO4)3
Si AnorthiteCa(Al2Si2O8)
Si Chabazite-Ca(Ca,K2,Na2)2[Al2Si4O12]2 · 12H2O
Si Cordierite(Mg,Fe)2Al3(AlSi5O18)
Si CuspidineCa4(Si2O7)(F,OH)2
Si DiopsideCaMgSi2O6
Si EsseneiteCaFe3+[AlSiO6]
Si FerrobustamiteCaFe2+(Si2O6)
Si Fluorapophyllite-(K)KCa4(Si8O20)(F,OH) · 8H2O
Si GehleniteCa2Al(AlSiO7)
Si GötzeniteNaCa6Ti(Si2O7)2OF3
Si GrossularCa3Al2(SiO4)3
Si HedenbergiteCaFe2+Si2O6
Si Hydroxyapophyllite-(K)KCa4(Si8O20)(OH,F) · 8H2O
Si IndialiteMg2Al3(AlSi5O18)
Si JenniteCa9(Si3O9)2(OH)8 · 8H2O
Si KalsiliteKAlSiO4
Si KhibinskiteK2ZrSi2O7
Si LeuciteK(AlSi2O6)
Si Lévyne-Ca(Ca,Na2,K2)[Al2Si4O12] · 6H2O
Si Melilite GroupCa2M(XSiO7)
Si OpalSiO2 · nH2O
Si Phillipsite-Ca(Ca0.5,K,Na,Ba0.5)4-7[Al4-7Si12-9O32 . 12H2O
Si PseudowollastoniteCaSiO3
Si RankiniteCa3Si2O7
Si SanidineK(AlSi3O8)
Si SchorlomiteCa3(Ti,Fe3+)2((Si,Fe3+)O4)3
Si SträtlingiteCa2Al2SiO7 · 8H2O
Si ThaumasiteCa3(SO4)[Si(OH)6](CO3) · 12H2O
Si TitaniteCaTi(SiO4)O
Si Tobermorite[Ca4Si6O17 · 2H2O]·(Ca·3H2O)
Si TridymiteSiO2
Si VertumniteCa4Al4Si4O6(OH)24 · 3H2O
Si WillhendersoniteKCa[Al3Si3O12] · 5H2O
Si WollastoniteCaSiO3
PPhosphorus
P FluorapatiteCa5(PO4)3F
SSulfur
S BaryteBaSO4
S ChalcopyriteCuFeS2
S EttringiteCa6Al2(SO4)3(OH)12 · 26H2O
S GypsumCaSO4 · 2H2O
S Pentlandite(FexNiy)Σ9S8
S PyrrhotiteFe7S8
S ThaumasiteCa3(SO4)[Si(OH)6](CO3) · 12H2O
KPotassium
K Fluorapophyllite-(K)KCa4(Si8O20)(F,OH) · 8H2O
K Hydroxyapophyllite-(K)KCa4(Si8O20)(OH,F) · 8H2O
K KalsiliteKAlSiO4
K KhibinskiteK2ZrSi2O7
K LeuciteK(AlSi2O6)
K Phillipsite-Ca(Ca0.5,K,Na,Ba0.5)4-7[Al4-7Si12-9O32 . 12H2O
K SanidineK(AlSi3O8)
K WillhendersoniteKCa[Al3Si3O12] · 5H2O
CaCalcium
Ca AfwilliteCa3(HSiO4)2 · 2H2O
Ca ÅkermaniteCa2Mg(Si2O7)
Ca AndraditeCa3Fe23+(SiO4)3
Ca AnorthiteCa(Al2Si2O8)
Ca AragoniteCaCO3
Ca CalciteCaCO3
Ca Chabazite-Ca(Ca,K2,Na2)2[Al2Si4O12]2 · 12H2O
Ca CuspidineCa4(Si2O7)(F,OH)2
Ca DiopsideCaMgSi2O6
Ca EsseneiteCaFe3+[AlSiO6]
Ca EttringiteCa6Al2(SO4)3(OH)12 · 26H2O
Ca FerrobustamiteCaFe2+(Si2O6)
Ca FluorapatiteCa5(PO4)3F
Ca Fluorapophyllite-(K)KCa4(Si8O20)(F,OH) · 8H2O
Ca GehleniteCa2Al(AlSiO7)
Ca GötzeniteNaCa6Ti(Si2O7)2OF3
Ca GrossularCa3Al2(SiO4)3
Ca GypsumCaSO4 · 2H2O
Ca HedenbergiteCaFe2+Si2O6
Ca Hydroxyapophyllite-(K)KCa4(Si8O20)(OH,F) · 8H2O
Ca JenniteCa9(Si3O9)2(OH)8 · 8H2O
Ca Lévyne-Ca(Ca,Na2,K2)[Al2Si4O12] · 6H2O
Ca Melilite GroupCa2M(XSiO7)
Ca PerovskiteCaTiO3
Ca Phillipsite-Ca(Ca0.5,K,Na,Ba0.5)4-7[Al4-7Si12-9O32 . 12H2O
Ca PortlanditeCa(OH)2
Ca PseudowollastoniteCaSiO3
Ca RankiniteCa3Si2O7
Ca SchorlomiteCa3(Ti,Fe3+)2((Si,Fe3+)O4)3
Ca SträtlingiteCa2Al2SiO7 · 8H2O
Ca ThaumasiteCa3(SO4)[Si(OH)6](CO3) · 12H2O
Ca TitaniteCaTi(SiO4)O
Ca Tobermorite[Ca4Si6O17 · 2H2O]·(Ca·3H2O)
Ca VertumniteCa4Al4Si4O6(OH)24 · 3H2O
Ca WillhendersoniteKCa[Al3Si3O12] · 5H2O
Ca WollastoniteCaSiO3
TiTitanium
Ti GötzeniteNaCa6Ti(Si2O7)2OF3
Ti PerovskiteCaTiO3
Ti SchorlomiteCa3(Ti,Fe3+)2((Si,Fe3+)O4)3
Ti Magnetite (var: Titaniferous Magnetite)Fe2+(Fe3+,Ti)2O4
Ti TitaniteCaTi(SiO4)O
FeIron
Fe AndraditeCa3Fe23+(SiO4)3
Fe ChalcopyriteCuFeS2
Fe Cordierite(Mg,Fe)2Al3(AlSi5O18)
Fe EsseneiteCaFe3+[AlSiO6]
Fe FerrobustamiteCaFe2+(Si2O6)
Fe HedenbergiteCaFe2+Si2O6
Fe MagnesioferriteMgFe23+O4
Fe MagnetiteFe2+Fe23+O4
Fe Pentlandite(FexNiy)Σ9S8
Fe PyrrhotiteFe7S8
Fe SchorlomiteCa3(Ti,Fe3+)2((Si,Fe3+)O4)3
Fe Magnetite (var: Titaniferous Magnetite)Fe2+(Fe3+,Ti)2O4
NiNickel
Ni Pentlandite(FexNiy)Σ9S8
CuCopper
Cu ChalcopyriteCuFeS2
ZrZirconium
Zr KhibinskiteK2ZrSi2O7
BaBarium
Ba BaryteBaSO4
Ba Phillipsite-Ca(Ca0.5,K,Na,Ba0.5)4-7[Al4-7Si12-9O32 . 12H2O

Regional Geology

This geological map and associated information on rock units at or nearby to the coordinates given for this locality is based on relatively small scale geological maps provided by various national Geological Surveys. This does not necessarily represent the complete geology at this locality but it gives a background for the region in which it is found.

Click on geological units on the map for more information. Click here to view full-screen map on Macrostrat.org

Cretaceous - Late Jurassic
66 - 163.5 Ma



ID: 3158903
Late Jurassic limestone

Age: Mesozoic (66 - 163.5 Ma)

Lithology: Major:{limestone}, Minor{carbonates, consolidated,claystone,marlstone}

Reference: Asch, K. The 1:5M International Geological Map of Europe and Adjacent Areas: Development and Implementation of a GIS-enabled Concept. Geologisches Jahrbuch, SA 3. [147]

Cretaceous
66 - 145 Ma



ID: 3186408
Mesozoic sedimentary rocks

Age: Cretaceous (66 - 145 Ma)

Lithology: Sedimentary rocks

Reference: Chorlton, L.B. Generalized geology of the world: bedrock domains and major faults in GIS format: a small-scale world geology map with an extended geological attribute database. doi: 10.4095/223767. Geological Survey of Canada, Open File 5529. [154]

Data and map coding provided by Macrostrat.org, used under Creative Commons Attribution 4.0 License

References

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Year (asc) Year (desc) Author (A-Z) Author (Z-A)
- Vezzalini G., Quartieri S., Galli E. (1997): Occurrence and crystal structure of a Ca-pure willhendersonite. Zeolites, 19, 75-79.
- Stoppa F. (ed.) (2004): La poesia del divenire. Il paesaggio geologico dell'Umbria meridionale. Bardi Ed., Roma, 251 pp.
- Stoppa F., Wolley A.R., Bailey K. (2004): Extrusive carbonatites and their meaning:the case of Italy. 32°Internat. Geol. Congress, Firenze, BW02, 3-24.
- Stoppa F., Scordari F., Mesto E., Sharygin V.V., Bortolozzi G. (2010): Calcium-aluminium-silicate-hydrate "cement" phases and rare Ca-zeolite association at Colle Fabbri, Central Italy. Centr. Eur. J. Geosci., 2(2), 175-187.
Stoppa, F., & Schiazza, M. (2014). Extreme chemical conditions of crystallisation of Umbrian Melilitolites and wealth of rare, late stage/hydrothermal minerals. Central European Journal of Geosciences, 6(4), 549-564.


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