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Vattikod lamproite, Nalgonda District, Telangana, Indiai
Regional Level Types
Vattikod lamproite- not defined -
Nalgonda District- not defined -
TelanganaState
IndiaCountry

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Key
Latitude & Longitude (WGS84):
16° 54' 35'' North , 79° 6' 55'' East
Latitude & Longitude (decimal):
Nearest Settlements:
PlacePopulationDistance
Nalgonda121,826 (2014)22.8km
Devarkonda29,726 (2014)31.9km
Miriālgūda101,234 (2014)47.7km


In Ramadugu Lamproite Field.

Regions containing this locality

AsiaContinent
Indian Plate (India Plate)Tectonic Plate

Select Mineral List Type

Standard Detailed Strunz Dana Chemical Elements

Mineral List


24 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!

Select Rock List Type

Alphabetical List Tree Diagram

Detailed Mineral List:

'Allanite Group'
Formula: {A12+REE3+}{M3+2M32+}(Si2O7)(SiO4)O(OH)
Reference: Kaur, G., Mitchell, R. H., & Ahmed, S. (2016). Typomorphic mineralogy of the Vattikod lamproites from Mesoproterozoic Ramadugu Lamproite Field, Nalgonda District, Telangana, India: A plausible manifestation of subduction-related alkaline magmatism in the Eastern Ghats Mobile Belt?.; Talukdar, D., Pandey, A., Rao, N. C., Kumar, A., Pandit, D., Belyatsky, B., & Lehmann, B. (2018). Petrology and geochemistry of the Mesoproterozoic Vattikod lamproites, Eastern Dharwar Craton, southern India: evidence for multiple enrichment of sub-continental lithospheric mantle and links with amalgamation and break-up of the Columbia supercontinent. Contributions to Mineralogy and Petrology, 173(8), 67.
'Apatite'
Formula: Ca5(PO4)3(Cl/F/OH)
Reference: Talukdar, D., Pandey, A., Rao, N. C., Kumar, A., Pandit, D., Belyatsky, B., & Lehmann, B. (2018). Petrology and geochemistry of the Mesoproterozoic Vattikod lamproites, Eastern Dharwar Craton, southern India: evidence for multiple enrichment of sub-continental lithospheric mantle and links with amalgamation and break-up of the Columbia supercontinent. Contributions to Mineralogy and Petrology, 173(8), 67.
Arfvedsonite
Formula: [Na][Na2][Fe2+4Fe3+]Si8O22(OH)2
Reference: Kaur, G., Mitchell, R. H., & Ahmed, S. (2016). Typomorphic mineralogy of the Vattikod lamproites from Mesoproterozoic Ramadugu Lamproite Field, Nalgonda District, Telangana, India: A plausible manifestation of subduction-related alkaline magmatism in the Eastern Ghats Mobile Belt?.
Barroisite
Formula: ☐{CaNa}{Mg3Al2}(AlSi7O22)(OH)2
Reference: Talukdar, D., Pandey, A., Rao, N. C., Kumar, A., Pandit, D., Belyatsky, B., & Lehmann, B. (2018). Petrology and geochemistry of the Mesoproterozoic Vattikod lamproites, Eastern Dharwar Craton, southern India: evidence for multiple enrichment of sub-continental lithospheric mantle and links with amalgamation and break-up of the Columbia supercontinent. Contributions to Mineralogy and Petrology, 173(8), 67.
'Biotite'
Formula: K(Fe2+/Mg)2(Al/Fe3+/Mg)([Si/Al]Si2O10)(OH/F)2
Reference: Talukdar, D., Pandey, A., Rao, N. C., Kumar, A., Pandit, D., Belyatsky, B., & Lehmann, B. (2018). Petrology and geochemistry of the Mesoproterozoic Vattikod lamproites, Eastern Dharwar Craton, southern India: evidence for multiple enrichment of sub-continental lithospheric mantle and links with amalgamation and break-up of the Columbia supercontinent. Contributions to Mineralogy and Petrology, 173(8), 67.
Calcite
Formula: CaCO3
Reference: Kaur, G., Mitchell, R. H., & Ahmed, S. (2016). Typomorphic mineralogy of the Vattikod lamproites from Mesoproterozoic Ramadugu Lamproite Field, Nalgonda District, Telangana, India: A plausible manifestation of subduction-related alkaline magmatism in the Eastern Ghats Mobile Belt?.; Talukdar, D., Pandey, A., Rao, N. C., Kumar, A., Pandit, D., Belyatsky, B., & Lehmann, B. (2018). Petrology and geochemistry of the Mesoproterozoic Vattikod lamproites, Eastern Dharwar Craton, southern India: evidence for multiple enrichment of sub-continental lithospheric mantle and links with amalgamation and break-up of the Columbia supercontinent. Contributions to Mineralogy and Petrology, 173(8), 67.
'Chlorite Group'
Reference: Kaur, G., Mitchell, R. H., & Ahmed, S. (2016). Typomorphic mineralogy of the Vattikod lamproites from Mesoproterozoic Ramadugu Lamproite Field, Nalgonda District, Telangana, India: A plausible manifestation of subduction-related alkaline magmatism in the Eastern Ghats Mobile Belt?.
Chromite
Formula: Fe2+Cr3+2O4
Reference: Kaur, G., Mitchell, R. H., & Ahmed, S. (2016). Typomorphic mineralogy of the Vattikod lamproites from Mesoproterozoic Ramadugu Lamproite Field, Nalgonda District, Telangana, India: A plausible manifestation of subduction-related alkaline magmatism in the Eastern Ghats Mobile Belt?.
Diopside
Formula: CaMgSi2O6
Reference: Talukdar, D., Pandey, A., Rao, N. C., Kumar, A., Pandit, D., Belyatsky, B., & Lehmann, B. (2018). Petrology and geochemistry of the Mesoproterozoic Vattikod lamproites, Eastern Dharwar Craton, southern India: evidence for multiple enrichment of sub-continental lithospheric mantle and links with amalgamation and break-up of the Columbia supercontinent. Contributions to Mineralogy and Petrology, 173(8), 67.
'Fayalite-Forsterite Series'
Reference: Talukdar, D., Pandey, A., Rao, N. C., Kumar, A., Pandit, D., Belyatsky, B., & Lehmann, B. (2018). Petrology and geochemistry of the Mesoproterozoic Vattikod lamproites, Eastern Dharwar Craton, southern India: evidence for multiple enrichment of sub-continental lithospheric mantle and links with amalgamation and break-up of the Columbia supercontinent. Contributions to Mineralogy and Petrology, 173(8), 67.
Ferro-richterite
Formula: {Na}{CaNa}{Fe2+5}(Si8O22)(OH)2
Reference: Talukdar, D., Pandey, A., Rao, N. C., Kumar, A., Pandit, D., Belyatsky, B., & Lehmann, B. (2018). Petrology and geochemistry of the Mesoproterozoic Vattikod lamproites, Eastern Dharwar Craton, southern India: evidence for multiple enrichment of sub-continental lithospheric mantle and links with amalgamation and break-up of the Columbia supercontinent. Contributions to Mineralogy and Petrology, 173(8), 67.
Katophorite
Formula: {Na}{CaNa}{Mg4Al}[(AlSi7)O22](OH)2
Reference: Kaur, G., Mitchell, R. H., & Ahmed, S. (2016). Typomorphic mineralogy of the Vattikod lamproites from Mesoproterozoic Ramadugu Lamproite Field, Nalgonda District, Telangana, India: A plausible manifestation of subduction-related alkaline magmatism in the Eastern Ghats Mobile Belt?.
'K Feldspar'
Reference: Kaur, G., Mitchell, R. H., & Ahmed, S. (2016). Typomorphic mineralogy of the Vattikod lamproites from Mesoproterozoic Ramadugu Lamproite Field, Nalgonda District, Telangana, India: A plausible manifestation of subduction-related alkaline magmatism in the Eastern Ghats Mobile Belt?.
Magnesio-arfvedsonite
Formula: {Na}{Na2}{Mg4Fe3+}(Si8O22)(OH)2
Reference: Talukdar, D., Pandey, A., Rao, N. C., Kumar, A., Pandit, D., Belyatsky, B., & Lehmann, B. (2018). Petrology and geochemistry of the Mesoproterozoic Vattikod lamproites, Eastern Dharwar Craton, southern India: evidence for multiple enrichment of sub-continental lithospheric mantle and links with amalgamation and break-up of the Columbia supercontinent. Contributions to Mineralogy and Petrology, 173(8), 67.
Magnesio-riebeckite
Formula: ◻{Na2}{Mg3Fe3+2}(Si8O22)(OH)2
Reference: Talukdar, D., Pandey, A., Rao, N. C., Kumar, A., Pandit, D., Belyatsky, B., & Lehmann, B. (2018). Petrology and geochemistry of the Mesoproterozoic Vattikod lamproites, Eastern Dharwar Craton, southern India: evidence for multiple enrichment of sub-continental lithospheric mantle and links with amalgamation and break-up of the Columbia supercontinent. Contributions to Mineralogy and Petrology, 173(8), 67.
Magnetite
Formula: Fe2+Fe3+2O4
Reference: Kaur, G., Mitchell, R. H., & Ahmed, S. (2016). Typomorphic mineralogy of the Vattikod lamproites from Mesoproterozoic Ramadugu Lamproite Field, Nalgonda District, Telangana, India: A plausible manifestation of subduction-related alkaline magmatism in the Eastern Ghats Mobile Belt?.
Orthoclase
Formula: K(AlSi3O8)
Reference: Talukdar, D., Pandey, A., Rao, N. C., Kumar, A., Pandit, D., Belyatsky, B., & Lehmann, B. (2018). Petrology and geochemistry of the Mesoproterozoic Vattikod lamproites, Eastern Dharwar Craton, southern India: evidence for multiple enrichment of sub-continental lithospheric mantle and links with amalgamation and break-up of the Columbia supercontinent. Contributions to Mineralogy and Petrology, 173(8), 67.
Phlogopite
Formula: KMg3(AlSi3O10)(OH)2
Reference: Kaur, G., Mitchell, R. H., & Ahmed, S. (2016). Typomorphic mineralogy of the Vattikod lamproites from Mesoproterozoic Ramadugu Lamproite Field, Nalgonda District, Telangana, India: A plausible manifestation of subduction-related alkaline magmatism in the Eastern Ghats Mobile Belt?.; Talukdar, D., Pandey, A., Rao, N. C., Kumar, A., Pandit, D., Belyatsky, B., & Lehmann, B. (2018). Petrology and geochemistry of the Mesoproterozoic Vattikod lamproites, Eastern Dharwar Craton, southern India: evidence for multiple enrichment of sub-continental lithospheric mantle and links with amalgamation and break-up of the Columbia supercontinent. Contributions to Mineralogy and Petrology, 173(8), 67.
Potassic-arfvedsonite
Formula: [(K,Na)][Na2][Fe2+4Fe3+]Si8O22(OH)2
Reference: Kaur, G., Mitchell, R. H., & Ahmed, S. (2016). Typomorphic mineralogy of the Vattikod lamproites from Mesoproterozoic Ramadugu Lamproite Field, Nalgonda District, Telangana, India: A plausible manifestation of subduction-related alkaline magmatism in the Eastern Ghats Mobile Belt?.
'Potassic-ferro-richterite'
Formula: {K}{CaNa}{Fe2+5}Si8O22(OH)2
Reference: Kaur, G., Mitchell, R. H., & Ahmed, S. (2016). Typomorphic mineralogy of the Vattikod lamproites from Mesoproterozoic Ramadugu Lamproite Field, Nalgonda District, Telangana, India: A plausible manifestation of subduction-related alkaline magmatism in the Eastern Ghats Mobile Belt?.
Potassic-richterite
Formula: {K}{CaNa}{Mg5}Si8O22(OH)2
Reference: Kaur, G., Mitchell, R. H., & Ahmed, S. (2016). Typomorphic mineralogy of the Vattikod lamproites from Mesoproterozoic Ramadugu Lamproite Field, Nalgonda District, Telangana, India: A plausible manifestation of subduction-related alkaline magmatism in the Eastern Ghats Mobile Belt?.; Talukdar, D., Pandey, A., Rao, N. C., Kumar, A., Pandit, D., Belyatsky, B., & Lehmann, B. (2018). Petrology and geochemistry of the Mesoproterozoic Vattikod lamproites, Eastern Dharwar Craton, southern India: evidence for multiple enrichment of sub-continental lithospheric mantle and links with amalgamation and break-up of the Columbia supercontinent. Contributions to Mineralogy and Petrology, 173(8), 67.
Qandilite
Formula: (Mg,Fe3+)2(Ti,Fe3+,Al)O4
Reference: Kaur, G., Mitchell, R. H., & Ahmed, S. (2016). Typomorphic mineralogy of the Vattikod lamproites from Mesoproterozoic Ramadugu Lamproite Field, Nalgonda District, Telangana, India: A plausible manifestation of subduction-related alkaline magmatism in the Eastern Ghats Mobile Belt?.
Quartz
Formula: SiO2
Reference: Kaur, G., Mitchell, R. H., & Ahmed, S. (2016). Typomorphic mineralogy of the Vattikod lamproites from Mesoproterozoic Ramadugu Lamproite Field, Nalgonda District, Telangana, India: A plausible manifestation of subduction-related alkaline magmatism in the Eastern Ghats Mobile Belt?.
Richterite
Formula: {Na}{NaCa}{Mg5}(Si8O22)(OH)2
Reference: Kaur, G., Mitchell, R. H., & Ahmed, S. (2016). Typomorphic mineralogy of the Vattikod lamproites from Mesoproterozoic Ramadugu Lamproite Field, Nalgonda District, Telangana, India: A plausible manifestation of subduction-related alkaline magmatism in the Eastern Ghats Mobile Belt?.
Rutile
Formula: TiO2
Reference: Talukdar, D., Pandey, A., Rao, N. C., Kumar, A., Pandit, D., Belyatsky, B., & Lehmann, B. (2018). Petrology and geochemistry of the Mesoproterozoic Vattikod lamproites, Eastern Dharwar Craton, southern India: evidence for multiple enrichment of sub-continental lithospheric mantle and links with amalgamation and break-up of the Columbia supercontinent. Contributions to Mineralogy and Petrology, 173(8), 67.
Spinel
Formula: MgAl2O4
Reference: Talukdar, D., Pandey, A., Rao, N. C., Kumar, A., Pandit, D., Belyatsky, B., & Lehmann, B. (2018). Petrology and geochemistry of the Mesoproterozoic Vattikod lamproites, Eastern Dharwar Craton, southern India: evidence for multiple enrichment of sub-continental lithospheric mantle and links with amalgamation and break-up of the Columbia supercontinent. Contributions to Mineralogy and Petrology, 173(8), 67.
Tetraferriphlogopite
Formula: KMg3(Fe3+Si3O10)(OH,F)2
Reference: Kaur, G., Mitchell, R. H., & Ahmed, S. (2016). Typomorphic mineralogy of the Vattikod lamproites from Mesoproterozoic Ramadugu Lamproite Field, Nalgonda District, Telangana, India: A plausible manifestation of subduction-related alkaline magmatism in the Eastern Ghats Mobile Belt?.
Titanite
Formula: CaTi(SiO4)O
Reference: Kaur, G., Mitchell, R. H., & Ahmed, S. (2016). Typomorphic mineralogy of the Vattikod lamproites from Mesoproterozoic Ramadugu Lamproite Field, Nalgonda District, Telangana, India: A plausible manifestation of subduction-related alkaline magmatism in the Eastern Ghats Mobile Belt?.; Talukdar, D., Pandey, A., Rao, N. C., Kumar, A., Pandit, D., Belyatsky, B., & Lehmann, B. (2018). Petrology and geochemistry of the Mesoproterozoic Vattikod lamproites, Eastern Dharwar Craton, southern India: evidence for multiple enrichment of sub-continental lithospheric mantle and links with amalgamation and break-up of the Columbia supercontinent. Contributions to Mineralogy and Petrology, 173(8), 67.
Ulvöspinel
Formula: TiFe2O4
Reference: Kaur, G., Mitchell, R. H., & Ahmed, S. (2016). Typomorphic mineralogy of the Vattikod lamproites from Mesoproterozoic Ramadugu Lamproite Field, Nalgonda District, Telangana, India: A plausible manifestation of subduction-related alkaline magmatism in the Eastern Ghats Mobile Belt?.
Winchite
Formula: ☐{CaNa}{Mg4Al}(Si8O22)(OH)2
Reference: Talukdar, D., Pandey, A., Rao, N. C., Kumar, A., Pandit, D., Belyatsky, B., & Lehmann, B. (2018). Petrology and geochemistry of the Mesoproterozoic Vattikod lamproites, Eastern Dharwar Craton, southern India: evidence for multiple enrichment of sub-continental lithospheric mantle and links with amalgamation and break-up of the Columbia supercontinent. Contributions to Mineralogy and Petrology, 173(8), 67.
Zircon
Formula: Zr(SiO4)
Reference: Kaur, G., Mitchell, R. H., & Ahmed, S. (2016). Typomorphic mineralogy of the Vattikod lamproites from Mesoproterozoic Ramadugu Lamproite Field, Nalgonda District, Telangana, India: A plausible manifestation of subduction-related alkaline magmatism in the Eastern Ghats Mobile Belt?.

List of minerals arranged by Strunz 10th Edition classification

Group 4 - Oxides and Hydroxides
Chromite4.BB.05Fe2+Cr3+2O4
Magnetite4.BB.05Fe2+Fe3+2O4
Qandilite4.BB.05(Mg,Fe3+)2(Ti,Fe3+,Al)O4
Quartz4.DA.05SiO2
Rutile4.DB.05TiO2
Spinel4.BB.05MgAl2O4
Ulvöspinel4.BB.05TiFe2O4
Group 5 - Nitrates and Carbonates
Calcite5.AB.05CaCO3
Group 9 - Silicates
Arfvedsonite9.DE.25[Na][Na2][Fe2+4Fe3+]Si8O22(OH)2
Barroisite9.DE.20☐{CaNa}{Mg3Al2}(AlSi7O22)(OH)2
Diopside9.DA.15CaMgSi2O6
Ferro-richterite9.DE.20{Na}{CaNa}{Fe2+5}(Si8O22)(OH)2
Katophorite9.DE.20{Na}{CaNa}{Mg4Al}[(AlSi7)O22](OH)2
Magnesio-arfvedsonite9.DE.25{Na}{Na2}{Mg4Fe3+}(Si8O22)(OH)2
Magnesio-riebeckite9.DE.25◻{Na2}{Mg3Fe3+2}(Si8O22)(OH)2
Orthoclase9.FA.30K(AlSi3O8)
Phlogopite9.EC.20KMg3(AlSi3O10)(OH)2
Potassic-arfvedsonite9.DE.25[(K,Na)][Na2][Fe2+4Fe3+]Si8O22(OH)2
Potassic-richterite9.DE.20{K}{CaNa}{Mg5}Si8O22(OH)2
Richterite9.DE.20{Na}{NaCa}{Mg5}(Si8O22)(OH)2
Tetraferriphlogopite9.EC.20KMg3(Fe3+Si3O10)(OH,F)2
Titanite9.AG.15CaTi(SiO4)O
Winchite9.DE.20☐{CaNa}{Mg4Al}(Si8O22)(OH)2
Zircon9.AD.30Zr(SiO4)
Unclassified Minerals, Rocks, etc.
'Allanite Group'-{A12+REE3+}{M3+2M32+}(Si2O7)(SiO4)O(OH)
'Apatite'-Ca5(PO4)3(Cl/F/OH)
'Biotite'-K(Fe2+/Mg)2(Al/Fe3+/Mg)([Si/Al]Si2O10)(OH/F)2
'Chlorite Group'-
'Fayalite-Forsterite Series'-
'K Feldspar'-
'Potassic-ferro-richterite'-{K}{CaNa}{Fe2+5}Si8O22(OH)2

List of minerals arranged by Dana 8th Edition classification

Group 4 - SIMPLE OXIDES
AX2
Rutile4.4.1.1TiO2
Group 7 - MULTIPLE OXIDES
AB2X4
Chromite7.2.3.3Fe2+Cr3+2O4
Magnetite7.2.2.3Fe2+Fe3+2O4
Qandilite7.2.5.1(Mg,Fe3+)2(Ti,Fe3+,Al)O4
Spinel7.2.1.1MgAl2O4
Ulvöspinel7.2.5.2TiFe2O4
Group 14 - ANHYDROUS NORMAL CARBONATES
A(XO3)
Calcite14.1.1.1CaCO3
Group 51 - NESOSILICATES Insular SiO4 Groups Only
Insular SiO4 Groups Only with cations in >[6] coordination
Zircon51.5.2.1Zr(SiO4)
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
Titanite52.4.3.1CaTi(SiO4)O
Group 65 - INOSILICATES Single-Width,Unbranched Chains,(W=1)
Single-Width Unbranched Chains, W=1 with chains P=2
Diopside65.1.3a.1CaMgSi2O6
Group 66 - INOSILICATES Double-Width,Unbranched Chains,(W=2)
Amphiboles - Mg-Fe-Mn-Li subgroup
Katophorite66.1.3b.11{Na}{CaNa}{Mg4Al}[(AlSi7)O22](OH)2
Richterite66.1.3b.9{Na}{NaCa}{Mg5}(Si8O22)(OH)2
Winchite66.1.3b.1☐{CaNa}{Mg4Al}(Si8O22)(OH)2
Group 71 - PHYLLOSILICATES Sheets of Six-Membered Rings
Sheets of 6-membered rings with 2:1 layers
Phlogopite71.2.2b.1KMg3(AlSi3O10)(OH)2
Group 75 - TECTOSILICATES Si Tetrahedral Frameworks
Si Tetrahedral Frameworks - SiO2 with [4] coordinated Si
Quartz75.1.3.1SiO2
Group 76 - TECTOSILICATES Al-Si Framework
Al-Si Framework with Al-Si frameworks
Orthoclase76.1.1.1K(AlSi3O8)
Unclassified Minerals, Mixtures, etc.
'Allanite Group'-{A12+REE3+}{M3+2M32+}(Si2O7)(SiO4)O(OH)
'Apatite'-Ca5(PO4)3(Cl/F/OH)
Arfvedsonite-[Na][Na2][Fe2+4Fe3+]Si8O22(OH)2
Barroisite-☐{CaNa}{Mg3Al2}(AlSi7O22)(OH)2
'Biotite'-K(Fe2+/Mg)2(Al/Fe3+/Mg)([Si/Al]Si2O10)(OH/F)2
'Chlorite Group'-
'Fayalite-Forsterite Series'-
Ferro-richterite-{Na}{CaNa}{Fe2+5}(Si8O22)(OH)2
'K Feldspar'-
Magnesio-arfvedsonite-{Na}{Na2}{Mg4Fe3+}(Si8O22)(OH)2
Magnesio-riebeckite-◻{Na2}{Mg3Fe3+2}(Si8O22)(OH)2
Potassic-arfvedsonite-[(K,Na)][Na2][Fe2+4Fe3+]Si8O22(OH)2
'Potassic-ferro-richterite'-{K}{CaNa}{Fe2+5}Si8O22(OH)2
Potassic-richterite-{K}{CaNa}{Mg5}Si8O22(OH)2
Tetraferriphlogopite-KMg3(Fe3+Si3O10)(OH,F)2

List of minerals for each chemical element

HHydrogen
H Potassic-ferro-richterite{K}{CaNa}{Fe52+}Si8O22(OH)2
H Potassic-arfvedsonite[(K,Na)][Na2][Fe42+Fe3+]Si8O22(OH)2
H TetraferriphlogopiteKMg3(Fe3+Si3O10)(OH,F)2
H Potassic-richterite{K}{CaNa}{Mg5}Si8O22(OH)2
H Arfvedsonite[Na][Na2][Fe42+Fe3+]Si8O22(OH)2
H Richterite{Na}{NaCa}{Mg5}(Si8O22)(OH)2
H PhlogopiteKMg3(AlSi3O10)(OH)2
H Allanite Group{A12+REE3+}{M23+M32+}(Si2O7)(SiO4)O(OH)
H Katophorite{Na}{CaNa}{Mg4Al}[(AlSi7)O22](OH)2
H BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg)([Si/Al]Si2O10)(OH/F)2
H ApatiteCa5(PO4)3(Cl/F/OH)
H Ferro-richterite{Na}{CaNa}{Fe52+}(Si8O22)(OH)2
H Winchite☐{CaNa}{Mg4Al}(Si8O22)(OH)2
H Barroisite☐{CaNa}{Mg3Al2}(AlSi7O22)(OH)2
H Magnesio-arfvedsonite{Na}{Na2}{Mg4Fe3+}(Si8O22)(OH)2
H Magnesio-riebeckite◻{Na2}{Mg3Fe23+}(Si8O22)(OH)2
CCarbon
C CalciteCaCO3
OOxygen
O Potassic-ferro-richterite{K}{CaNa}{Fe52+}Si8O22(OH)2
O Potassic-arfvedsonite[(K,Na)][Na2][Fe42+Fe3+]Si8O22(OH)2
O TetraferriphlogopiteKMg3(Fe3+Si3O10)(OH,F)2
O Potassic-richterite{K}{CaNa}{Mg5}Si8O22(OH)2
O Arfvedsonite[Na][Na2][Fe42+Fe3+]Si8O22(OH)2
O Richterite{Na}{NaCa}{Mg5}(Si8O22)(OH)2
O PhlogopiteKMg3(AlSi3O10)(OH)2
O Qandilite(Mg,Fe3+)2(Ti,Fe3+,Al)O4
O MagnetiteFe2+Fe23+O4
O TitaniteCaTi(SiO4)O
O Allanite Group{A12+REE3+}{M23+M32+}(Si2O7)(SiO4)O(OH)
O ChromiteFe2+Cr23+O4
O CalciteCaCO3
O QuartzSiO2
O UlvöspinelTiFe2O4
O ZirconZr(SiO4)
O Katophorite{Na}{CaNa}{Mg4Al}[(AlSi7)O22](OH)2
O BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg)([Si/Al]Si2O10)(OH/F)2
O OrthoclaseK(AlSi3O8)
O DiopsideCaMgSi2O6
O ApatiteCa5(PO4)3(Cl/F/OH)
O RutileTiO2
O SpinelMgAl2O4
O Ferro-richterite{Na}{CaNa}{Fe52+}(Si8O22)(OH)2
O Winchite☐{CaNa}{Mg4Al}(Si8O22)(OH)2
O Barroisite☐{CaNa}{Mg3Al2}(AlSi7O22)(OH)2
O Magnesio-arfvedsonite{Na}{Na2}{Mg4Fe3+}(Si8O22)(OH)2
O Magnesio-riebeckite◻{Na2}{Mg3Fe23+}(Si8O22)(OH)2
FFluorine
F TetraferriphlogopiteKMg3(Fe3+Si3O10)(OH,F)2
F BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg)([Si/Al]Si2O10)(OH/F)2
F ApatiteCa5(PO4)3(Cl/F/OH)
NaSodium
Na Potassic-ferro-richterite{K}{CaNa}{Fe52+}Si8O22(OH)2
Na Potassic-arfvedsonite[(K,Na)][Na2][Fe42+Fe3+]Si8O22(OH)2
Na Potassic-richterite{K}{CaNa}{Mg5}Si8O22(OH)2
Na Arfvedsonite[Na][Na2][Fe42+Fe3+]Si8O22(OH)2
Na Richterite{Na}{NaCa}{Mg5}(Si8O22)(OH)2
Na Katophorite{Na}{CaNa}{Mg4Al}[(AlSi7)O22](OH)2
Na Ferro-richterite{Na}{CaNa}{Fe52+}(Si8O22)(OH)2
Na Winchite☐{CaNa}{Mg4Al}(Si8O22)(OH)2
Na Barroisite☐{CaNa}{Mg3Al2}(AlSi7O22)(OH)2
Na Magnesio-arfvedsonite{Na}{Na2}{Mg4Fe3+}(Si8O22)(OH)2
Na Magnesio-riebeckite◻{Na2}{Mg3Fe23+}(Si8O22)(OH)2
MgMagnesium
Mg TetraferriphlogopiteKMg3(Fe3+Si3O10)(OH,F)2
Mg Potassic-richterite{K}{CaNa}{Mg5}Si8O22(OH)2
Mg Richterite{Na}{NaCa}{Mg5}(Si8O22)(OH)2
Mg PhlogopiteKMg3(AlSi3O10)(OH)2
Mg Qandilite(Mg,Fe3+)2(Ti,Fe3+,Al)O4
Mg Katophorite{Na}{CaNa}{Mg4Al}[(AlSi7)O22](OH)2
Mg BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg)([Si/Al]Si2O10)(OH/F)2
Mg DiopsideCaMgSi2O6
Mg SpinelMgAl2O4
Mg Winchite☐{CaNa}{Mg4Al}(Si8O22)(OH)2
Mg Barroisite☐{CaNa}{Mg3Al2}(AlSi7O22)(OH)2
Mg Magnesio-arfvedsonite{Na}{Na2}{Mg4Fe3+}(Si8O22)(OH)2
Mg Magnesio-riebeckite◻{Na2}{Mg3Fe23+}(Si8O22)(OH)2
AlAluminium
Al PhlogopiteKMg3(AlSi3O10)(OH)2
Al Qandilite(Mg,Fe3+)2(Ti,Fe3+,Al)O4
Al Katophorite{Na}{CaNa}{Mg4Al}[(AlSi7)O22](OH)2
Al BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg)([Si/Al]Si2O10)(OH/F)2
Al OrthoclaseK(AlSi3O8)
Al SpinelMgAl2O4
Al Winchite☐{CaNa}{Mg4Al}(Si8O22)(OH)2
Al Barroisite☐{CaNa}{Mg3Al2}(AlSi7O22)(OH)2
SiSilicon
Si Potassic-ferro-richterite{K}{CaNa}{Fe52+}Si8O22(OH)2
Si Potassic-arfvedsonite[(K,Na)][Na2][Fe42+Fe3+]Si8O22(OH)2
Si TetraferriphlogopiteKMg3(Fe3+Si3O10)(OH,F)2
Si Potassic-richterite{K}{CaNa}{Mg5}Si8O22(OH)2
Si Arfvedsonite[Na][Na2][Fe42+Fe3+]Si8O22(OH)2
Si Richterite{Na}{NaCa}{Mg5}(Si8O22)(OH)2
Si PhlogopiteKMg3(AlSi3O10)(OH)2
Si TitaniteCaTi(SiO4)O
Si Allanite Group{A12+REE3+}{M23+M32+}(Si2O7)(SiO4)O(OH)
Si QuartzSiO2
Si ZirconZr(SiO4)
Si Katophorite{Na}{CaNa}{Mg4Al}[(AlSi7)O22](OH)2
Si BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg)([Si/Al]Si2O10)(OH/F)2
Si OrthoclaseK(AlSi3O8)
Si DiopsideCaMgSi2O6
Si Ferro-richterite{Na}{CaNa}{Fe52+}(Si8O22)(OH)2
Si Winchite☐{CaNa}{Mg4Al}(Si8O22)(OH)2
Si Barroisite☐{CaNa}{Mg3Al2}(AlSi7O22)(OH)2
Si Magnesio-arfvedsonite{Na}{Na2}{Mg4Fe3+}(Si8O22)(OH)2
Si Magnesio-riebeckite◻{Na2}{Mg3Fe23+}(Si8O22)(OH)2
PPhosphorus
P ApatiteCa5(PO4)3(Cl/F/OH)
ClChlorine
Cl ApatiteCa5(PO4)3(Cl/F/OH)
KPotassium
K Potassic-ferro-richterite{K}{CaNa}{Fe52+}Si8O22(OH)2
K Potassic-arfvedsonite[(K,Na)][Na2][Fe42+Fe3+]Si8O22(OH)2
K TetraferriphlogopiteKMg3(Fe3+Si3O10)(OH,F)2
K Potassic-richterite{K}{CaNa}{Mg5}Si8O22(OH)2
K PhlogopiteKMg3(AlSi3O10)(OH)2
K BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg)([Si/Al]Si2O10)(OH/F)2
K OrthoclaseK(AlSi3O8)
CaCalcium
Ca Potassic-ferro-richterite{K}{CaNa}{Fe52+}Si8O22(OH)2
Ca Potassic-richterite{K}{CaNa}{Mg5}Si8O22(OH)2
Ca Richterite{Na}{NaCa}{Mg5}(Si8O22)(OH)2
Ca TitaniteCaTi(SiO4)O
Ca CalciteCaCO3
Ca Katophorite{Na}{CaNa}{Mg4Al}[(AlSi7)O22](OH)2
Ca DiopsideCaMgSi2O6
Ca ApatiteCa5(PO4)3(Cl/F/OH)
Ca Ferro-richterite{Na}{CaNa}{Fe52+}(Si8O22)(OH)2
Ca Winchite☐{CaNa}{Mg4Al}(Si8O22)(OH)2
Ca Barroisite☐{CaNa}{Mg3Al2}(AlSi7O22)(OH)2
TiTitanium
Ti Qandilite(Mg,Fe3+)2(Ti,Fe3+,Al)O4
Ti TitaniteCaTi(SiO4)O
Ti UlvöspinelTiFe2O4
Ti RutileTiO2
CrChromium
Cr ChromiteFe2+Cr23+O4
FeIron
Fe Potassic-ferro-richterite{K}{CaNa}{Fe52+}Si8O22(OH)2
Fe Potassic-arfvedsonite[(K,Na)][Na2][Fe42+Fe3+]Si8O22(OH)2
Fe TetraferriphlogopiteKMg3(Fe3+Si3O10)(OH,F)2
Fe Arfvedsonite[Na][Na2][Fe42+Fe3+]Si8O22(OH)2
Fe Qandilite(Mg,Fe3+)2(Ti,Fe3+,Al)O4
Fe MagnetiteFe2+Fe23+O4
Fe ChromiteFe2+Cr23+O4
Fe UlvöspinelTiFe2O4
Fe BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg)([Si/Al]Si2O10)(OH/F)2
Fe Ferro-richterite{Na}{CaNa}{Fe52+}(Si8O22)(OH)2
Fe Magnesio-arfvedsonite{Na}{Na2}{Mg4Fe3+}(Si8O22)(OH)2
Fe Magnesio-riebeckite◻{Na2}{Mg3Fe23+}(Si8O22)(OH)2
ZrZirconium
Zr ZirconZr(SiO4)

References

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Year (asc) Year (desc) Author (A-Z) Author (Z-A)
Kaur, G., Mitchell, R. H., and Ahmed, S. (2016) Typomorphic mineralogy of the Vattikod lamproites from Mesoproterozoic Ramadugu Lamproite Field, Nalgonda District, Telangana, India: A plausible manifestation of subduction-related alkaline magmatism in the Eastern Ghats Mobile Belt?
Talukdar, D., Pandey, A., Rao, N. C., Kumar, A., Pandit, D., Belyatsky, B., & Lehmann, B. (2018). Petrology and geochemistry of the Mesoproterozoic Vattikod lamproites, Eastern Dharwar Craton, southern India: evidence for multiple enrichment of sub-continental lithospheric mantle and links with amalgamation and break-up of the Columbia supercontinent. Contributions to Mineralogy and Petrology, 173(8), 67.


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