Kollam District, Kerala, Indiai
| Regional Level Types | |
|---|---|
| Kollam District | District |
| Kerala | State |
| India | Country |
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Locality type:
Largest Settlements:
| Place | Population |
|---|---|
| Kollam | 394,163 (2016) |
| Punalūr | 47,263 (2017) |
| Paravūr Tekkumbhāgam | 38,946 (2017) |
| Ponmana | 29,139 (2017) |
Other/historical names associated with this locality:
Quilon
Other Languages:
French:
Quilon, Kerala, Inde
German:
Kollam, Kerala, Indien
Hindi:
कोल्लम जिला, केरल, भारत
Italian:
distretto di Kollam, Kerala, India
Russian:
Коллам, Керала, Индия
Simplified Chinese:
果拉姆縣, 喀拉拉邦, 印度
Spanish:
Kollam, Kerala, India
Arabic:
منطقة كولام, كيرلا, الهند
Asturian:
Kollam, Kerala, India
Bengali:
কোল্লাম জেলা, কেরল, ভারত
Catalan:
Districte de Kollam, Kerala, Índia
Dutch:
Kollam, Kerala, Indië
Farsi/Persian:
بخش کولام, کرالا, هندوستان
Gujarati:
કોલ્લમ જિલ્લો, કેરળ, ભારત
Japanese:
コーラム県, ケーララ, インド
Malayalam:
കൊല്ലം ജില്ല, കേരളം, ഇന്ത്യ
Marathi:
कोल्लम जिल्हा, केरळ, भारत
Minnan / Hokkien-Taiwanese:
Kollam, Kerala, Ìn-tō͘
Newar / Nepal Bhasa:
कोल्लम् जिल्ला, केरल, भारत
Norwegian:
Kollam, Kerala, India
Sanskrit:
कोल्लम-मण्डलम्, केरळम्, भारतम्
Tamil:
கொல்லம் மாவட்டம், கேரளம், இந்தியா
Telugu:
కొల్లం, కేరళ, భారత దేశం
Urdu:
کولم ضلع, کیرلا, بھارت
Vietnamese:
Kollam, Kerala, Ấn Độ
Western Punjabi:
ضلع کولام, کیرالہ, ھندستان
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Rock Types Recorded
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Alphabetical List Tree DiagramDetailed Mineral List:
| ⓘ Almandine Formula: Fe2+3Al2(SiO4)3 Reference: Anonymous, 1912, Monazite Sand from Travancore,India, Bulletin of the Imperial Institute 9. |
| ⓘ 'Apatite' Formula: Ca5(PO4)3(Cl/F/OH) Reference: Rajesh, V. J., Arai, S., Santosh, M., & Tamura, A. (2010). LREE-rich hibonite in ultrapotassic rocks in southern India. Lithos, 115(1-4), 40-50.
Sandiford, M., & Santosh, M. (1991). A granulite facies kalsilite-leucite-hibonite association from Punalur, Southern India. Mineralogy and Petrology, 43(3), 225-236.
Rajesh, V. J., Arima, M., & Santosh, M. (2004). Dunite, glimmerite and spinellite in Achankovil Shear Zone, South India: implications for highly potassic CO2-rich melt influx along an intra-continental shear zone. Gondwana Research, 7(4), 961-974.
Rajesh, V. J., & Arai, S. (2006). Baddeleyite-apatite-spinel-phlogopite (BASP) rock in Achankovil Shear Zone, South India, as a probable cumulate from melts of carbonatite affinity. Lithos, 90(1-2), 1-18. |
| ⓘ Baddeleyite Formula: ZrO2 Reference: Rajesh, V. J., Arai, S., Santosh, M., & Tamura, A. (2010). LREE-rich hibonite in ultrapotassic rocks in southern India. Lithos, 115(1-4), 40-50.
Sandiford, M., & Santosh, M. (1991). A granulite facies kalsilite-leucite-hibonite association from Punalur, Southern India. Mineralogy and Petrology, 43(3), 225-236.
Rajesh, V. J., Arima, M., & Santosh, M. (2004). Dunite, glimmerite and spinellite in Achankovil Shear Zone, South India: implications for highly potassic CO2-rich melt influx along an intra-continental shear zone. Gondwana Research, 7(4), 961-974.
Rajesh, V. J., & Arai, S. (2006). Baddeleyite-apatite-spinel-phlogopite (BASP) rock in Achankovil Shear Zone, South India, as a probable cumulate from melts of carbonatite affinity. Lithos, 90(1-2), 1-18. |
| ⓘ '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: Rajesh, V. J., Arai, S., Santosh, M., & Tamura, A. (2010). LREE-rich hibonite in ultrapotassic rocks in southern India. Lithos, 115(1-4), 40-50.
Sandiford, M., & Santosh, M. (1991). A granulite facies kalsilite-leucite-hibonite association from Punalur, Southern India. Mineralogy and Petrology, 43(3), 225-236.
Rajesh, V. J., Arima, M., & Santosh, M. (2004). Dunite, glimmerite and spinellite in Achankovil Shear Zone, South India: implications for highly potassic CO2-rich melt influx along an intra-continental shear zone. Gondwana Research, 7(4), 961-974.
Rajesh, V. J., & Arai, S. (2006). Baddeleyite-apatite-spinel-phlogopite (BASP) rock in Achankovil Shear Zone, South India, as a probable cumulate from melts of carbonatite affinity. Lithos, 90(1-2), 1-18. |
| ⓘ Corundum Formula: Al2O3 Reference: Rajesh, V. J., Arai, S., Santosh, M., & Tamura, A. (2010). LREE-rich hibonite in ultrapotassic rocks in southern India. Lithos, 115(1-4), 40-50.
Sandiford, M., & Santosh, M. (1991). A granulite facies kalsilite-leucite-hibonite association from Punalur, Southern India. Mineralogy and Petrology, 43(3), 225-236.
Rajesh, V. J., Arima, M., & Santosh, M. (2004). Dunite, glimmerite and spinellite in Achankovil Shear Zone, South India: implications for highly potassic CO2-rich melt influx along an intra-continental shear zone. Gondwana Research, 7(4), 961-974.
Rajesh, V. J., & Arai, S. (2006). Baddeleyite-apatite-spinel-phlogopite (BASP) rock in Achankovil Shear Zone, South India, as a probable cumulate from melts of carbonatite affinity. Lithos, 90(1-2), 1-18. |
| ⓘ Dolomite Formula: CaMg(CO3)2 Reference: Rajesh, V. J., Arai, S., Santosh, M., & Tamura, A. (2010). LREE-rich hibonite in ultrapotassic rocks in southern India. Lithos, 115(1-4), 40-50.
Sandiford, M., & Santosh, M. (1991). A granulite facies kalsilite-leucite-hibonite association from Punalur, Southern India. Mineralogy and Petrology, 43(3), 225-236.
Rajesh, V. J., Arima, M., & Santosh, M. (2004). Dunite, glimmerite and spinellite in Achankovil Shear Zone, South India: implications for highly potassic CO2-rich melt influx along an intra-continental shear zone. Gondwana Research, 7(4), 961-974.
Rajesh, V. J., & Arai, S. (2006). Baddeleyite-apatite-spinel-phlogopite (BASP) rock in Achankovil Shear Zone, South India, as a probable cumulate from melts of carbonatite affinity. Lithos, 90(1-2), 1-18. |
| ⓘ 'Fayalite-Forsterite Series' Reference: Rajesh, V. J., Arai, S., Santosh, M., & Tamura, A. (2010). LREE-rich hibonite in ultrapotassic rocks in southern India. Lithos, 115(1-4), 40-50.
Sandiford, M., & Santosh, M. (1991). A granulite facies kalsilite-leucite-hibonite association from Punalur, Southern India. Mineralogy and Petrology, 43(3), 225-236.
Rajesh, V. J., Arima, M., & Santosh, M. (2004). Dunite, glimmerite and spinellite in Achankovil Shear Zone, South India: implications for highly potassic CO2-rich melt influx along an intra-continental shear zone. Gondwana Research, 7(4), 961-974.
Rajesh, V. J., & Arai, S. (2006). Baddeleyite-apatite-spinel-phlogopite (BASP) rock in Achankovil Shear Zone, South India, as a probable cumulate from melts of carbonatite affinity. Lithos, 90(1-2), 1-18. |
| ⓘ 'Feldspar Group' Reference: Rajesh, V. J., Arai, S., Santosh, M., & Tamura, A. (2010). LREE-rich hibonite in ultrapotassic rocks in southern India. Lithos, 115(1-4), 40-50.
Sandiford, M., & Santosh, M. (1991). A granulite facies kalsilite-leucite-hibonite association from Punalur, Southern India. Mineralogy and Petrology, 43(3), 225-236.
Rajesh, V. J., Arima, M., & Santosh, M. (2004). Dunite, glimmerite and spinellite in Achankovil Shear Zone, South India: implications for highly potassic CO2-rich melt influx along an intra-continental shear zone. Gondwana Research, 7(4), 961-974.
Rajesh, V. J., & Arai, S. (2006). Baddeleyite-apatite-spinel-phlogopite (BASP) rock in Achankovil Shear Zone, South India, as a probable cumulate from melts of carbonatite affinity. Lithos, 90(1-2), 1-18. |
| ⓘ 'Garnet Group' Formula: X3Z2(SiO4)3 Reference: Rajesh, V. J., Arai, S., Santosh, M., & Tamura, A. (2010). LREE-rich hibonite in ultrapotassic rocks in southern India. Lithos, 115(1-4), 40-50.
Sandiford, M., & Santosh, M. (1991). A granulite facies kalsilite-leucite-hibonite association from Punalur, Southern India. Mineralogy and Petrology, 43(3), 225-236.
Rajesh, V. J., Arima, M., & Santosh, M. (2004). Dunite, glimmerite and spinellite in Achankovil Shear Zone, South India: implications for highly potassic CO2-rich melt influx along an intra-continental shear zone. Gondwana Research, 7(4), 961-974.
Rajesh, V. J., & Arai, S. (2006). Baddeleyite-apatite-spinel-phlogopite (BASP) rock in Achankovil Shear Zone, South India, as a probable cumulate from melts of carbonatite affinity. Lithos, 90(1-2), 1-18. |
| ⓘ Graphite Formula: C Reference: Rajesh, V. J., Arai, S., Santosh, M., & Tamura, A. (2010). LREE-rich hibonite in ultrapotassic rocks in southern India. Lithos, 115(1-4), 40-50.
Sandiford, M., & Santosh, M. (1991). A granulite facies kalsilite-leucite-hibonite association from Punalur, Southern India. Mineralogy and Petrology, 43(3), 225-236.
Rajesh, V. J., Arima, M., & Santosh, M. (2004). Dunite, glimmerite and spinellite in Achankovil Shear Zone, South India: implications for highly potassic CO2-rich melt influx along an intra-continental shear zone. Gondwana Research, 7(4), 961-974.
Rajesh, V. J., & Arai, S. (2006). Baddeleyite-apatite-spinel-phlogopite (BASP) rock in Achankovil Shear Zone, South India, as a probable cumulate from melts of carbonatite affinity. Lithos, 90(1-2), 1-18. |
| ⓘ Hibonite Formula: CaAl12O19 Reference: Rajesh, V. J., Arai, S., Santosh, M., & Tamura, A. (2010). LREE-rich hibonite in ultrapotassic rocks in southern India. Lithos, 115(1-4), 40-50.
Sandiford, M., & Santosh, M. (1991). A granulite facies kalsilite-leucite-hibonite association from Punalur, Southern India. Mineralogy and Petrology, 43(3), 225-236.
Rajesh, V. J., Arima, M., & Santosh, M. (2004). Dunite, glimmerite and spinellite in Achankovil Shear Zone, South India: implications for highly potassic CO2-rich melt influx along an intra-continental shear zone. Gondwana Research, 7(4), 961-974.
Rajesh, V. J., & Arai, S. (2006). Baddeleyite-apatite-spinel-phlogopite (BASP) rock in Achankovil Shear Zone, South India, as a probable cumulate from melts of carbonatite affinity. Lithos, 90(1-2), 1-18. |
| ⓘ 'Hornblende' Reference: Anonymous, 1912, Monazite Sand from Travancore,India, Bulletin of the Imperial Institute 9. |
| ⓘ Ilmenite Formula: Fe2+TiO3 Localities: Reference: Parthasarathy, P., Desai,H. B. and S. R. Kayasth (1968) Radiochemical neutron activation analysis of individual rare earth elements in monazites from different geological environments, Journal of Radioanalytical and Nuclear Chemistry, 105: 277-289. |
| ⓘ Kalsilite Formula: KAlSiO4 Reference: Rajesh, V. J., Arai, S., Santosh, M., & Tamura, A. (2010). LREE-rich hibonite in ultrapotassic rocks in southern India. Lithos, 115(1-4), 40-50.
Sandiford, M., & Santosh, M. (1991). A granulite facies kalsilite-leucite-hibonite association from Punalur, Southern India. Mineralogy and Petrology, 43(3), 225-236.
Rajesh, V. J., Arima, M., & Santosh, M. (2004). Dunite, glimmerite and spinellite in Achankovil Shear Zone, South India: implications for highly potassic CO2-rich melt influx along an intra-continental shear zone. Gondwana Research, 7(4), 961-974.
Rajesh, V. J., & Arai, S. (2006). Baddeleyite-apatite-spinel-phlogopite (BASP) rock in Achankovil Shear Zone, South India, as a probable cumulate from melts of carbonatite affinity. Lithos, 90(1-2), 1-18. |
| ⓘ 'K Feldspar' Formula: KAlSi3O8 Reference: Rajesh, V. J., Arai, S., Santosh, M., & Tamura, A. (2010). LREE-rich hibonite in ultrapotassic rocks in southern India. Lithos, 115(1-4), 40-50.
Sandiford, M., & Santosh, M. (1991). A granulite facies kalsilite-leucite-hibonite association from Punalur, Southern India. Mineralogy and Petrology, 43(3), 225-236.
Rajesh, V. J., Arima, M., & Santosh, M. (2004). Dunite, glimmerite and spinellite in Achankovil Shear Zone, South India: implications for highly potassic CO2-rich melt influx along an intra-continental shear zone. Gondwana Research, 7(4), 961-974.
Rajesh, V. J., & Arai, S. (2006). Baddeleyite-apatite-spinel-phlogopite (BASP) rock in Achankovil Shear Zone, South India, as a probable cumulate from melts of carbonatite affinity. Lithos, 90(1-2), 1-18. |
| ⓘ Leucite Formula: K(AlSi2O6) Reference: Rajesh, V. J., Arai, S., Santosh, M., & Tamura, A. (2010). LREE-rich hibonite in ultrapotassic rocks in southern India. Lithos, 115(1-4), 40-50.
Sandiford, M., & Santosh, M. (1991). A granulite facies kalsilite-leucite-hibonite association from Punalur, Southern India. Mineralogy and Petrology, 43(3), 225-236.
Rajesh, V. J., Arima, M., & Santosh, M. (2004). Dunite, glimmerite and spinellite in Achankovil Shear Zone, South India: implications for highly potassic CO2-rich melt influx along an intra-continental shear zone. Gondwana Research, 7(4), 961-974.
Rajesh, V. J., & Arai, S. (2006). Baddeleyite-apatite-spinel-phlogopite (BASP) rock in Achankovil Shear Zone, South India, as a probable cumulate from melts of carbonatite affinity. Lithos, 90(1-2), 1-18. |
| ⓘ Monazite-(Ce) Formula: Ce(PO4) Localities: Reference: Parthasarathy, P., Desai,H. B. and S. R. Kayasth (1968) Radiochemical neutron activation analysis of individual rare earth elements in monazites from different geological environments, Journal of Radioanalytical and Nuclear Chemistry, 105: 277-289. |
| ⓘ Perovskite Formula: CaTiO3 Reference: Rajesh, V. J., Arai, S., Santosh, M., & Tamura, A. (2010). LREE-rich hibonite in ultrapotassic rocks in southern India. Lithos, 115(1-4), 40-50.
Sandiford, M., & Santosh, M. (1991). A granulite facies kalsilite-leucite-hibonite association from Punalur, Southern India. Mineralogy and Petrology, 43(3), 225-236.
Rajesh, V. J., Arima, M., & Santosh, M. (2004). Dunite, glimmerite and spinellite in Achankovil Shear Zone, South India: implications for highly potassic CO2-rich melt influx along an intra-continental shear zone. Gondwana Research, 7(4), 961-974.
Rajesh, V. J., & Arai, S. (2006). Baddeleyite-apatite-spinel-phlogopite (BASP) rock in Achankovil Shear Zone, South India, as a probable cumulate from melts of carbonatite affinity. Lithos, 90(1-2), 1-18. |
| ⓘ Phlogopite Formula: KMg3(AlSi3O10)(OH)2 Reference: Rajesh, V. J., Arai, S., Santosh, M., & Tamura, A. (2010). LREE-rich hibonite in ultrapotassic rocks in southern India. Lithos, 115(1-4), 40-50.
Sandiford, M., & Santosh, M. (1991). A granulite facies kalsilite-leucite-hibonite association from Punalur, Southern India. Mineralogy and Petrology, 43(3), 225-236.
Rajesh, V. J., Arima, M., & Santosh, M. (2004). Dunite, glimmerite and spinellite in Achankovil Shear Zone, South India: implications for highly potassic CO2-rich melt influx along an intra-continental shear zone. Gondwana Research, 7(4), 961-974.
Rajesh, V. J., & Arai, S. (2006). Baddeleyite-apatite-spinel-phlogopite (BASP) rock in Achankovil Shear Zone, South India, as a probable cumulate from melts of carbonatite affinity. Lithos, 90(1-2), 1-18. |
| ⓘ Quartz Formula: SiO2 Localities: Reference: Parthasarathy, P., Desai,H. B. and S. R. Kayasth (1968) Radiochemical neutron activation analysis of individual rare earth elements in monazites from different geological environments, Journal of Radioanalytical and Nuclear Chemistry, 105: 277-289. |
| ⓘ Rutile Formula: TiO2 Localities: Reference: Anonymous, 1912, Monazite Sand from Travancore,India, Bulletin of the Imperial Institute 9. |
| ⓘ Sillimanite Formula: Al2(SiO4)O Reference: Rajesh, V. J., Arai, S., Santosh, M., & Tamura, A. (2010). LREE-rich hibonite in ultrapotassic rocks in southern India. Lithos, 115(1-4), 40-50.
Sandiford, M., & Santosh, M. (1991). A granulite facies kalsilite-leucite-hibonite association from Punalur, Southern India. Mineralogy and Petrology, 43(3), 225-236.
Rajesh, V. J., Arima, M., & Santosh, M. (2004). Dunite, glimmerite and spinellite in Achankovil Shear Zone, South India: implications for highly potassic CO2-rich melt influx along an intra-continental shear zone. Gondwana Research, 7(4), 961-974.
Rajesh, V. J., & Arai, S. (2006). Baddeleyite-apatite-spinel-phlogopite (BASP) rock in Achankovil Shear Zone, South India, as a probable cumulate from melts of carbonatite affinity. Lithos, 90(1-2), 1-18. |
| ⓘ Spinel Formula: MgAl2O4 Localities: Reference: Anonymous, 1912, Monazite Sand from Travancore,India, Bulletin of the Imperial Institute 9. |
| ⓘ Titanite Formula: CaTi(SiO4)O Reference: Rajesh, V. J., Arai, S., Santosh, M., & Tamura, A. (2010). LREE-rich hibonite in ultrapotassic rocks in southern India. Lithos, 115(1-4), 40-50.
Sandiford, M., & Santosh, M. (1991). A granulite facies kalsilite-leucite-hibonite association from Punalur, Southern India. Mineralogy and Petrology, 43(3), 225-236.
Rajesh, V. J., Arima, M., & Santosh, M. (2004). Dunite, glimmerite and spinellite in Achankovil Shear Zone, South India: implications for highly potassic CO2-rich melt influx along an intra-continental shear zone. Gondwana Research, 7(4), 961-974.
Rajesh, V. J., & Arai, S. (2006). Baddeleyite-apatite-spinel-phlogopite (BASP) rock in Achankovil Shear Zone, South India, as a probable cumulate from melts of carbonatite affinity. Lithos, 90(1-2), 1-18. |
| ⓘ Zircon Formula: Zr(SiO4) Localities: Reference: Parthasarathy, P., Desai,H. B. and S. R. Kayasth (1968) Radiochemical neutron activation analysis of individual rare earth elements in monazites from different geological environments, Journal of Radioanalytical and Nuclear Chemistry, 105: 277-289. |
Gallery:
List of minerals arranged by Strunz 10th Edition classification
| Group 1 - Elements | |||
|---|---|---|---|
| ⓘ | Graphite | 1.CB.05a | C |
| Group 4 - Oxides and Hydroxides | |||
| ⓘ | Baddeleyite | 4.DE.35 | ZrO2 |
| ⓘ | Corundum | 4.CB.05 | Al2O3 |
| ⓘ | Hibonite | 4.CC.45 | CaAl12O19 |
| ⓘ | Ilmenite | 4.CB.05 | Fe2+TiO3 |
| ⓘ | Perovskite | 4.CC.30 | CaTiO3 |
| ⓘ | Quartz | 4.DA.05 | SiO2 |
| ⓘ | Rutile | 4.DB.05 | TiO2 |
| ⓘ | Spinel | 4.BB.05 | MgAl2O4 |
| Group 5 - Nitrates and Carbonates | |||
| ⓘ | Dolomite | 5.AB.10 | CaMg(CO3)2 |
| Group 8 - Phosphates, Arsenates and Vanadates | |||
| ⓘ | Monazite-(Ce) | 8.AD.50 | Ce(PO4) |
| Group 9 - Silicates | |||
| ⓘ | Almandine | 9.AD.25 | Fe2+3Al2(SiO4)3 |
| ⓘ | Kalsilite | 9.FA.05 | KAlSiO4 |
| ⓘ | Leucite | 9.GB.05 | K(AlSi2O6) |
| ⓘ | Phlogopite | 9.EC.20 | KMg3(AlSi3O10)(OH)2 |
| ⓘ | Sillimanite | 9.AF.05 | Al2(SiO4)O |
| ⓘ | Titanite | 9.AG.15 | CaTi(SiO4)O |
| ⓘ | Zircon | 9.AD.30 | Zr(SiO4) |
| Unclassified Minerals, Rocks, etc. | |||
| ⓘ | 'Apatite' | - | Ca5(PO4)3(Cl/F/OH) |
| ⓘ | 'Biotite' | - | K(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2 |
| ⓘ | 'Fayalite-Forsterite Series' | - | |
| ⓘ | 'Feldspar Group' | - | |
| ⓘ | 'Garnet Group' | - | X3Z2(SiO4)3 |
| ⓘ | 'Hornblende' | - | |
| ⓘ | 'K Feldspar' | - | KAlSi3O8 |
List of minerals for each chemical element
| H | Hydrogen | |
|---|---|---|
| H | ⓘ Biotite | K(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2 |
| H | ⓘ Apatite | Ca5(PO4)3(Cl/F/OH) |
| H | ⓘ Phlogopite | KMg3(AlSi3O10)(OH)2 |
| C | Carbon | |
| C | ⓘ Dolomite | CaMg(CO3)2 |
| C | ⓘ Graphite | C |
| O | Oxygen | |
| O | ⓘ Monazite-(Ce) | Ce(PO4) |
| O | ⓘ Ilmenite | Fe2+TiO3 |
| O | ⓘ Zircon | Zr(SiO4) |
| O | ⓘ Quartz | SiO2 |
| O | ⓘ Rutile | TiO2 |
| O | ⓘ Spinel | MgAl2O4 |
| O | ⓘ Almandine | Fe32+Al2(SiO4)3 |
| O | ⓘ Kalsilite | KAlSiO4 |
| O | ⓘ Leucite | K(AlSi2O6) |
| O | ⓘ Hibonite | CaAl12O19 |
| O | ⓘ Garnet Group | X3Z2(SiO4)3 |
| O | ⓘ Sillimanite | Al2(SiO4)O |
| O | ⓘ Biotite | K(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2 |
| O | ⓘ Corundum | Al2O3 |
| O | ⓘ Apatite | Ca5(PO4)3(Cl/F/OH) |
| O | ⓘ Perovskite | CaTiO3 |
| O | ⓘ Titanite | CaTi(SiO4)O |
| O | ⓘ K Feldspar | KAlSi3O8 |
| O | ⓘ Phlogopite | KMg3(AlSi3O10)(OH)2 |
| O | ⓘ Dolomite | CaMg(CO3)2 |
| O | ⓘ Baddeleyite | ZrO2 |
| F | Fluorine | |
| F | ⓘ Biotite | K(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2 |
| F | ⓘ Apatite | Ca5(PO4)3(Cl/F/OH) |
| Mg | Magnesium | |
| Mg | ⓘ Spinel | MgAl2O4 |
| Mg | ⓘ Biotite | K(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2 |
| Mg | ⓘ Phlogopite | KMg3(AlSi3O10)(OH)2 |
| Mg | ⓘ Dolomite | CaMg(CO3)2 |
| Al | Aluminium | |
| Al | ⓘ Spinel | MgAl2O4 |
| Al | ⓘ Almandine | Fe32+Al2(SiO4)3 |
| Al | ⓘ Kalsilite | KAlSiO4 |
| Al | ⓘ Leucite | K(AlSi2O6) |
| Al | ⓘ Hibonite | CaAl12O19 |
| Al | ⓘ Sillimanite | Al2(SiO4)O |
| Al | ⓘ Biotite | K(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2 |
| Al | ⓘ Corundum | Al2O3 |
| Al | ⓘ K Feldspar | KAlSi3O8 |
| Al | ⓘ Phlogopite | KMg3(AlSi3O10)(OH)2 |
| Si | Silicon | |
| Si | ⓘ Zircon | Zr(SiO4) |
| Si | ⓘ Quartz | SiO2 |
| Si | ⓘ Almandine | Fe32+Al2(SiO4)3 |
| Si | ⓘ Kalsilite | KAlSiO4 |
| Si | ⓘ Leucite | K(AlSi2O6) |
| Si | ⓘ Garnet Group | X3Z2(SiO4)3 |
| Si | ⓘ Sillimanite | Al2(SiO4)O |
| Si | ⓘ Biotite | K(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2 |
| Si | ⓘ Titanite | CaTi(SiO4)O |
| Si | ⓘ K Feldspar | KAlSi3O8 |
| Si | ⓘ Phlogopite | KMg3(AlSi3O10)(OH)2 |
| P | Phosphorus | |
| P | ⓘ Monazite-(Ce) | Ce(PO4) |
| P | ⓘ Apatite | Ca5(PO4)3(Cl/F/OH) |
| Cl | Chlorine | |
| Cl | ⓘ Apatite | Ca5(PO4)3(Cl/F/OH) |
| K | Potassium | |
| K | ⓘ Kalsilite | KAlSiO4 |
| K | ⓘ Leucite | K(AlSi2O6) |
| K | ⓘ Biotite | K(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2 |
| K | ⓘ K Feldspar | KAlSi3O8 |
| K | ⓘ Phlogopite | KMg3(AlSi3O10)(OH)2 |
| Ca | Calcium | |
| Ca | ⓘ Hibonite | CaAl12O19 |
| Ca | ⓘ Apatite | Ca5(PO4)3(Cl/F/OH) |
| Ca | ⓘ Perovskite | CaTiO3 |
| Ca | ⓘ Titanite | CaTi(SiO4)O |
| Ca | ⓘ Dolomite | CaMg(CO3)2 |
| Ti | Titanium | |
| Ti | ⓘ Ilmenite | Fe2+TiO3 |
| Ti | ⓘ Rutile | TiO2 |
| Ti | ⓘ Biotite | K(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2 |
| Ti | ⓘ Perovskite | CaTiO3 |
| Ti | ⓘ Titanite | CaTi(SiO4)O |
| Fe | Iron | |
| Fe | ⓘ Ilmenite | Fe2+TiO3 |
| Fe | ⓘ Almandine | Fe32+Al2(SiO4)3 |
| Fe | ⓘ Biotite | K(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2 |
| Zr | Zirconium | |
| Zr | ⓘ Zircon | Zr(SiO4) |
| Zr | ⓘ Baddeleyite | ZrO2 |
| Ce | Cerium | |
| Ce | ⓘ Monazite-(Ce) | Ce(PO4) |
Geochronology
Mineralization age: Eoarchean to Ordovician : 4000 Ma to 464.5 ± 9.2 MaImportant 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 Time | Rocks, Minerals and Events | ||||||
|---|---|---|---|---|---|---|---|
| Phanerozoic | |||||||
| Paleozoic | |||||||
| Ordovician | |||||||
| Middle Ordovician |
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| Early/Lower Ordovician |
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| Precambrian | |||||||
| Archean |
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Fossils
There are 4 fossil localities from the PaleoBioDB database within this region.BETA TEST - These data are provided on an experimental basis and are taken from external databases. Mindat.org has no control currently over the accuracy of these data.
| Occurrences | 157 | |||||||||
|---|---|---|---|---|---|---|---|---|---|---|
| Youngest Fossil Listed | 16.0 Ma (Miocene) | |||||||||
| Oldest Fossil Listed | 23.0 Ma (Oligocene) | |||||||||
| Stratigraphic Units |
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| Fossils from Region | Click here to show the list. | |||||||||
| Fossil Localities | Click to show 4 fossil localities |
Other Databases
| Wikipedia: | https://en.wikipedia.org/wiki/Kollam_district |
|---|---|
| Wikidata ID: | Q1356124 |
| GeoNames ID: | 7909821 |
Localities in this Region
- Kerala
Other Regions, Features and Areas that Intersect
Indian Plate (India Plate)Tectonic Plate
- Konkan-Kerala basinBasin
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