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Dolcoath Mine, Camborne, Cornwall, England, UKi
Regional Level Types
Dolcoath MineMine (Abandoned)
CamborneCivil Parish
CornwallCounty
EnglandConstituent Country
UKCountry

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00005460017271996768836.jpg
View of the Dolcoath copper mine, Camborne, in 1813.

Dolcoath Mine, Camborne, Cornwall, England, UK
07052620017271996771938.jpg
View of the Dolcoath copper-tin mining area, ca. 1900.

Dolcoath Mine, Camborne, Cornwall, England, UK
03491600017271996796007.jpg
View of the Dolcoath copper-tin mining area, ca. 1910.

Dolcoath Mine, Camborne, Cornwall, England, UK
00005460017271996768836.jpg
View of the Dolcoath copper mine, Camborne, in 1813.

Dolcoath Mine, Camborne, Cornwall, England, UK
07052620017271996771938.jpg
View of the Dolcoath copper-tin mining area, ca. 1900.

Dolcoath Mine, Camborne, Cornwall, England, UK
03491600017271996796007.jpg
View of the Dolcoath copper-tin mining area, ca. 1910.

Dolcoath Mine, Camborne, Cornwall, England, UK
00005460017271996768836.jpg
View of the Dolcoath copper mine, Camborne, in 1813.

Dolcoath Mine, Camborne, Cornwall, England, UK
07052620017271996771938.jpg
View of the Dolcoath copper-tin mining area, ca. 1900.

Dolcoath Mine, Camborne, Cornwall, England, UK
Latitude & Longitude (WGS84):
50° 13' 3'' North , 5° 16' 50'' West
Latitude & Longitude (decimal):
50.21750,-5.28056
GRN:
N34W03
UK National Grid Reference:
SW660405
Type:
Mine (Abandoned) - last checked 2019
Köppen climate type:
Cfb : Temperate oceanic climate
Nearest Settlements:
PlacePopulationDistance
Camborne22,500(2012)1.3km
Four Lanes1,416(2017)3.4km
Redruth42,690(2017)4.4km
North Country773(2017)4.7km
Portreath963(2017)4.8km
Mindat Locality ID:
975
Long-form identifier:
mindat:1:2:975:8
GUID (UUID V4):
0
Other Languages:
Cornish:
Bal Dorkoth, Cambron, Kernow, Pow Sows, Ruwvaneth Unys
French:
Mine de Dolcoath, Camborne, Cornouailles, Angleterre, Royaume-Uni


Dolcoath Mine started work for copper during the 1720s and became one of the leading Cornish copper producers before the end of the 18th century. In 1778, when it had reached a depth of 160 fathoms, Parys Mine, Anglesey (commenced in 1772) flooded the market and caused a considerable drop in copper prices, which forced many Cornish mines to close. Though with improved methods of pumping and the decline of the Parys Mine in 1792, Dolcoath Mine again came to the fore and in 1815 had become the most important mine in Cornwall. From 1850, however, the output of copper started to fall from over 1,000 tons annually to nothing in 1878. In 1850, at a depth of 210 fathoms, the mine had reached the tin zone and the output of black tin rose steadily to over 2,000 tons a year in 1884. This output was maintained for about ten years before it started to decline. In 1896, the yield had dropped to 1,160 tons and from 1912, it fell rapidly to only 400 tons in 1918. Nonetheless, throughout the whole period since 1870, Dolcoath Mine remained the largest tin producer in the west of England, and it was not until 1917 that it was surpassed in this respect by East Pool Mine.

Around 1898, the West Dolcoath Exploration Syndicate acquired Camborne Consols, Camborne Vean Mine, Cooks Kitchen Mine, Stray Park Mine, West Stray Park Mine, Wheal Harriett, parts of the North and South Roskear Mines and all of the mines of the Pendarves United group except for Tolcarne, South Tolcarne and Great Condurrow Mine. However, no further work was done on any of these properties, except for the development of the New Roskear Shaft (see below).

In 1920, exploration of the bottom levels became unprofitable and Dolcoath Mine had to close. The company directed its interest now to the Roskear Mine group to the north, large parts of which had been acquired around 1898. In 1929, the New Roskear Shaft was sunk to explore the rich tin ground which was believed to exist below the copper zone of these mines. However, the project was a complete failure: rich tin deposits only exist close to the granite contact, which steeply plunges to the north. Deposits at a greater distance from the contact carry mainly copper and only small amounts of tin. Although the shaft was sunk to a depth of 2,000 feet, the granite contact was not reached and economic quantities of tin were not encountered.

The original sett of Dolcoath Mine lies south of the Camborne-Redruth road, which approximately corresponds to its northern boundary. Its southern boundary is marked by the road running ENE from Camborne Beacon and crossing the Red River southwest of Carn Arthen. Its eastern boundary is Great Crosscourse which more or less follows the course of the Red River; the western boundary is Stray Park Crosscourse, which trends roughly parallel to the former at a distance of about three-quarters of a mile.

The lodes, from north to south, are North Entral Lode, Silver Lode, South Entral Lode, Martin's Lode, Main Lode, Harriett Lode, Richard's Lode, South Lode, Caunter Lode, and Brea Lode. They are trending in northeastern directions, except for Caunter Lode which trends E-W and intersects all lodes from Main Lode to South Lode. It was worked from the New Shaft and the Harriett Shaft, which are located just north of the railway line, opposite the Stray Park workings. The most important lode and also the most productive in the west of England was Main Lode, on which most of the shafts are sunk. It can be traced eastwards through Cooks Kitchen, Tincroft and Carn Brea Mines, and westwards through Camborne Vean Mine beyond which it dies out. Several small branches split on its footwall side, among them the Culvert Course, the Rule's Lode and the Valley Caunter Lode, which were rich in copper ores. Silver Lode, which was developed chiefly from Freeman's Shaft in the west of the sett, 300 yards east of Roskear Street, produced acanthite and ruby silver.

The total output of Dolcoath and its associated mines is estimated at 350,000 tons of copper ore grading at 6-7.5% Cu and over 80,000 tons of black tin. In addition, small amounts of zinc, cobalt, nickel, bismuth and silver ores, and considerable quantities of arsenopyrite and pyrite were produced.

Select Mineral List Type

StandardDetailedGalleryStrunzChemical Elements

Commodity List

This is a list of exploitable or exploited mineral commodities recorded from this region.


Mineral List

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

54 valid minerals.

Rock Types Recorded

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

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

Select Rock List Type

Alphabetical ListTree Diagram

Detailed Mineral List:

Acanthite
Formula:Ag2S
Actinolite
Formula:◻Ca2(Mg4.5-2.5Fe0.5-2.5)Si8O22(OH)2
Aluminocopiapite
Formula:Al2/3Fe3+4(SO4)6(OH)2 · 20H2O
Alunogen
Formula:Al2(SO4)3 · 17H2O
Andalusite
Formula:Al2(SiO4)O
Andalusite var. Chiastolite
Formula:Al2(SiO4)O
Annabergite
Formula:Ni3(AsO4)2 · 8H2O
Arsenolite
Formula:As2O3
Arsenopyrite
Formula:FeAsS
Augite
Formula:(CaxMgyFez)(Mgy1Fez1)Si2O6
Axinite-(Fe)
Formula:Ca2Fe2+Al2BSi4O15OH
'Axinite Group'
Azurite
Formula:Cu3(CO3)2(OH)2
Bismuthinite
Formula:Bi2S3
Bornite
Formula:Cu5FeS4
Calcite
Formula:CaCO3
Cassiterite
Formula:SnO2
Description: Dolcoath Mine was renowned for high quality examples of the form of Cassiterite known as 'sparable tin', an elongate acutely tapered crystal form that bore a resemblance to hand made 'sparrow bill' nails.
Chalcocite
Formula:Cu2S
References:
Phillips, William (1823)An Elementary Introduction to Mineralogy (3rd ed.)
Henwood, William Jory (1843) On the Metalliferous Deposits of Cornwall and Devon.Transactions of the Royal Geological Society of Cornwall, 5. 1-386
Smyth, Warington W.; Reeks, Trenham; Rudler, F. W. (1864)A Catalogue of the Mineral Collections in the Museum of Practical Geology. Museum of Practical Geology.
Hall, Townshend M. (1868)The Mineralogist's Directory: or, a guide to the Principal Mineral Localities in the United Kingdom of Great Britain and Ireland. Edward Stanford.
Royal Cornwall Polytechnic Society (1870): 38. Annual Report, pp. 30-31
Hill, J. B., MacAlister, D. A. (1906)The Geology of Falmouth and Truro and of the Mining District of Camborne and Redruth - Memoirs of the Geological Survey. Geological Survey of Great Britain.
Chalcopyrite
Formula:CuFeS2
Chalcopyrite var. Blistered Copper
Formula:CuFeS2
Chlorargyrite
Formula:AgCl
Chlorargyrite var. Bromian Chlorargyrite
Formula:Ag(Cl,Br)
'Chlorite Group'
Cobaltite
Formula:CoAsS
Cuprite
Formula:Cu2O
Dolomite
Formula:CaMg(CO3)2
Dzhalindite ?
Formula:In(OH)3
Epsomite
Formula:MgSO4 · 7H2O
Erythrite
Formula:Co3(AsO4)2 · 8H2O
References:
Carne, J. (1822) On the relative age of the veins of Cornwall.Transactions of the Royal Geological Society of Cornwall, 2. 49-128
Phillips, William (1823)An Elementary Introduction to Mineralogy (3rd ed.)
Hogg, Thomas (1825)A Manual of Mineralogy - In which is shown how much Cornwall contributes to the illustration of the science. W. Polybank High Cross, Truro.
Hall, Townshend M. (1868)The Mineralogist's Directory: or, a guide to the Principal Mineral Localities in the United Kingdom of Great Britain and Ireland. Edward Stanford.
Collins, J. H. (1871)A Handbook to the Mineralogy of Cornwall and Devon. Heard and Sons, Truro.
Hill, J. B., MacAlister, D. A. (1906)The Geology of Falmouth and Truro and of the Mining District of Camborne and Redruth - Memoirs of the Geological Survey. Geological Survey of Great Britain.
Fluorite
Formula:CaF2
Galena
Formula:PbS
'Ganomatite'
'Garnet Group'
Formula:X3Z2(SiO4)3
Hematite
Formula:Fe2O3
Hematite var. Specularite
Formula:Fe2O3
'Hornblende Root Name Group'
Formula:◻Ca2(Z2+4Z3+)(AlSi7O22)(OH,F,Cl)2
Johannite
Formula:Cu(UO2)2(SO4)2(OH)2 · 8H2O
Langite
Formula:Cu4(SO4)(OH)6 · 2H2O
'Limonite'
Malachite
Formula:Cu2(CO3)(OH)2
Muscovite
Formula:KAl2(AlSi3O10)(OH)2
Native Arsenic
Formula:As
Native Bismuth
Formula:Bi
Native Copper
Formula:Cu
Native Indium ?
Formula:In
Native Silver
Formula:Ag
References:
Phillips, William (1823)An Elementary Introduction to Mineralogy (3rd ed.)
Hogg, Thomas (1825)A Manual of Mineralogy - In which is shown how much Cornwall contributes to the illustration of the science. W. Polybank High Cross, Truro.
Henwood, William Jory (1843) On the Metalliferous Deposits of Cornwall and Devon.Transactions of the Royal Geological Society of Cornwall, 5. 1-386
Hall, Townshend M. (1868)The Mineralogist's Directory: or, a guide to the Principal Mineral Localities in the United Kingdom of Great Britain and Ireland. Edward Stanford.
Collins, J. H. (1871)A Handbook to the Mineralogy of Cornwall and Devon. Heard and Sons, Truro.
Hill, J. B., MacAlister, D. A. (1906)The Geology of Falmouth and Truro and of the Mining District of Camborne and Redruth - Memoirs of the Geological Survey. Geological Survey of Great Britain.
Nickelskutterudite
Formula:NiAs3
Olivenite
Formula:Cu2(AsO4)(OH)
References:
De Bondt, Paul (n.d.)Personal communication.Identified by Paul De Bondt: Visual Identification
Orthoclase
Formula:K(AlSi3O8)
Pitticite
Formula:(Fe, AsO4, H2O) (?)
Pyrargyrite
Formula:Ag3SbS3
Pyrite
Formula:FeS2
Pyrrhotite
Formula:Fe1-xS
Quartz
Formula:SiO2
Quartz var. Amethyst
Formula:SiO2
Quartz var. Rock Crystal
Formula:SiO2
Scheelite
Formula:Ca(WO4)
Schorl
Formula:NaFe2+3Al6(Si6O18)(BO3)3(OH)3(OH)
Siderite
Formula:FeCO3
Skutterudite
Formula:CoAs3
Sphalerite
Formula:ZnS
Stannite
Formula:Cu2FeSnS4
Stibnite
Formula:Sb2S3
'Tennantite Subgroup'
Formula:Cu6(Cu4C2+2)As4S12S
Tenorite
Formula:CuO
'Tourmaline'
Formula:AD3G6(T6O18)(BO3)3X3Z
Uraninite
Formula:UO2
Uraninite var. Pitchblende
Formula:UO2
'Wolframite Group'
Zippeite
Formula:K3(UO2)4(SO4)2O3(OH) · 3H2O

Gallery:

FeAsSArsenopyrite
Cu5FeS4Bornite
SnO2Cassiterite
Cu2SChalcocite
CuFeS2Chalcopyrite
CuFeS2Chalcopyrite var. Blistered Copper
FeCO3Siderite
Cu6(Cu4C2+2)As4S12S'Tennantite Subgroup'

List of minerals arranged by Strunz 10th Edition classification

Group 1 - Elements
Native Copper1.AA.05Cu
Native Silver1.AA.05Ag
Native Indium ?1.AC.05In
Native Arsenic1.CA.05As
Native Bismuth1.CA.05Bi
Group 2 - Sulphides and Sulfosalts
Chalcocite2.BA.05Cu2S
Bornite2.BA.15Cu5FeS4
Acanthite2.BA.35Ag2S
Sphalerite2.CB.05aZnS
Chalcopyrite2.CB.10aCuFeS2
var. Blistered Copper2.CB.10aCuFeS2
Stannite2.CB.15aCu2FeSnS4
Pyrrhotite2.CC.10Fe1-xS
Galena2.CD.10PbS
Bismuthinite2.DB.05Bi2S3
Stibnite2.DB.05Sb2S3
Pyrite2.EB.05aFeS2
Arsenopyrite2.EB.20FeAsS
Cobaltite2.EB.25CoAsS
Nickelskutterudite2.EC.05NiAs3
Skutterudite2.EC.05CoAs3
Pyrargyrite2.GA.05Ag3SbS3
'Tennantite Subgroup'2.GB.05Cu6(Cu4C2+2)As4S12S
Group 3 - Halides
Chlorargyrite3.AA.15AgCl
var. Bromian Chlorargyrite3.AA.15Ag(Cl,Br)
Fluorite3.AB.25CaF2
Group 4 - Oxides and Hydroxides
Cuprite4.AA.10Cu2O
Tenorite4.AB.10CuO
Hematite4.CB.05Fe2O3
var. Specularite4.CB.05Fe2O3
Arsenolite4.CB.50As2O3
Quartz
var. Amethyst		4.DA.05SiO2
4.DA.05SiO2
var. Rock Crystal4.DA.05SiO2
Cassiterite4.DB.05SnO2
'Wolframite Group'4.DB.30 va
Uraninite
var. Pitchblende		4.DL.05UO2
4.DL.05UO2
Dzhalindite ?4.FC.05In(OH)3
Group 5 - Nitrates and Carbonates
Calcite5.AB.05CaCO3
Siderite5.AB.05FeCO3
Dolomite5.AB.10CaMg(CO3)2
Azurite5.BA.05Cu3(CO3)2(OH)2
Malachite5.BA.10Cu2(CO3)(OH)2
Group 7 - Sulphates, Chromates, Molybdates and Tungstates
Epsomite7.CB.40MgSO4 · 7H2O
Alunogen7.CB.45Al2(SO4)3 · 17H2O
Aluminocopiapite7.DB.35Al2/3Fe3+4(SO4)6(OH)2 · 20H2O
Langite7.DD.10Cu4(SO4)(OH)6 · 2H2O
Johannite7.EB.05Cu(UO2)2(SO4)2(OH)2 · 8H2O
Zippeite7.EC.05K3(UO2)4(SO4)2O3(OH) · 3H2O
Scheelite7.GA.05Ca(WO4)
Group 8 - Phosphates, Arsenates and Vanadates
Olivenite8.BB.30Cu2(AsO4)(OH)
Annabergite8.CE.40Ni3(AsO4)2 · 8H2O
Erythrite8.CE.40Co3(AsO4)2 · 8H2O
Pitticite8.DB.05(Fe, AsO4, H2O) (?)
Group 9 - Silicates
Andalusite9.AF.10Al2(SiO4)O
var. Chiastolite9.AF.10Al2(SiO4)O
Axinite-(Fe)9.BD.20Ca2Fe2+Al2BSi4O15OH
Schorl9.CK.05NaFe2+3Al6(Si6O18)(BO3)3(OH)3(OH)
Augite9.DA.15(CaxMgyFez)(Mgy1Fez1)Si2O6
Actinolite9.DE.10◻Ca2(Mg4.5-2.5Fe0.5-2.5)Si8O22(OH)2
Muscovite9.EC.15KAl2(AlSi3O10)(OH)2
Orthoclase9.FA.30K(AlSi3O8)
Unclassified
'Chlorite Group'-
'Ganomatite'-
'Limonite'-
'Tourmaline'-AD3G6(T6O18)(BO3)3X3Z
'Hornblende Root Name Group'-◻Ca2(Z2+4Z3+)(AlSi7O22)(OH,F,Cl)2
'Garnet Group'-X3Z2(SiO4)3
'Axinite Group'-

List of minerals for each chemical element

HHydrogen
HActinolite◻Ca2(Mg4.5-2.5Fe0.5-2.5)Si8O22(OH)2
HAluminocopiapiteAl2/3Fe43+(SO4)6(OH)2 · 20H2O
HAlunogenAl2(SO4)3 · 17H2O
HAnnabergiteNi3(AsO4)2 · 8H2O
HAzuriteCu3(CO3)2(OH)2
HDzhalinditeIn(OH)3
HEpsomiteMgSO4 · 7H2O
HErythriteCo3(AsO4)2 · 8H2O
HAxinite-(Fe)Ca2Fe2+Al2BSi4O15OH
HJohanniteCu(UO2)2(SO4)2(OH)2 · 8H2O
HLangiteCu4(SO4)(OH)6 · 2H2O
HMalachiteCu2(CO3)(OH)2
HMuscoviteKAl2(AlSi3O10)(OH)2
HOliveniteCu2(AsO4)(OH)
HPitticite(Fe, AsO4, H2O) (?)
HSchorlNaFe32+Al6(Si6O18)(BO3)3(OH)3(OH)
HZippeiteK3(UO2)4(SO4)2O3(OH) · 3H2O
HHornblende Root Name Group◻Ca2(Z42+Z3+)(AlSi7O22)(OH,F,Cl)2
BBoron
BAxinite-(Fe)Ca2Fe2+Al2BSi4O15OH
BSchorlNaFe32+Al6(Si6O18)(BO3)3(OH)3(OH)
BTourmalineAD3G6(T6O18)(BO3)3X3Z
CCarbon
CAzuriteCu3(CO3)2(OH)2
CCalciteCaCO3
CDolomiteCaMg(CO3)2
CMalachiteCu2(CO3)(OH)2
CSideriteFeCO3
OOxygen
OActinolite◻Ca2(Mg4.5-2.5Fe0.5-2.5)Si8O22(OH)2
OAluminocopiapiteAl2/3Fe43+(SO4)6(OH)2 · 20H2O
OAlunogenAl2(SO4)3 · 17H2O
OQuartz var.AmethystSiO2
OAndalusiteAl2(SiO4)O
OAnnabergiteNi3(AsO4)2 · 8H2O
OArsenoliteAs2O3
OAugite(CaxMgyFez)(Mgy1Fez1)Si2O6
OAzuriteCu3(CO3)2(OH)2
OCalciteCaCO3
OCassiteriteSnO2
OAndalusite var.ChiastoliteAl2(SiO4)O
OCupriteCu2O
ODolomiteCaMg(CO3)2
ODzhalinditeIn(OH)3
OEpsomiteMgSO4 · 7H2O
OErythriteCo3(AsO4)2 · 8H2O
OAxinite-(Fe)Ca2Fe2+Al2BSi4O15OH
OHematiteFe2O3
OJohanniteCu(UO2)2(SO4)2(OH)2 · 8H2O
OLangiteCu4(SO4)(OH)6 · 2H2O
OMalachiteCu2(CO3)(OH)2
OMuscoviteKAl2(AlSi3O10)(OH)2
OOliveniteCu2(AsO4)(OH)
OOrthoclaseK(AlSi3O8)
OUraninite var.PitchblendeUO2
OPitticite(Fe, AsO4, H2O) (?)
OQuartzSiO2
OScheeliteCa(WO4)
OSchorlNaFe32+Al6(Si6O18)(BO3)3(OH)3(OH)
OSideriteFeCO3
OTenoriteCuO
OTourmalineAD3G6(T6O18)(BO3)3X3Z
OUraniniteUO2
OZippeiteK3(UO2)4(SO4)2O3(OH) · 3H2O
OHematite var.SpeculariteFe2O3
OQuartz var.Rock CrystalSiO2
OHornblende Root Name Group◻Ca2(Z42+Z3+)(AlSi7O22)(OH,F,Cl)2
OGarnet GroupX3Z2(SiO4)3
FFluorine
FFluoriteCaF2
FHornblende Root Name Group◻Ca2(Z42+Z3+)(AlSi7O22)(OH,F,Cl)2
NaSodium
NaSchorlNaFe32+Al6(Si6O18)(BO3)3(OH)3(OH)
MgMagnesium
MgActinolite◻Ca2(Mg4.5-2.5Fe0.5-2.5)Si8O22(OH)2
MgAugite(CaxMgyFez)(Mgy1Fez1)Si2O6
MgDolomiteCaMg(CO3)2
MgEpsomiteMgSO4 · 7H2O
AlAluminium
AlAluminocopiapiteAl2/3Fe43+(SO4)6(OH)2 · 20H2O
AlAlunogenAl2(SO4)3 · 17H2O
AlAndalusiteAl2(SiO4)O
AlAndalusite var.ChiastoliteAl2(SiO4)O
AlAxinite-(Fe)Ca2Fe2+Al2BSi4O15OH
AlMuscoviteKAl2(AlSi3O10)(OH)2
AlOrthoclaseK(AlSi3O8)
AlSchorlNaFe32+Al6(Si6O18)(BO3)3(OH)3(OH)
AlHornblende Root Name Group◻Ca2(Z42+Z3+)(AlSi7O22)(OH,F,Cl)2
SiSilicon
SiActinolite◻Ca2(Mg4.5-2.5Fe0.5-2.5)Si8O22(OH)2
SiQuartz var.AmethystSiO2
SiAndalusiteAl2(SiO4)O
SiAugite(CaxMgyFez)(Mgy1Fez1)Si2O6
SiAndalusite var.ChiastoliteAl2(SiO4)O
SiAxinite-(Fe)Ca2Fe2+Al2BSi4O15OH
SiMuscoviteKAl2(AlSi3O10)(OH)2
SiOrthoclaseK(AlSi3O8)
SiQuartzSiO2
SiSchorlNaFe32+Al6(Si6O18)(BO3)3(OH)3(OH)
SiQuartz var.Rock CrystalSiO2
SiHornblende Root Name Group◻Ca2(Z42+Z3+)(AlSi7O22)(OH,F,Cl)2
SiGarnet GroupX3Z2(SiO4)3
SSulfur
SAcanthiteAg2S
SAluminocopiapiteAl2/3Fe43+(SO4)6(OH)2 · 20H2O
SAlunogenAl2(SO4)3 · 17H2O
SArsenopyriteFeAsS
SBismuthiniteBi2S3
SBorniteCu5FeS4
SChalcopyriteCuFeS2
SChalcociteCu2S
SCobaltiteCoAsS
SEpsomiteMgSO4 · 7H2O
SGalenaPbS
SJohanniteCu(UO2)2(SO4)2(OH)2 · 8H2O
SLangiteCu4(SO4)(OH)6 · 2H2O
SPyrargyriteAg3SbS3
SPyriteFeS2
SPyrrhotiteFe1-xS
SSphaleriteZnS
SStanniteCu2FeSnS4
SStibniteSb2S3
STennantite SubgroupCu6(Cu4C22+)As4S12S
SZippeiteK3(UO2)4(SO4)2O3(OH) · 3H2O
SChalcopyrite var.Blistered CopperCuFeS2
ClChlorine
ClChlorargyriteAgCl
ClChlorargyrite var.Bromian ChlorargyriteAg(Cl,Br)
ClHornblende Root Name Group◻Ca2(Z42+Z3+)(AlSi7O22)(OH,F,Cl)2
KPotassium
KMuscoviteKAl2(AlSi3O10)(OH)2
KOrthoclaseK(AlSi3O8)
KZippeiteK3(UO2)4(SO4)2O3(OH) · 3H2O
CaCalcium
CaActinolite◻Ca2(Mg4.5-2.5Fe0.5-2.5)Si8O22(OH)2
CaAugite(CaxMgyFez)(Mgy1Fez1)Si2O6
CaCalciteCaCO3
CaDolomiteCaMg(CO3)2
CaAxinite-(Fe)Ca2Fe2+Al2BSi4O15OH
CaFluoriteCaF2
CaScheeliteCa(WO4)
CaHornblende Root Name Group◻Ca2(Z42+Z3+)(AlSi7O22)(OH,F,Cl)2
FeIron
FeActinolite◻Ca2(Mg4.5-2.5Fe0.5-2.5)Si8O22(OH)2
FeAluminocopiapiteAl2/3Fe43+(SO4)6(OH)2 · 20H2O
FeArsenopyriteFeAsS
FeAugite(CaxMgyFez)(Mgy1Fez1)Si2O6
FeBorniteCu5FeS4
FeChalcopyriteCuFeS2
FeAxinite-(Fe)Ca2Fe2+Al2BSi4O15OH
FeHematiteFe2O3
FePitticite(Fe, AsO4, H2O) (?)
FePyriteFeS2
FePyrrhotiteFe1-xS
FeSchorlNaFe32+Al6(Si6O18)(BO3)3(OH)3(OH)
FeSideriteFeCO3
FeStanniteCu2FeSnS4
FeHematite var.SpeculariteFe2O3
FeChalcopyrite var.Blistered CopperCuFeS2
CoCobalt
CoCobaltiteCoAsS
CoErythriteCo3(AsO4)2 · 8H2O
CoSkutteruditeCoAs3
NiNickel
NiAnnabergiteNi3(AsO4)2 · 8H2O
NiNickelskutteruditeNiAs3
CuCopper
CuAzuriteCu3(CO3)2(OH)2
CuBorniteCu5FeS4
CuChalcopyriteCuFeS2
CuChalcociteCu2S
CuCupriteCu2O
CuNative CopperCu
CuJohanniteCu(UO2)2(SO4)2(OH)2 · 8H2O
CuLangiteCu4(SO4)(OH)6 · 2H2O
CuMalachiteCu2(CO3)(OH)2
CuOliveniteCu2(AsO4)(OH)
CuStanniteCu2FeSnS4
CuTennantite SubgroupCu6(Cu4C22+)As4S12S
CuTenoriteCuO
CuChalcopyrite var.Blistered CopperCuFeS2
ZnZinc
ZnSphaleriteZnS
AsArsenic
AsAnnabergiteNi3(AsO4)2 · 8H2O
AsArsenoliteAs2O3
AsArsenopyriteFeAsS
AsNative ArsenicAs
AsCobaltiteCoAsS
AsErythriteCo3(AsO4)2 · 8H2O
AsNickelskutteruditeNiAs3
AsOliveniteCu2(AsO4)(OH)
AsPitticite(Fe, AsO4, H2O) (?)
AsSkutteruditeCoAs3
AsTennantite SubgroupCu6(Cu4C22+)As4S12S
BrBromine
BrChlorargyrite var.Bromian ChlorargyriteAg(Cl,Br)
AgSilver
AgAcanthiteAg2S
AgChlorargyriteAgCl
AgChlorargyrite var.Bromian ChlorargyriteAg(Cl,Br)
AgPyrargyriteAg3SbS3
AgNative SilverAg
InIndium
InDzhalinditeIn(OH)3
InNative IndiumIn
SnTin
SnCassiteriteSnO2
SnStanniteCu2FeSnS4
SbAntimony
SbPyrargyriteAg3SbS3
SbStibniteSb2S3
WTungsten
WScheeliteCa(WO4)
PbLead
PbGalenaPbS
BiBismuth
BiNative BismuthBi
BiBismuthiniteBi2S3
UUranium
UJohanniteCu(UO2)2(SO4)2(OH)2 · 8H2O
UUraninite var.PitchblendeUO2
UUraniniteUO2
UZippeiteK3(UO2)4(SO4)2O3(OH) · 3H2O

Geochronology

Geologic TimeRocks, Minerals and Events
Phanerozoic
 Paleozoic
  Permian
   Guadalupian
ⓘ Major polymetallic mineralization~270 MaCornwall, England, UK
   Cisuralian
ⓘ Porphyry dikes intruded (latest age)~275 MaCornwall, England, UK
ⓘ Greisenization (latest age)~280 MaCornwall, England, UK
ⓘ Porphyry dikes intruded (earliest age)~280 MaCornwall, England, UK
ⓘ Formation of metallized pegmatites~285 MaCornwall, England, UK
ⓘ Greisenization (earliest age)~285 MaCornwall, England, UK
ⓘ Emplacement of major plutons~295 MaCornwall, England, UK

Other Databases

Wikipedia:https://en.wikipedia.org/wiki/Dolcoath_mine
Wikidata ID:Q5288904

Localities in this Region

Other Regions, Features and Areas containing this locality

British and Irish IslesGroup of Islands
Eurasian PlateTectonic Plate
EuropeContinent
UK

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References

https://www.youtube.com/watch?v=hoGJTFRVBzM
Thomas, J. (1870) Description of the operations at Dolcoath Mine. Journal of the Royal Institution of Cornwall: 12: 191-197.
Russell, Arthur (1920) On the occurrence of Phenacite and Scheelite at Wheal Cock, St. Just, Cornwall.Mineralogical Magazine and Journal of the Mineralogical Society, 19 (88) 19-22doi:10.1180/minmag.1920.019.88.06
Dines, H. G. (1956)The Metalliferous Mining Region of South-West England (1st ed.) Vol. 1. Geological Survey of Great Britain, London.pp.306-311
Harris, T. R. (1974)Dolcoath: Queen of the Cornish Mines - Occasional Publication No. 1. The Trevithick Society, Truro.
Embrey, Peter G., Symes, Robert F. (1987)Minerals of Cornwall and Devon. British Museum (Natural History) and the Mineralogical Record, Inc., London and Tucson, AZ.pp.42-43
La Boutillier N. (2005) Zinc and Cadmium at South Crofty Mine; Corporate Report for Baseresult Ltd. 74 p. (Much discussion on the textures of zoned cassiterite-chlorite-pyrite (green peach) mineralization from the neighboring South Crofty Mine)
P. and E. Mining Consultants Inc. (2016) Technical Report and Resource Estimate on the South Crofty Tin Project, Cornwall, United Kingdom; NI43-101 and 43-101F, Technical Report no. 295, 118 pages (This report covers the historic South Crofty and Dolcoath Mine).
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