Predictive Mineralogy

Possible unrecorded species at Kamariza mines (Kamareza mines), Agios Konstantinos (Kamariza), Lavrion Mining District, Lavreotiki, East Attica, Attica, Greece

This table is based on statistical analysis of other localities containing similar species to the ones found at this locality.

Possible missing species	Formula	Match %	Due to recorded presence of
Silver	Ag	99.99%	Acanthite (50.32 %), Agardite-(Ce) (50.00 %), Agardite-(Nd) (57.89 %), Argentopyrite (68.66 %), Betekhtinite (56.67 %), Diaphorite (53.50 %), Dyscrasite (58.82 %), Kaatialaite (58.82 %), Mcnearite (83.33 %), Paramelaconite (58.82 %), Pyrostilpnite (71.88 %), Safflorite (59.63 %), Schultenite (51.28 %), Stephanite (61.76 %), Zincrosasite (53.33 %)
Pyromorphite	Pb₅(PO₄)₃Cl	99.73%	Gartrellite (53.06 %), Mawbyite (58.33 %), Plumbogummite (55.45 %), Ramsbeckite (55.26 %), Redgillite (62.00 %), Scrutinyite (62.50 %), Tsumcorite (51.43 %)
Erythrite	Co₃(AsO₄)₂ · 8H₂O	99.71%	Annabergite (57.77 %), Cobaltaustinite (85.71 %), Euchroite (51.72 %), Pharmacoalumite (50.00 %), Picropharmacolite (50.00 %), Richelsdorfite (60.29 %)
Halotrichite	FeAl₂(SO₄)₄ · 22H₂O	99.47%	Botryogen (54.72 %), Ferricopiapite (60.00 %), Ferrinatrite (66.67 %), Hohmannite (58.33 %), Metahohmannite (55.56 %), Metavoltine (53.19 %)
Duftite	PbCu(AsO₄)(OH)	99.47%	Arsendescloizite (53.57 %), Gartrellite (59.18 %), Mawbyite (58.33 %), Ojuelaite (50.00 %), Philipsburgite (57.58 %), Tsumcorite (68.57 %)
Bayldonite	PbCu₃(AsO₄)₂(OH)₂	98.99%	Arsenogorceixite (58.82 %), Gartrellite (65.31 %), Mawbyite (58.33 %), Philipsburgite (54.55 %), Tsumcorite (62.86 %)
Coquimbite	AlFe₃(SO₄)₆(H₂O)₁₂ · 6H₂O	98.99%	Cuprocopiapite (61.54 %), Hohmannite (66.67 %), Metahohmannite (77.78 %), Paracoquimbite (64.71 %)
Cassiterite	SnO₂	96.87%	Petrukite (58.82 %), Roquesite (53.57 %), Stannite (61.84 %), Zavaritskite (57.14 %)
Cornwallite	Cu₅(AsO₄)₂(OH)₄	95.79%	Arsenocrandallite (56.25 %), Cornubite (57.69 %), Mawbyite (50.00 %), Philipsburgite (54.55 %)
Zinkenite	Pb₉Sb₂₂S₄₂	95.62%	Dadsonite (70.59 %), Fülöppite (69.70 %), Robinsonite (50.94 %)
Alunogen	Al₂(SO₄)₃ · 17H₂O	93.51%	Ferrinatrite (53.33 %), Hohmannite (58.33 %), Metahohmannite (66.67 %)
Pharmacolite	Ca(HAsO₄) · 2H₂O	91.80%	Mcnearite (83.33 %), Picropharmacolite (50.83 %)
Tamarugite	NaAl(SO₄)₂ · 6H₂O	90.37%	Ferrinatrite (56.67 %), Hohmannite (50.00 %), Metahohmannite (55.56 %)
Skutterudite	CoAs₃	86.09%	Mcnearite (66.67 %), Safflorite (58.29 %)
Proustite	Ag₃AsS₃	84.31%	Kaatialaite (52.94 %), Mcnearite (66.67 %)
Römerite	Fe²⁺Fe³⁺₂(SO₄)₄ · 14H₂O	83.33%	Hohmannite (50.00 %), Metahohmannite (66.67 %)
Guérinite	Ca₆(HAsO₄)₃(AsO₄)₂ · 10.5H₂O	83.33%	Mcnearite (83.33 %)
Xanthoconite	Ag₃AsS₃	83.33%	Mcnearite (83.33 %)
Voltaite	K₂Fe²⁺₅Fe³⁺₃Al(SO₄)₁₂ · 18H₂O	79.16%	Ferrinatrite (50.00 %), Hohmannite (58.33 %)
Pickeringite	MgAl₂(SO₄)₄ · 22H₂O	76.66%	Ferrinatrite (53.33 %), Hohmannite (50.00 %)
Jamesonite	Pb₄FeSb₆S₁₄	76.47%	Dadsonite (52.94 %), Fülöppite (50.00 %)
Dervillite	Ag₂AsS₂	66.66%	Mcnearite (66.67 %)
Fluckite	CaMn²⁺(AsO₃OH)₂ · 2H₂O	66.66%	Mcnearite (66.67 %)
Haidingerite	CaHAsO₄ · H₂O	66.66%	Mcnearite (66.67 %)
Hörnesite	Mg₃(AsO₄)₂ · 8H₂O	66.66%	Mcnearite (66.67 %)
Lautite	CuAsS	66.66%	Mcnearite (66.67 %)
Orpiment	As₂S₃	66.66%	Mcnearite (66.67 %)
Pearceite	[Ag₆As₂S₇][Ag₉CuS₄]	66.66%	Mcnearite (66.67 %)
Polybasite	[Ag₆Sb₂S₇][Ag₉CuS₄]	66.66%	Mcnearite (66.67 %)
Rauenthalite	Ca₃(AsO₄)₂ · 10H₂O	66.66%	Mcnearite (66.67 %)
Realgar	As₄S₄	66.66%	Mcnearite (66.67 %)
Rösslerite	Mg(HAsO₄) · 7H₂O	66.66%	Mcnearite (66.67 %)
Sainfeldite	Ca₅(AsO₄)₂(AsO₃OH)₂ · 4H₂O	66.66%	Mcnearite (66.67 %)
Weilite	Ca(HAsO₄)	66.66%	Mcnearite (66.67 %)
Pentlandite	(Ni_xFe_y)_Σ9S₈	62.96%	Mooihoekite (62.96 %)
Legrandite	Zn₂(AsO₄)(OH) · H₂O	60.00%	Ojuelaite (60.00 %)
Kësterite	Cu₂ZnSnS₄	58.82%	Petrukite (58.82 %)
Rhodochrosite	MnCO₃	57.14%	Brandtite (57.14 %)
Halite	NaCl	56.28%	Thénardite (56.29 %)
Leadhillite	Pb₄(CO₃)₂(SO₄)(OH)₂	55.55%	Shannonite (55.56 %)
Massicot	PbO	55.55%	Shannonite (55.56 %)
Uraninite	UO₂	54.77%	Brannerite (54.77 %)
Pseudomalachite	Cu₅(PO₄)₂(OH)₄	54.54%	Philipsburgite (54.55 %)
Sarkinite	Mn²⁺₂(AsO₄)(OH)	52.38%	Brandtite (52.38 %)
Anatase	TiO₂	51.40%	Synchysite-(Ce) (51.41 %)
Microcline	K(AlSi₃O₈)	50.77%	Bastnäsite-(Ce) (50.78 %)
Diopside	CaMgSi₂O₆	50.54%	Wollastonite (50.54 %)
Talmessite	Ca₂Mg(AsO₄)₂ · 2H₂O	50.00%	Cobaltaustinite (50.00 %)
Heterogenite	Co³⁺O(OH)	50.00%	Kolwezite (50.00 %)
Köttigite	Zn₃(AsO₄)₂ · 8H₂O	50.00%	Ojuelaite (50.00 %)
Caledonite	Pb₅Cu₂(SO₄)₃(CO₃)(OH)₆	50.00%	Scrutinyite (50.00 %)
Libethenite	Cu₂(PO₄)(OH)	50.00%	Scrutinyite (50.00 %)
Murdochite	Cu₁₂Pb₂O₁₅Cl₂	50.00%	Scrutinyite (50.00 %)
Dickite	Al₂(Si₂O₅)(OH)₄	50.00%	Minohlite (50.00 %)
Renierite	(Cu¹⁺,Zn)₁₁Fe₄(Ge⁴⁺,As⁵⁺)₂S₁₆	50.00%	Briartite (50.00 %)

Key: Mineral matches key element mineralogy of deposit Key element(s) in mineral not listed for deposit (-20% score)

Predicting paragenetic modes of deposit

Green indicates almost certain match based on minerals unique to a certain deposit type. Yellow indicates a possibly poor match, but should not be entirely discounted. Scores > 100 indicate strong confidence.

Paragenetic Mode	Score
33 : Minerals deposited by hydrothermal metal-rich fluids (see also [#12]) Unique: Aikinite, Argentopyrite, Arsenic, Betekhtinite, Boulangerite, Bournonite, etc.	3,080
47a : Low-𝑇 subaerial oxidative hydration, weathering (see also #16 and #23) - [Near-surface hydration of prior minerals] Unique: Dzhalindite, Fraipontite, Halloysite, Nordstrandite, Sauconite, Woodruffite	1,613
47d : Low-𝑇 subaerial oxidative hydration, weathering (see also #16 and #23) - [Arsenates, antimonates, selenates, bismuthinates]	587
47b : Low-𝑇 subaerial oxidative hydration, weathering (see also #16 and #23) - [Sulfates and sulfites] Unique: Metahohmannite	500
12 : Hadean hydrothermal subsurface sulfide deposits (see also #33) Unique: Briartite, Famatinite, Luzonite, Polydymite, Vaesite	500
47h : Low-𝑇 subaerial oxidative hydration, weathering (see also #16 and #23) - [Near-surface oxidized, dehydrated minerals] Unique: Bismite, Scrutinyite, Wulfenite	387
47c : Low-𝑇 subaerial oxidative hydration, weathering (see also #16 and #23) - [Carbonates, phosphates, borates, nitrates] Unique: Smithsonite	282
23 : Subaerial aqueous alteration by non-redox-sensitive fluids (see also #47) Unique: Spherocobaltite, Zaccagnaite	249
47g : Low-𝑇 subaerial oxidative hydration, weathering (see also #16 and #23) - [Halogen-bearing surface weathering minerals] Unique: Chlorargyrite	130
32 : Ba/Mn/Pb/Zn deposits, including metamorphic deposits Unique: Hetaerolite	128
48 : Soil leaching zone minerals Unique: Gibbsite	100
55 : Anthropogenic mine minerals	95
34 : Complex granite pegmatites	74
47e : Low-𝑇 subaerial oxidative hydration, weathering (see also #16 and #23) - [Vanadates, chromates, manganates]	52
50 : Coal and/or oil shale minerals	47
54 : Coal and other mine fire minerals (see also #51 and #56)	41
56 : Slag and smelter minerals (see also #51 and #55)	39
45b : Oxidized fumarolic minerals (see also [#11]) - [Other oxidized fumarolic minerals]	38
26 : Hadean detrital minerals	36
22 : Hydration and low-𝑇 subsurface aqueous alteration (see also #23)	29