Predictive Mineralogy

Possible unrecorded species at Sakha, Russia

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
Pseudobrookite	Fe₂TiO₅	100.00%	Mathiasite (100.00 %), Yimengite (100.00 %), Yuanfuliite (50.00 %)
Hollingworthite	(Rh,Pt,Pd)AsS	99.99%	Cuprorhodsite (56.14 %), Keithconnite (56.14 %), Kingstonite (66.67 %), Malanite (51.11 %), Mertieite (54.55 %), Rhodarsenide (90.00 %), Skaergaardite (60.00 %), Telluropalladinite (64.00 %), Tulameenite (50.00 %), Vasilite (64.29 %), Zvyagintsevite (55.77 %)
Olivenite	Cu₂(AsO₄)(OH)	99.99%	Arthurite (74.36 %), Bayldonite (52.26 %), Clinoclase (73.29 %), Cornwallite (74.16 %), Euchroite (55.17 %), Leogangite (62.50 %), Strashimirite (80.00 %), Tangdanite (66.67 %)
Pectolite	NaCa₂Si₃O₈(OH)	99.81%	Fersmanite (64.29 %), Fluorstrophite (58.33 %), Rasvumite (64.00 %), Shcherbakovite (76.19 %), Stronadelphite (71.43 %), Vinogradovite (50.00 %)
Braggite	PdPt₃S₄	99.71%	Keithconnite (61.40 %), Rhodarsenide (50.00 %), Telluropalladinite (76.00 %), Vasilite (50.00 %), Vysotskite (74.71 %), Zvyagintsevite (51.92 %)
Mimetite	Pb₅(AsO₄)₃Cl	99.53%	Arthurite (51.28 %), Bayldonite (71.86 %), Duftite (71.26 %), Dugganite (52.38 %), Leogangite (50.00 %), Yafsoanite (50.00 %)
Michenerite	PdBiTe	98.31%	Froodite (65.79 %), Kotulskite (50.90 %), Merenskyite (51.53 %), Sudburyite (58.73 %), Zvyagintsevite (50.00 %)
Tyrolite	Ca₂Cu₉(AsO₄)₄(CO₃)(OH)₈ · 11H₂O	94.67%	Leogangite (68.75 %), Strashimirite (57.39 %), Tangdanite (60.00 %)
Halotrichite	FeAl₂(SO₄)₄ · 22H₂O	94.39%	Apjohnite (51.43 %), Meta-aluminite (50.00 %), Meta-alunogen (50.00 %), Poitevinite (53.85 %)
Hemimorphite	Zn₄Si₂O₇(OH)₂ · H₂O	94.29%	Dugganite (61.90 %), Kuksite (64.29 %), Otavite (58.06 %)
Langite	Cu₄(SO₄)(OH)₆ · 2H₂O	93.75%	Leogangite (93.75 %)
Ulexite	NaCa[B₅O₆(OH)₆] · 5H₂O	91.33%	Inderite (76.47 %), Inyoite (63.16 %)
Rhodonite	CaMn₃Mn[Si₅O₁₅]	89.78%	Magnetoplumbite (50.00 %), Tephroite (79.56 %)
Devilline	CaCu₄(SO₄)₂(OH)₆ · 3H₂O	87.50%	Leogangite (87.50 %)
Wulfenite	Pb(MoO₄)	85.71%	Kuksite (64.29 %), Yafsoanite (60.00 %)
Ringwoodite	(Mg,Fe²⁺)₂SiO₄	85.67%	Majorite (60.61 %), Tuite (63.64 %)
Erythrite	Co₃(AsO₄)₂ · 8H₂O	84.91%	Euchroite (51.72 %), Leogangite (68.75 %)
Posnjakite	Cu₄(SO₄)(OH)₆ · H₂O	81.25%	Leogangite (81.25 %)
Epsomite	MgSO₄ · 7H₂O	80.76%	Meta-aluminite (50.00 %), Pentahydrite (61.54 %)
Colemanite	Ca[B₃O₄(OH)₃] · H₂O	80.18%	Inderite (52.94 %), Inyoite (57.89 %)
Villiaumite	NaF	77.14%	Rasvumite (52.00 %), Shcherbakovite (52.38 %)
Kurnakovite	MgB₃O₃(OH)₅ · 5H₂O	76.47%	Inderite (76.47 %)
Alunogen	Al₂(SO₄)₃ · 17H₂O	75.00%	Meta-alunogen (75.00 %)
Naquite	FeSi	75.00%	Linzhiite (75.00 %)
Uvarovite	Ca₃Cr₂(SiO₄)₃	71.42%	Redledgeite (71.43 %)
Barytocalcite	BaCa(CO₃)₂	70.00%	Paralstonite (70.00 %)
Routhierite	Tl(Cu,Ag)(Hg,Zn)₂(As,Sb)₂S₆	66.66%	Parapierrotite (66.67 %)
Borax	Na₂(B₄O₅)(OH)₄ · 8H₂O	64.70%	Inderite (64.71 %)
Cordylite-(Ce)	NaBaCe₂(CO₃)₄F	63.63%	Huanghoite-(Ce) (63.64 %)
Akimotoite	(Mg,Fe²⁺)SiO₃	63.63%	Tuite (63.64 %)
Atokite	(Pd,Pt)₃Sn	63.46%	Zvyagintsevite (63.46 %)
Parnauite	Cu₉(AsO₄)₂(SO₄)(OH)₁₀ · 7H₂O	62.50%	Leogangite (62.50 %)
Serpierite	Ca(Cu,Zn)₄(SO₄)₂(OH)₆ · 3H₂O	62.50%	Leogangite (62.50 %)
Pharmacosiderite	KFe³⁺₄(AsO₄)₃(OH)₄ · 6-7H₂O	61.53%	Arthurite (61.54 %)
Hydroboracite	CaMg[B₃O₄(OH)₃]₂ · 3H₂O	58.82%	Inderite (58.82 %)
Rosasite	(Cu,Zn)₂(CO₃)(OH)₂	58.06%	Otavite (58.06 %)
Beraunite	Fe³⁺₆(PO₄)₄O(OH)₄ · 6H₂O	57.57%	Metavivianite (57.58 %)
Pyromorphite	Pb₅(PO₄)₃Cl	57.14%	Kuksite (57.14 %)
Schachnerite	Ag_1.1Hg_0.9	57.14%	Paraschachnerite (57.14 %)
Rinkite-(Ce)	(Ca₃Ce)Na(NaCa)Ti(Si₂O₇)₂(OF)F₂	57.14%	Stronadelphite (57.14 %)
Natron	Na₂CO₃ · 10H₂O	57.14%	Tychite (57.14 %)
Thermonatrite	Na₂CO₃ · H₂O	57.14%	Tychite (57.14 %)
Wavellite	Al₃(PO₄)₂(OH,F)₃ · 5H₂O	56.52%	Planerite (56.52 %)
Adamite	Zn₂(AsO₄)(OH)	56.25%	Leogangite (56.25 %)
Ancylite-(Ce)	CeSr(CO₃)₂(OH) · H₂O	56.25%	Olekminskite (56.25 %)
Parisite-(Ce)	CaCe₂(CO₃)₃F₂	55.55%	Röntgenite-(Ce) (55.56 %)
Lingunite	(Na,Ca)AlSi₃O₈	54.54%	Tuite (54.55 %)
Fairchildite	K₂Ca(CO₃)₂	54.54%	Bütschliite (54.55 %)
Skutterudite	CoAs₃	53.42%	Rammelsbergite (53.43 %)
Chalcophyllite	Cu₁₈Al₂(AsO₄)₄(SO₄)₃(OH)₂₄ · 36H₂O	53.33%	Tangdanite (53.33 %)
Tincalconite	Na₂(B₄O₇) · 5H₂O	52.94%	Inderite (52.94 %)
Oldhamite	(Ca,Mg)S	52.94%	Keilite (52.94 %)
Frohbergite	FeTe₂	52.00%	Montbrayite (52.00 %)
Copiapite	Fe²⁺Fe³⁺₄(SO₄)₆(OH)₂ · 20H₂O	51.72%	Amarantite (51.72 %)
Kieserite	MgSO₄ · H₂O	51.06%	Langbeinite (51.06 %)
Emplectite	CuBiS₂	50.00%	Cuprobismutite (50.00 %)
Walstromite	BaCa₂(Si₃O₉)	50.00%	Fresnoite (50.00 %)
Linarite	PbCu(SO₄)(OH)₂	50.00%	Kuksite (50.00 %)
Ecdemite	Pb₆Cl₄(As₂O₇)	50.00%	Magnetoplumbite (50.00 %)
Hedyphane	Ca₂Pb₃(AsO₄)₃Cl	50.00%	Magnetoplumbite (50.00 %)
Jacobsite	Mn²⁺Fe³⁺₂O₄	50.00%	Magnetoplumbite (50.00 %)
Kentrolite	Pb₂Mn³⁺₂(Si₂O₇)O₂	50.00%	Magnetoplumbite (50.00 %)
Whitlockite	Ca₉Mg(PO₄)₆(PO₃OH)	50.00%	Meta-aluminite (50.00 %)
Alunite	KAl₃(SO₄)₂(OH)₆	50.00%	Meta-alunogen (50.00 %)
Mixite	BiCu₆(AsO₄)₃(OH)₆ · 3H₂O	50.00%	Slavkovite (50.00 %)
Iridarsenite	(Ir,Ru)As₂	50.00%	Ruthenarsenite (50.00 %)
Larnite	Ca₂SiO₄	50.00%	Wadalite (50.00 %)
Spurrite	Ca₅(SiO₄)₂(CO₃)	50.00%	Wadalite (50.00 %)
Srebrodolskite	Ca₂Fe³⁺₂O₅	50.00%	Wadalite (50.00 %)
Rondorfite	Ca₈Mg(SiO₄)₄Cl₂	50.00%	Wadalite (50.00 %)
Tridymite	SiO₂	50.00%	Yuanfuliite (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, Aktashite, Aleksite, Allargentum, Aramayoite, Arsenic, etc.	7,641
35 : Ultra-alkali and agpaitic igneous rocks Unique: Aqualite, Astrophyllite, Lamprophyllite, Britholite-(Ce), Calcioburbankite, Catapleiite, etc.	1,912
23 : Subaerial aqueous alteration by non-redox-sensitive fluids (see also #47) Unique: Aluminomagnesiohulsite, Hulsite, Hydroxylborite, Karlite, Kotoite, Kurchatovite, etc.	1,419
34 : Complex granite pegmatites Unique: Ixiolite-(Mn2+)-Ixiolite-(Fe2+) Series, Lithiophilite, Microlite Group, Polylithionite, Spodumene, Tantalite-(Mn), etc.	1,102
36 : Carbonatites, kimberlites, and related igneous rocks Unique: Fluorstrophite, Gregoryite, Hawthorneite, Kimzeyite, Lindsleyite, Mathiasite, etc.	985
31 : Thermally altered carbonate, phosphate, and iron formations Unique: Azoproite, Harkerite, Rudenkoite, Sakhaite, Tobermorite, Wiluite, etc.	868
47a : Low-𝑇 subaerial oxidative hydration, weathering (see also #16 and #23) - [Near-surface hydration of prior minerals] Unique: Halloysite, Natanite, Tungstite	687
12 : Hadean hydrothermal subsurface sulfide deposits (see also #33) Unique: Famatinite, Gustavite, Hocartite, Kësterite, Roxbyite, Villamanínite	649
32 : Ba/Mn/Pb/Zn deposits, including metamorphic deposits Unique: Fresnoite, Hausmannite, Kutnohorite, Magnetoplumbite	470
5 : Primary asteroid phases Unique: Czochralskiite, Kosmochlor, Panethite	364
37 : Layered igneous intrusions and related PGE minerals Unique: Skaergaardite	360
40 : Regional metamorphism (greenschist, amphibolite, granulite facies) Unique: Amesite, Kornerupine	359
6 : Secondary asteroid phases Unique: Amakinite, Tuite	351
47c : Low-𝑇 subaerial oxidative hydration, weathering (see also #16 and #23) - [Carbonates, phosphates, borates, nitrates] Unique: Otavite, Smithsonite	350
25 : Evaporites (prebiotic) Unique: Carboborite, Popugaevaite	311
47g : Low-𝑇 subaerial oxidative hydration, weathering (see also #16 and #23) - [Halogen-bearing surface weathering minerals] Unique: Bromargyrite, Chlorargyrite, Fluorocronite	303
50 : Coal and/or oil shale minerals Unique: Stepanovite, Zhemchuzhnikovite	267
26 : Hadean detrital minerals	228
7 : Ultramafic igneous rocks Unique: Redledgeite	215
47h : Low-𝑇 subaerial oxidative hydration, weathering (see also #16 and #23) - [Near-surface oxidized, dehydrated minerals] Unique: Pseudorutile	209
22 : Hydration and low-𝑇 subsurface aqueous alteration (see also #23) Unique: Sinkankasite	175
46 : Near-surface hydrothermal alteration of minerals (see also #22) Unique: Cesanite	141
48 : Soil leaching zone minerals Unique: Gibbsite	137
13 : Hadean serpentinization Unique: Hydrotalcite	135
14 : Hot springs, geysers, and other subaerial geothermal minerals Unique: Lenaite	126
47d : Low-𝑇 subaerial oxidative hydration, weathering (see also #16 and #23) - [Arsenates, antimonates, selenates, bismuthinates]	123
19 : Granitic intrusive rocks Unique: Tetraferriphlogopite	119
3 : Solar nebular condensates (CAIs, AOAs, URIs) Unique: Eringaite	117
8 : Mafic igneous rocks Unique: Zemkorite	114
10 : Basalt-hosted zeolite minerals Unique: Ferri-obertiite	107
20 : Acidic volcanic rocks Unique: Clinoferrosilite	107
47i : Low-𝑇 subaerial oxidative hydration, weathering (see also #16 and #23) - [Terrestrial weathering of meteorites] Unique: Hibbingite	100
47b : Low-𝑇 subaerial oxidative hydration, weathering (see also #16 and #23) - [Sulfates and sulfites]	97
24 : Authigenic minerals in terrestrial sediments (see also #17)	71
53 : Other minerals with taphonomic origins	64
45b : Oxidized fumarolic minerals (see also [#11]) - [Other oxidized fumarolic minerals]	61
55 : Anthropogenic mine minerals	59
45a : Oxidized fumarolic minerals (see also [#11]) - [Sulfates, arsenates, selenates, antimonates]	51
54 : Coal and other mine fire minerals (see also #51 and #56)	49
38 : Ophiolites	46