Predictive Mineralogy

Possible unrecorded species at Lombardy, Italy

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
Hydrokenoralstonite	Na_0.5(Al,Mg)₂(F,OH)₆ · H₂O	100.00%	Leonardsenite (100.00 %)
Strengite	FePO₄ · 2H₂O	99.98%	Beraunite (62.56 %), Ferrostrunzite (57.14 %), Jahnsite-(CaMnFe) (61.11 %), Jahnsite-(CaMnMn) (64.00 %), Laueite (50.63 %), Metaswitzerite (57.69 %), Phosphosiderite (53.55 %), Rockbridgeite (50.44 %), Switzerite (52.00 %), Whitmoreite (52.38 %), Xanthoxenite (57.58 %)
Hureaulite	Mn²⁺₅(PO₃OH)₂(PO₄)₂ · 4H₂O	99.98%	Fairfieldite (53.09 %), Jahnsite-(CaMnFe) (63.89 %), Jahnsite-(CaMnMn) (72.00 %), Kryzhanovskite (51.28 %), Laueite (54.43 %), Metaswitzerite (57.69 %), Phosphoferrite (50.00 %), Stanĕkite (71.43 %), Switzerite (52.00 %), Xanthoxenite (57.58 %)
Hydrocerussite	Pb₃(CO₃)₂(OH)₂	97.91%	Lanarkite (51.30 %), Macphersonite (66.67 %), Mendipite (73.68 %), Susannite (51.30 %)
Nepheline	Na₃K(Al₄Si₄O₁₆)	97.35%	Aegirine-augite (50.72 %), Calzirtite (50.00 %), Chiavennite (50.00 %), Mckelveyite-(Y) (50.00 %), Vishnevite (57.14 %)
Aegirine	NaFe³⁺Si₂O₆	96.13%	Chiavennite (66.67 %), Mckelveyite-(Y) (50.00 %), Riebeckite (53.56 %), Tiragalloite (50.00 %)
Spodumene	LiAlSi₂O₆	84.85%	Fluor-liddicoatite (60.00 %), Lithiophilite (62.13 %)
Zippeite	K₃(UO₂)₄(SO₄)₂O₃(OH) · 3H₂O	83.33%	Metalodèvite (62.50 %), Zinczippeite (55.56 %)
Sodalite	Na₄(Si₃Al₃)O₁₂Cl	82.14%	Chiavennite (50.00 %), Vishnevite (64.29 %)
Cacoxenite	Fe³⁺₂₄AlO₆(PO₄)₁₇(OH)₁₂ · 75H₂O	81.94%	Beraunite (62.09 %), Ferrostrunzite (52.38 %)
Halite	NaCl	80.57%	Leonardsenite (55.56 %), Thénardite (56.29 %)
Miargyrite	AgSbS₂	80.00%	Baumstarkite (80.00 %)
Ludlamite	Fe²⁺₃(PO₄)₂ · 4H₂O	78.57%	Phosphoferrite (50.00 %), Sigismundite (57.14 %)
Neotocite	(Mn,Fe,Mg)SiO₃ · H₂O	75.00%	Sarkinite (50.00 %), Tiragalloite (50.00 %)
Childrenite	Fe²⁺Al(PO₄)(OH)₂ · H₂O	71.42%	Sigismundite (71.43 %)
Epididymite	Na₂Be₂Si₆O₁₅ · H₂O	66.66%	Chiavennite (66.67 %)
Ancylite-(Ce)	CeSr(CO₃)₂(OH) · H₂O	66.66%	Mckelveyite-(Y) (66.67 %)
Schreibersite	(Fe,Ni)₃P	66.66%	Nickelphosphide (66.67 %)
Cancrinite	(Na,Ca,◻)₈(Al₆Si₆O₂₄)(CO₃,SO₄)₂ · 2H₂O	64.28%	Vishnevite (64.29 %)
Stewartite	Mn²⁺Fe³⁺₂(PO₄)₂(OH)₂ · 8H₂O	64.00%	Jahnsite-(CaMnMn) (64.00 %)
Hambergite	Be₂(BO₃)(OH)	62.50%	Chiavennite (62.50 %)
Masuyite	Pb(UO₂)₃O₃(OH)₂ · 3H₂O	62.50%	Metalodèvite (62.50 %)
Diamond	C	61.53%	Lindsleyite (61.54 %)
Aramayoite	Ag₃Sb₂(Bi,Sb)S₆	60.00%	Baumstarkite (60.00 %)
Trona	Na₃H(CO₃)₂ · 2H₂O	59.32%	Natron (59.32 %)
Pseudomalachite	Cu₅(PO₄)₂(OH)₄	59.29%	Libethenite (59.30 %)
Burbankite	(Na,Ca)₃(Sr,Ba,Ce)₃(CO₃)₅	58.33%	Mckelveyite-(Y) (58.33 %)
Mixite	BiCu₆(AsO₄)₃(OH)₆ · 3H₂O	57.89%	Agardite-(Nd) (57.89 %)
Magnesiochromite	MgCr₂O₄	57.14%	Redledgeite (57.14 %)
Brazilianite	NaAl₃(PO₄)₂(OH)₄	57.14%	Sigismundite (57.14 %)
Whitlockite	Ca₉Mg(PO₄)₆(PO₃OH)	57.14%	Sigismundite (57.14 %)
Bermanite	Mn²⁺Mn³⁺₂(PO₄)₂(OH)₂ · 4H₂O	56.00%	Jahnsite-(CaMnMn) (56.00 %)
Frondelite	Mn²⁺Fe³⁺₄(PO₄)₃(OH)₅	56.00%	Jahnsite-(CaMnMn) (56.00 %)
Andersonite	Na₂Ca(UO₂)(CO₃)₃ · 6H₂O	55.55%	Zinczippeite (55.56 %)
Natrozippeite	Na₅(UO₂)₈(SO₄)₄O₅(OH)₃ · 12H₂O	55.55%	Zinczippeite (55.56 %)
Carnotite	K₂(UO₂)₂(VO₄)₂ · 3H₂O	54.81%	Tyuyamunite (54.81 %)
Hexahydrite	MgSO₄ · 6H₂O	54.44%	Starkeyite (54.44 %)
Uytenbogaardtite	Ag₃AuS₂	53.84%	Petrovskaite (53.85 %)
Hydroxylherderite	CaBe(PO₄)(OH)	53.84%	Roscherite (53.85 %)
Skutterudite	CoAs₃	53.42%	Rammelsbergite (53.43 %)
Alunite	KAl₃(SO₄)₂(OH)₆	52.77%	Woodhouseite (52.78 %)
Diaboleite	Pb₂CuCl₂(OH)₄	52.63%	Mendipite (52.63 %)
Tantalite-(Mn)	Mn²⁺Ta₂O₆	52.38%	Stibiotantalite (52.38 %)
Eudidymite	Na₂Be₂Si₆O₁₅ · H₂O	50.00%	Chiavennite (50.00 %)
Wöhlerite	Na₂Ca₄ZrNb(Si₂O₇)₂O₃F	50.00%	Chiavennite (50.00 %)
Ferrarisite	Ca₅(AsO₄)₂(HAsO₄)₂ · 9H₂O	50.00%	Baumstarkite (50.00 %)
Rauenthalite	Ca₃(AsO₄)₂ · 10H₂O	50.00%	Baumstarkite (50.00 %)
Donnayite-(Y)	NaCaSr₃Y(CO₃)₆ · 3H₂O	50.00%	Mckelveyite-(Y) (50.00 %)
Edingtonite	Ba[Al₂Si₃O₁₀] · 4H₂O	50.00%	Mckelveyite-(Y) (50.00 %)
Hydronováčekite	Mg(UO₂)₂(AsO₄)₂ · 12H₂O	50.00%	Metalodèvite (50.00 %)
Sklodowskite	Mg(UO₂)₂(SiO₃OH)₂ · 6H₂O	50.00%	Metalodèvite (50.00 %)
Trögerite	(H₃O)(UO₂)(AsO₄) · 3H₂O	50.00%	Metalodèvite (50.00 %)
Uranospinite	Ca(UO₂)₂(AsO₄)₂ · 10H₂O	50.00%	Metalodèvite (50.00 %)
Preisingerite	Bi₃(AsO₄)₂O(OH)	50.00%	Rooseveltite (50.00 %)
Dufrénite	Ca_0.5Fe²⁺Fe³⁺₅(PO₄)₄(OH)₆ · 2H₂O	50.00%	Stanĕkite (50.00 %)
Leucophosphite	KFe³⁺₂(PO₄)₂(OH) · 2H₂O	50.00%	Stanĕkite (50.00 %)
Laurite	RuS₂	40.00%	Orcelite (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, Argentotennantite-(Zn), Arsenic, Baumstarkite, Berthierite, Boulangerite, etc.	2,863
34 : Complex granite pegmatites Unique: Arrojadite-(BaNa), Arrojadite-(KFe), Arrojadite-(KNa), Bazzite, Bismutocolumbite, Bismutotantalite, etc.	1,993
47a : Low-𝑇 subaerial oxidative hydration, weathering (see also #16 and #23) - [Near-surface hydration of prior minerals] Unique: Ferrimolybdite, Macaulayite, Vismirnovite	839
32 : Ba/Mn/Pb/Zn deposits, including metamorphic deposits Unique: Ardennite-(As), Bixbyite-(Mn), Friedelite, Hausmannite, Johannsenite, Kutnohorite, etc.	648
22 : Hydration and low-𝑇 subsurface aqueous alteration (see also #23) Unique: Gismondine Subgroup, Inesite, Lipscombite, Stanĕkite, Switzerite, Tiragalloite	551
47h : Low-𝑇 subaerial oxidative hydration, weathering (see also #16 and #23) - [Near-surface oxidized, dehydrated minerals] Unique: Bismite, Koechlinite, Wulfenite	381
47d : Low-𝑇 subaerial oxidative hydration, weathering (see also #16 and #23) - [Arsenates, antimonates, selenates, bismuthinates]	361
12 : Hadean hydrothermal subsurface sulfide deposits (see also #33) Unique: Kësterite, Polydymite, Siegenite, Vaesite	342
31 : Thermally altered carbonate, phosphate, and iron formations Unique: Baksanite, Pumpellyite-(Fe2+), Xonotlite	327
47c : Low-𝑇 subaerial oxidative hydration, weathering (see also #16 and #23) - [Carbonates, phosphates, borates, nitrates] Unique: Smithsonite	325
35 : Ultra-alkali and agpaitic igneous rocks Unique: Cerianite-(Ce), Vishnevite	258
26 : Hadean detrital minerals Unique: Srilankite	211
13 : Hadean serpentinization Unique: Brugnatellite, Hydrotalcite	205
23 : Subaerial aqueous alteration by non-redox-sensitive fluids (see also #47) Unique: Gananite	179
10 : Basalt-hosted zeolite minerals Unique: Offretite, Stellerite	172
40 : Regional metamorphism (greenschist, amphibolite, granulite facies)	164
6 : Secondary asteroid phases Unique: Maskelynite	153
36 : Carbonatites, kimberlites, and related igneous rocks Unique: Lindsleyite	123
7 : Ultramafic igneous rocks Unique: Redledgeite	108
45b : Oxidized fumarolic minerals (see also [#11]) - [Other oxidized fumarolic minerals] Unique: Leonardsenite	100
47b : Low-𝑇 subaerial oxidative hydration, weathering (see also #16 and #23) - [Sulfates and sulfites]	95
47f : Low-𝑇 subaerial oxidative hydration, weathering (see also #16 and #23) - [Uranyl (U⁶⁺) minerals]	64
50 : Coal and/or oil shale minerals	48
56 : Slag and smelter minerals (see also #51 and #55)	47
54 : Coal and other mine fire minerals (see also #51 and #56)	41
5 : Primary asteroid phases	41
37 : Layered igneous intrusions and related PGE minerals	38
38 : Ophiolites	36