FRANKLIN AND STERLING HILL NEW JERSEY: THE WORLD'S MOST MAGNIFICENT MINERAL DEPOSITS
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SULFATES BORATES TUNGSTATES AND MOLYBDATES ARSENATRES ARSENIDES PHOSPHATES AND VANADATES UNNAMED MINERALS


The apatite group

FLUORAPATITE

HEDYPHANE

JOHNBAUMITE

MIMETITE

TURNEAUREITE


Other arsenates, arsenites, phosphates, and vanadates

ADAMITE

ADELITE

AKROCHORDITE

ALLACTITE

ANNABERGITE

ARSENIOSIDERITE

AUSTINITE

BARIUM-
PHARMACOSIDERITE

BRANDTITE

CAHNITE

CHLOROPHOENICITE

CLINOCLASE

CONICHALCITE

DESCLOIZITE

DUFTITE

ERYTHRITE

EUCHROITE

EVEITE

FLINKITE

FLUCKITE

GUERINITE

HAIDINGERITE

JAROSEWICHITE

KOETTIGITE

LEGRANDITE

LIROCONITE

MAGNESIUM-
CHLOROPHOENICITE

MAGNUSSONITE

MANGANBERZELIITE

MANGANESE-
HOERNESITE

META-ANKOLEITE

METALODEVITE

METAZEUNERITE

NEWBERYITE

NIAHITE

OGDENSBURGITE

OJUELAITE

PARABRANDTITE

PARASYMPLESITE

PHARMACOLITE

PHARMACOSIDERITE

PICROPHARMACOLITE

PYROBELONITE

RETZIAN-(La)

RETZIAN-(Nd)

SARKINITE

SCORODITE

STERLINGHILLITE

SYNADELPHITE

TILASITE

URANOSPINITE

VILLYAELLENITE

WALLKILLDELLITE

WENDWILSONITE

YUKONITE

 

PYROBELONITE

PbMn(VO4)(OH)
Orthorhombic

 
 
 
  Figure 25-33. Prismatic, pyramidal crystals of pyrobelonite from Franklin. Field of view is 0.5 mm in maximum dimension.  
   

Pyrobelonite was first noted by Palache (1935) who described it as descloizite from Franklin; it was subsequently found to be pyrobelonite (Dunn, 1983a), which is unknown from Sterling Hill.

Description

Pyrobelonite occurs as bright red, prismatic, tapering, 0.3 mm crystals. The color is similar to that of proustite, but pyrobelonite lacks the submetallic luster of that species. The crystals taper gradually to a point (Figures 25-33 and 25-34) and on casual examination appear to be tiny zincite crystals. No physical or optical data have been obtained; the mineral was verified by X-ray methods and chemical analysis, which are suggested for verification.

Composition

Pyrobelonite is a lead manganese vanadate hydroxide mineral related to descloizite (perhaps explaining Palache’s incorrect assignment of species). A microprobe analysis yielded CaO 0.3, FeO 0.3, ZnO 0.4, MnO 18.7, PbO 54.3, SiO2 2.2, V2O5 20.3, with H2O from the theoretical composition at 2.3, total = 98.8 wt. %.

Occurrence and paragenesis

 
 
 
  Figure 25-34. Prismatic pyramidal crystals of pyrobelonite from Franklin. Field of view is 0.6 mm in maximum dimension. See figure 12-43.  
   

Pyrobelonite occurs on willemite/franklinite ore which is encrusted with a druse of andradite and isolated crystals of tephroite (Figure 15-3), clinochlore, and willemite. Pyrobelonite occurs as a sprinkling of tiny red crystals on all these minerals and is in turn coated with hodgkinsonite of unusual habit (Figure   15-52) and barite. Few specimens of this superb assemblage (Figure 12-43) are known; the richest specimen is at Harvard University. 

 

 

 

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CHAPTER 25. ARSENATES, ARSENITES, PHOSPHATES, AND VANADATES