SILICATE  MINERALS   GARNET  GROUP
 *occuRRENCE  A  characteristic primary crystallising  mineral of alkali  igneous  rocks.   1 11 AVAGE  Poor { 001}  fracture.
 Nepheline  is  an  essential  constituent  of  silica-deficient  nepheline-  Ml 1 ll f. l·  Moderate (less than  1.54 ).
 syenites  and  may  occur in  volcanic  rocks  where  it  is  associated  with   "' 1 IIMK•N  r.  It has been suggested that the analcime in some intermediate and basic
 high-temperature feldspars.   rocks such as dolerite, teschenites and essexites (porphyritic alkali gab-
 Nepheline may be metasomatic in  origin, formed by the reaction of   bros) is primary, but recent work has questioned this. In volcanic rocks
 alkali-rich magmatic fluids with country rocks. Nepheline may occur in   analcime occurs  in  some basalts as  a  primary  mineral, but most com-
 basic rocks near their contact with carbonate rocks; and alkali dolerites   monly as a late stage hydrothermal mineral crystallising in  vesicles and
 with  interstitial  nepheline have also been described.   found  with  zeolites -especially thomsonite and stilbite.
                    Analci me occurs as  an authigenic mineral  in  sandstones, again associ-
 Another  mineral  associated  with  nepheline  is  kalsilite  (KA1Si0 4 )
 which forms a limited solid solution with NaA1Si0 4 . Up to 25% of the   ated  with  the  zeolites  laumontite and  heulandite.  Analcime  has  also
 nepheline molecule can be replaced with kalsilite, although the amount   been found  in  pyroclastic rocks.
 of solid solution increases  with  increasing temperature,  up to a  maxi
 mum of 70% at 1070 oc. Kalsilite is not found in plutonic igneous rock~   Garnet group   Nesosilicates
 but is  found  in  the ground  mass of some  K-rich  lavas.
                    X, Y2Si,01 2                                   cubic
 Sodalite  Na.Al6Si602.Cl2   cubic       n        D
 n  =  1.483-1.487   lm mdlne  (X =  Fe)   (Y =AI)   1.830   4.318
 D  =  2.27-2.88   H  =  5 12-6   I'  rope  (X =  Mg)  (Y  =AI)   1.714   3.582
 1
           c:ru  ~ular  {X =  Ca)   (Y  =AI)   1.734   3.594
 coLouR  Colourless, sometimes pale blue or pink.   I"   nrtlne  (X =  Mn)  (Y  = AI)   1.800   4.190
 HABIT  Usually anhedral but occasional eight-sided anhedral  crystals occur.   uclr  dlte  (X =  Ca)   (Y  =Fe)   1.887   3.859
 CLEAVAGE  Poor {110}.
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                    AJ>+  occupies theY position in the above minerals, but Cr'+, Fe +,  and
 RELIEF  Moderate (much  less  than  CB).
 •  Sodalite and analcime are virtually indistinguishable in  thin section.   Ti•+ as  well  as  REEs  may  also  substitute  in  garnet  minerals  in  this
 The type of rock is  as good a guide as  any as  to which  mineral  it  i .   position.  Solid solutions covering a wide  range are possible within the
                   garnet group of minerals, with  a  corresponding wide  range of optical
 occuRRENCE  Found in nepheline-syenites in  association with nepheline and fluorite.
                    properties- RI  varies from  1.890 to  1.710, and density from  4.32  to
 It occurs in  metasomatised calcareous rocks near alkaline intrusions.
                    3.59. A variety called hydrogrossular, which contains hydroxyl groups,
 Nosean  Two related minerals, nosean (Na 8 Al 6 Si 6 0 24 S0 4 ) and hauyne, which hn\   may show an  RI as low as  1.68 and a  density down to 3.1.
             1111  otJK  Colourless, pale  brown or pale  pink, dark green or brown.
 Hauyne  a similar composition to nosean with  some S and Ca in  the structure,
               11  1111  Euhedral crystals of garnet showing six sided or eight sided sections are
 Cancrinite  have  virtually  identical  optical  properties.  Nosean  is  distinguished  by
 having  a  dark border around each crystal  and usually  occurs in  silica   common.
 poor  alkaline  rocks  such  as  phonolites  and  leucitophyres.  Hauyne  i\   •1  11  ~vA<o~•  No cleavage exists  but crystals often  fractured.
 indistinguishable from sodalite and also occurs in  phonolites and other   Mll l l' l  High  to very  high;  sections always appear to have a  rough surface.
 undersaturated rocks, but is usually accompanied by sulphide minerab   1 IIIlA liON  Fe-Mg  bearing  garnets  typically  alter  to  chlorite  (by  hydrothermal
 such  as  pyrite.  Cancrinite shows  higher  birefringence  than  nephelin~:   reaction), with  quartz being produced in  the reaction.
 (first order yellows and reds), is uniaxial negative, and is a characteristi  ·   Garnet is isotropic bot sometimes hydrogrossular in particular may be
 mineral in  similar rocks to those in which nepheline occurs. Cancrinit •   anisotropic and zoned.
                 1
 may be an alteration  product of nepheline.   11111  N 11  111 KI S  Garnet occasionally exhibits compositional zoning, and in metamorphic
                   medium grade rocks garnet frequently contains inclusions of quartz and
 Analcime (Analcite)   NaAISi206.H20   cubit•   micas. Some metamorphic garnets contain inclusions defining an earlier
                   fabric  (e.g. schistosity)  which  has been trapped within the garnet.
 n  - 1.479-1.493
          1  1 IIMMr N('1 1  Garnet  occurs  mainly  in  metamorphic  rocks.  Almandine (containing
 D  = 2.34-3.29   H  = 5'h
                   some Mg) is  the main garnet of middle grade metamorphism of pelitic
 coLOUR  Colourless.   rocks and igneous rocks. Almandine forms by progressive metamorphic
 HABIT  Anhedral crystals filling  interstices between mineral grains.   reactions  involving  chlorite,  and  by  a  reaction  between  quartz  and
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