THE  NON-SILICATES   HYDROXIDES
 (a)               late stage pneumatolytic deposits fluorite occurs with cassiterite, topaz,
 Key               apatite  and  lepidolite,  whereas  in  hydrothermal  veins  fluorite  occurs
 /   /   /         with calcite, quartz,  barite and sulphides.
 /   /   /   0  Cl
                     Fluorite is occasionally found as the cementing matrix in sandstones
 e  Na
                   and may occur in geodes within limestones. Blue John is coarse nodular
                   purple fluorite  with  a concentric layered structure.
 /   /   /I-
 /   ./   /
         Halite (rock  NaCl                                       cubic
               salt)  n  =  1.544
 /   /   ./        D = 2.16   H  = 2112
 /   /   /   -
                   Halite  is  colourless  rock  salt  with  a  perfect  { 100}  cubic  cleavage.  It
                   occurs in  salt domes and in  evaporates,  where it  is  a  late precipitating
                   salt.
 (b)   Key
                   Note:  Special sectioning techniques are needed to preserve this mineral
 e  Ca             in  thin  sections.
 ~ ---- - "7",
 /   I   0  F
 I
 I
 I
 I
 I
 I
 I                 3.6  Hydroxides
 ___ v   I
             Brucite  Mg(OH),                            trigonal, cia  1.521
                        1.560-1.590
                   n 0
                   n.   1.580-1.600
                   0    0.012-0.020
                   Uniaxial  +ve (length fast)
                   D  = 2.4   H  = 2%
 Figure  3.15  (a) Crystal  structure  of  sodium  chloride,  showing  (right)  the   coLOuR  Colourless.
 octahedral arrangement of six sodium ions around one chloride ion. (b)  Fluorite
               HABIT  Occurs as fine aggregates, or fibrous whorls, in metamorphosed impure
 structure  showing  (right)  the  tetrahedral  arrangement  of  four  calcium  ions
                   limestones.
 around one fluoride  ion, and (below) the cubical arrangement of eight fluoride
 ions around one calcium  ion.   *cLEAVAGE  Perfect basal  {0001}.
              RELIEF  Low,  just greater than  1.54.
           ALTERATION  Brucite forms from periclase  MgO by addition of H,O  during thermal
 Fluorite  CaF,
 cubic             metamorphism.  It  alters  to  hydromagnesite  readily  by  reaction  with
                   carbon dioxide:
 n  =  1.433 - 1.435 (variation due to  substitution of Y  for  Ca)
 D = 3.18   H  = 4
                            5Mg(OH), + 4C0 2  ~ Mg,(OH),(C0,) • .4H,O
 COLOUR  Colourless, very  pale green,  pale  blue, yellow or violet.   hydromagnesite
 HABIT  Aggregates of crystals often  with  perfect cubic { 100} form.
 CLEAVAGE  { 111}  perfect, giving  a  triangular pattern.   *BIREFRINGENCE  Low,  first  order colours, but often shows anomalous interference col-
 *RELIEF  Moderate,  but note that n  is  less  than  1.54.   ours (deep blue)  rather similar to chlorite.
 TWINNING  Interpenetrant on  { 111}, but not seen in  thin section.   TWINNING  None.
 *occuRRENCE  A late stage mineral in granites and other acid rocks; common in greisen.   *occuRRENCE  Brucite occurs in  thermally  metamorphosed dolomites, and dolomitic
 In  pegmatites,  and  many  alkaline  igneous  rocks  such  as  nepheline-  limestones. It can occur in low temperature hydrothermal veins, associ-
 syenites,  fluorite  crystallises  at  low  temperatures (around  500 °C).  In   ated with serpentinites and chlorite schists.
 168
                   169