SILICATE MINERALS   PYROXENE  GROUP
 51  I         RELIEF  Moderate to high.
 !--'""     ALTERATION  opx  minerals alter to serpentine as  follows:
 /   ~"-...
 61  I
 /v
                             3MgSiO,  + 2H2 0--. Mg,(Si 2 0 5 )(0H) 4  + Si0 2
 71  I
 /   \
 "'   I   "" 1\
 <!)
 ~  XI  I           The  serpentine  mineral  is  sometimes  called  bastite.  Orthopyroxenes
 Oil                may occasionally alter to amphibole, cummingtonite first being formed:
 <!)   I   2V"   \
 ~ 91  I   v
 <l)   2V'~
 Oil   1\               8(Mg,Fe)Si0,  +  H 2 0--. (Mg,Fe)7Si 8 022(0H) 2  +  (Fe,Mg)O
 ~  Rl  I   I
 ;::,.   I  I   \
 71                 A rim of amphibole is formed around the opx crystal and iron ores are
                    released in  the reaction, often seen in  basic igneous plutonic rocks.
 1/   \  +
 6(      *BIREFRINGENCE  Low with interference colours from low first order greys (En) to yellow
 1/                 and reds (iron-rich  members).
 51  I     INTERFERENCE  Large biaxial figures are seen on sections out at right angles to the (100)
               FIG URE
                    plane  +ve or -ve (see data above).
 1.8(  )
           *EXTINCTION  All  opx  have  straight  extinction  on  prism  edge  or  main  prismatic
 /             ANGLE   cleavages.
 1.78        TWINNING  Absent from  opx.
 /
 1.76   /     *OTHERS  One set of exsolution lamellae is  usually present, parallel to prismatic
 c   /
 .::::   /   /      face  (100).  Another set  may  be present  at  a  high  angle  to  this. The
 ]   1.74   v   /   explanation  has  been given  under the  heading 'Exsolution lamellae' .
 ~   n'l   /   DISTING UISHING  Orthopyroxenes are distinguished  from  other clinopyroxenes by their
 0  1.72   ,/   FEATU RES   parallel extinction. Opx is length slow whereas andalusite is length fast;
 ><   /   /   ~     sillimanite, although length slow, has a very small 2V and higher inter-
 ~  1. 7( I
 /  ~      OCCURRENCE  Orthopyroxenes occur in  basic igneous rocks of all types. Mg-rich opx
 c   v              ference colours.
 1.68
 /  /               occurs  in  ultrabasic  igneous  rocks  such  as  pyroxenites,  harzburgites,
 v                  Mg spinel. Orthopyroxenes occur in some regional metamorphic rocks,
 1.66               lherzolites and picrites, in  association with  Mg olivine, Mg augite and
 64
 1. o   10   20   30   40   50   60   70   80   90   100   particularly charnockites and granulites, and may occur at h!_gh  grades
                    during the thermal metamorphism of argillaceous rocks in hornfelses of
 Mg 2 (Si0 ,),
                    the innermost zones of thermal aureoles.
 e~statite I bronzite  I persthene ~~~;~;sthenel   eulite  I rthoferrosilite
 o
 h
 y
 Figure 2.27  Variation  of 2V angle  and  indices  of refraction  in  the  enstatite-
 orthoferrosilite (orthopyroxene) series.
 COLO UR  Mg-rich  opx  are  colourless;  Fe-rich  compositions  show  pale  colours
 from  pale green to pale  brown.
 PLEOCHROISM  Coloured opx show faint pleochroism with a pink to brown, f3 yellow to
 2
 brown, andy green, due to either Fe +,  Ti or AI  in  the structure.
 HABIT  Early formed  opx  in i_gneous  rocks appear as  short prismatic crystals.
 *CLEAVAGE  Two  good  prismatic p 10}  cleavages  meet  at  nearly  90°  on  a  basal
 section.  {  010}  and { 100}  are poor cleavages or partings.
 106               107