Structural Classification of Minerals - Vol 2 - Minerals With ApBqCrDs To ApBqCrDsExFyGz General Chemical Formulas - Lima-de-Faria (2003) PDF
Structural Classification of Minerals - Vol 2 - Minerals With ApBqCrDs To ApBqCrDsExFyGz General Chemical Formulas - Lima-de-Faria (2003) PDF
Structural Classification of Minerals - Vol 2 - Minerals With ApBqCrDs To ApBqCrDsExFyGz General Chemical Formulas - Lima-de-Faria (2003) PDF
Volume 2
The titles in this series are listed at the end of this volume.
Structural Classification
of Minerals
Volume 2: Minerals with ApBqCrDs to
ApBqCrDsExFyGz... General Chemical
Formulas
by
J. LIMA-DE-FARIA
Centro de Cristalografia e Mineralogia,
Instituto de Investigacdo Cientifica Tropical, Lisbon, Portugal
ISBN 978-90-481-6218-5
ISBN 978-94-017-0536-3 (eBook)
DOI 10.1007/978-94-017-0536-3
Coverillustration: Packing drawing ofa possible binarycompound AB (Barlow, 1898, Fig. 8, p. 453); todayknown to
correspond to halite, NaCI
Contents
Introduction
Some details of the structural notation
List of typographical corrections in Vol. 1
Acknowledgements
ix
Xl
Systematic tables
Tables of mineral structure types
1
103
Mineral index
139
xiii
xv
vii
Introduction
ix
xi
acknowledged)
xiii
Acknowledgements
xv
Systematic tables
Ca216{2a>}[Mg'Si2
CuPbBi~
Mn9(SI,A1),oOn
(OH)9
Ca2MgSI2~
CUsHg3AS 4S ' 2
NaAlSi30s
PbBi2Te2S:!
Bas(P04hCI
Mn7(As04h
(OH)s
AIKJNITE
AKATOREITE
AKERMANITE
AKTASHITE
ALBITE
ALEKSITE
ALFORSITE
ALLACTITE
Fe3AI2(SiO~3
BaCa(C03l2
Mg 2P04
(OH,F,O)
ALMANDINE
ALSTONITE
ALTHAUSITE
ALLEGHANYITEI Mns(SI04h(OHh
Mn7DMn2'A1,,(Sls
[On(OH)9)
NaFeSI~6
AEGIRINE
Tric .
C'1
Na lOI
{300}[SbIAltcS)(2.by)s
, CSubs.d.Araaonlte)
"'g2"Mgl'JP2
Os(OH,F,O)2C)R21by
Subs .d.Andaluslte)
Olth.
Pnma
(Tric.)
Pmcn?
0aJ2
Ba,aJCa,a,
{gHC
tr
Cub.
la!d
Mon.
P21/b
Mon.
P2,/a
P6ym
Hex.
F8300AI2SI3' [012t
[Os(OHht
I MnsoSh'
Mn7~'
[Os(OH)s]
BaSPP31[012cq_n
Hex.
Trig.
R3 ...
s,2cf
a=10.0175.4: Z=21
c=44.014A
ApBqCrD.
EQUIVALENT
POSITIONS
Sh~II(41) ~.vlII(4i)
Na(41) AI(41)
[~4(OH)1"""
TI
[012(F,OH,CI)r
APATITE
CasPP3
[S'2Cr
NOWACKIITE
Na[61{300} [ShIAIIOS)(2.by)s
ALBITE
AKATOREITE
(Ca,NahlOJ
1(SI.Alh
{2oo}[Mg
tc7)
MELlLlTE
CU6'zn3'Asl,nJ
Mn7"Mn2'A12Sls
AIKINITE
CU'Pbl;>+'JBjl"'I[~t
[04(OH)C)R21 by
ADAMITE
CaLOJMgO
I06l""
{loo}[Sh
DIOPSIDE
znoZn'~JAs'
STRUCTURETYPE
ca14.383A
b-6.o54A
a=S.OOA
b=8.79A
c=6.12A
a=8.258A
Z=8
Z=2
Mg1(Bd) MgII~II(4C)1 Dlst.deriv. ADAMITE
P~II(4c) o..lI(8d)
zn"Zn!51AsI
OIl~V1C4c) ...
rO.COHlCI R21by
a=11 .03.1.
~=.1144 """nl(2a) Mnll.y(4e)
b=12.12A
Z=2
I As(4e) OI-VIII(4e)
c=5.51A
a=4.815A ~=108 .74 Mn,(2d) Mnll'III(4e~ MgsoSI2~0s(OH,FhJ"
O,-ev{4e) OH(4e) I CHONDRODITE
b=10.574A Z=2
SI(4e)
c=8.083A
Ca300AbSh'(012)
a=11.S26A Z=8
GROSSULAR
a=8.137A
a=94.28
b=12 .785A ~=116.600
c=7.1583A Z=4V=87.7
a=4.238A
Z=8
c=79.76A
a=10.2SA
Z=2
c=7.64A
a=13.730A Z=3
c=9 .329A
As(4g) zn,(4e)
a=8.306A
Z=4
Znll(4g) ~.III(4g)
b=8.524A
01VC8h) HC4Q)
c=6.043A
Mon.
~=10724' Na(4e) Fe(4e)
a=9.85A
C21c
Si(8f) 0HII(8f)
b=8.79A
Z=4
c=5.29A
Cu(4c) Pb(4c)
a=11.608A Z=4
Olth .
b=4.0279A
Pnma
BI(4c) SiI~II(4c)
c=11.275A
Tric.
a=8.337.1. a=104 .46 Mnl(1g) Mnll.y(2i)
P'1
AI(21) SI,.rv(2i)
b=10.367A ~"93.81
p::7.629A Z=1y=104.180 0'-lX(2i) ...
Tet.
a=T.84A
Z=2
P421m c=5.01A
Olth .
Pnnm
Trig.
R32 ...
SPACE I
GROUP
CU6'Hg 3'ASl"'1
0 7)
[~I"
Cu'Pbl;>+"Bjl""
[04(OH)Ct21by
CSubs.d.Andaluslte)
NaLOJFeD
IOel""
(100}[Si 2
Zn2As04(OH)
ADAMITE
Znoznl~JAs'
Sn3OCMOHh
ABHURITE
STRUCTURAL
FORMULA
CHEMICAL
FORMULA
NAME
Table 73
REFERENCES
Am.Mln .,1980,,488-498;
Am .Mln.,1978,lU,502(Abs.);
KIB.3Q-31:LF.144.
Am.Mln .,1985,ZQ,182-185;LF,
124;Htllzel,189.
Am.Min .,1981,,10SQ.1053;
Hlllzel,156;LF,185.
Am .Mln.,1990,Z,135-140 ;
LF,269;G.O.,8erie G8OI.,1986,
11,41-53.
Am .Mln.,1979,M,652(Abs.).
MrnAbs.,812423;Hlllzel,21 ;
Am.Min. , 1973,~,562(Abs.) .
Am.Mln .,1989,:M,50Q.505
CAbs.).
Am.Mln. ,1976,lU,979-986;
Acta Cryst.,1978,&M,715-721 ;
Pov.510:Str .Tab..317: LF.144.
Pov.,410;Can .Mln.,1989,21 ,
147-156;Wyckoff,2,433-436;
LF,205 .
Acta Cryst .,1971,m,12451252;Am.Mim.,1989,R250
255.
Can.Mln.,1993,~,321329;
Am.Mln., 1971 ,~,416-426;
Htltzel,234.
Str.Tab.,385;Pov.,725.440;
HllIzel,197.
Can .Mln.,1985,~,233-240;
CHEMICAL
FORMULA
NaB 30 3(OH).
(NH.,K)(A1Si2)Oa
(Ce,La,Sr,Cah
(C03h(OH,H20)
AgPbS!>JSa
Ca3Fe2(SI0.h
Fe403(AsO.h
Ca(Fe,Mg,Mn)
(C03h
CaAI2Si20a
(Na,K)AISi 3Oa
AIW0 3(OHh
(Mg ,FehSla022
(OHh
(Mg,FehSh05
(OH).
CU3S04(OH).
NAME
AMEGHINITE
AMMONIOLEUCITE
ANCYLITE - (ee)
ANDORITE
ANDRADITE
ANGELEUITE
ANKERITE
ANORTHITE
ANORTHOCLASE
ANTHOINITE
ANTHOPHYLLITE
ANTIGORITE
ANTLERITE
Table 74
STRUCTURAL
FORMULA
Orth .
Pnma
Mon.
Cm
Orth .
Pnma
(Mg,FehU(OH).
{2oo}[ShI05)
CU3-s [04(OH).t'
Trle.
P'1?
Toe.
P-1
Trie.
P'1
Trig .
R3
Cub .
la3d
Trie.
P'1
Orth.
Bbmm
Tet.
I 4 1/a
Orth .
Pmcn
Mon.
C2Je
..
SPACE
GROUP
(Mg,Fe)2'J
0(OHh
(Mg ,Fe)5
chx
{1oo}[Siat02l
Al tO a)(2bY
(Na,K)IO'~}[Si3
Caap
p
(Fe,Mg,Mn)a
{g}[Ctr03 ch J2c
Ca'o,
{3aO}[Si~I(A1,Sii
Altoa) ( bY).
[Sa)#
(",Fizelvite)
Ca3ouFe2Sh
rOd
uAS2
Fe.
(0 11)
Ag"O'Pb,o'SbJ'~'
(OH).)
(NH.,K){3aO}[Sh
AltOR! (Zeolite)
{g}[~trBI03
Na'o,
a=5.32A ~=10154'
b=9.50A
Z=4
e=14.90A
a=8.226A
Z-4
b=6.046A
c=11 .978A
ApBqCrO.( cant.)
...
Cu,(4e) CUll(Sd)
S(4e) OI.1I(4e)
MgI_1I(2a)
MgIII.rv<4b) ...
Sil~\IiSd) ...
Mg lII(4e)
Mgl~I(Sd)
Mg'O'(Sd)
Cal_Iv(21)
Si l-vIII(2Q
AI 1.vlll(2Q
01-32(2i)
Ca(3a) Fe(3b)
C(6e) O(18f)
(Ce,La,Sr,Ca)
(4e) C(4e)01(Sd)
01l(4e)
(Pb,Sb)(4e)
Sb(8f) St(8f)
(Sb,Ag)(8f)...
Na(8f) B11II(8f)
01.vu(8f)
H'.lv(8f)
EQUIVALENT
POSITIONS
ch
REFERENCES
HOlzel,97;LF,174;str.Tab.,
238;Am.Mln.;1989,74,11591167.
Acta Cryst .,1962,15,10051035;Str.Tab.,478;Pov.,
344;LF,270.
~1322-1323(Abs .) .
HOlzel,187;Str.Tab.,369;
Pov . 382LF ,148.
SR, ~,265-266;Pov.,510;
Str.Tab. ,319;Am.Min.,1959,
Am.Min.,1975,Q,879-883;
Am .Min.,1967,52,935-945;
Str.Tab,,257;Pov.,483 .
Am .Min.,1986,71,10221027;HOlzel,238.
Am.Min.,1975,Q, 280284;Str.Tab.,239;Pov.,620.
(Mg,Fe)2'"'
(Mg ,Fe)50(OHh
{1oo}[Slat02212.Chx
ANTHOPHYLLITE
(Mg,FehU(OH)4
1Oal
{2co}[Si2
ANTIGORITE CU3-s [O.(OHM'
ANTLERITE
Min.1989,2Z,205-209;Pov.,
585Str.Tab. 275'LF 129.
Wyckoff,~,205-206;Can.
SR,U,38Q-381 ;Pov.,431;
Str.Tab.,457;LF,240.
Wyekoff,~,31 Q-312;LF,211.
Pov. ,414;str.Tab.,420;
SR,~,368369Hillzel,239 ;
(Na'I$OJ~}[Sb
Altoa) bY
Pov.,276,346;str.Tab.,474 ;
ANORTHOCLASE Am.Mln.,1982,67,975-996;
SR.3.-9A 337 .
H6Izel,140;Pov.,572;
Str .Tab.,303.
{g}[C 03 'h
DOLOMITE
(Na,Ca)IOJ
{3aO}[S~AI ,Si)1
AllQal
).
PLAGIOCLASE
caap~Mg ,Fe)ap
STRUCTURE TYPE
Vol
Pb7SiOaCI2
AI2P04(OHh
(Zo, CU)5(C03h
ASISITE
AUGELITE
AURICHALCITE
AZURITE
Ni 1aBIJA8S1a
ARSENOHAUCHECORNITE
CU3(C03),(OHh
(OH)6
Mn5(As04),(OH)4
ARSENOCLASITE
"
{g}[Ctr~)'1
l0
CU"'CU2
[ [(OH),
AI -<'AIW<'
1
p 104(OHh)
Orth .
P21212 1
(As,Sbh ISI3l
(Subs.d .Tetrahedote)
Mn5oAS,
[(OHhOa)
(Orth.)
Mon.
P2Im
Mon.
P2 1/c
Tet.
14/mmm
Mon.
C2Im
Tet.
14/mmm
Cub
143m
Ag,cu)l~n,Fehtr
3:o[(Ag,CU)6
(Ag,Cu)10(Zn,Feh
(As,Sb)4S13
ARGENTOTENNANTITE
Z=4
Z=4
Z=2
Z=4
a=3.897A
Z=1
c=22.81A
a=13.124A~=112.25
b=7.988A
Z=4
c=5.066A
a=13.82A ~=101 .04
b=6.419A
Z=2
c=5.29A
a=5.00A
~=92"20'
b=5.85A
Z=2
c=10.35A
a=18.29A
b=5.75A
c=9.31A
a=10.2711A
c=10 .8070A
a=22.09A ~=1031'
b=21.11A
Z=4
c=8 .05A
a=10.584A
Z=2
Mon.
ARDAITE
ARCUBISITE
H2(K,NH4)P0 4
ARCHERITE
Fe5uSb4[012S)
Z=2
a-5.68018A Z=1
c=7.309A
A9 aCuBiS4
Fe 5Sb4012S
APUANITE
Trig.
P3m1
NaoS2 ~~,Na&;'
(K,Na), loa) T4
a=9.3684A
c=6.8841A
a=8.367A
c=17.959A
a=7.448A
c=6 .9nA
(K,NahNa(S04h
APHTHITALITE
Hex.
P6J/m
SPACE
GROUP
Ca5"P3
[012(F,OH,CI)r T&
STRUCTURAL
FORMULA
ApBqCrD.( cont.)
Tet.
P4,/mbc
Tet.
142d
Ca5(P04h
(F,OH,CI)
CHEMICAL
FORMULA
APATITE
NAME
Table 75
(Cu,Zn)Iv(4o)
C1_lIl2n) ...
CUI(2a) 01.,,(4e)
CUII(4e)H(4e)
C(4e)
(CU,Zn)I~"
Ni,(4c) BI,(4b)
Bl,,(2a)As(2b)
Niu.lIIl16ml...
Pb'_1I(4e)
Cll2b)OlBo)
AII(4g) OH(41)
AI,,(4i OH(8j)P(4i)
OJ~,(41) OIll(Bj)
Mnl_,v(4a)ASJ.II(4a)
01_xlI(4a) .. .
Fe,(8h) Felll(8f)
FeIlC4d) Sbc16i>...
1<.(1 a) S(2d)
1<.1(2d) 0,(2d)
Na(1b) 0,,(6i)
F(2a) Ca,(4f)
Call(6h) P(6h) ...
EQUIVALENT
POSITIONS
STRUCTURE TYPE
hi
AZURITE
{g}[C~
CuBqCul'"
[ [(OH)t
APHTHITALITE
Nao~
Ca5" P3
[012(F,OH,Cl)rT
APATITE
REFERENCES
Zeit .Krist.,1972,135,416-436;
Wyckoff,2,478-479;Pov.,615;
Str.Tab.,241;LF,185.
Am .Min.1981,66.436lAbs.).
Am.Mln .,1988,n,643-650;
Hlllzel56.
Am .Mln.,1988,53,1096-1103;
K/B,34-35;l?oY.539;Str.Tab.,
320.
ActaCryst., 1994,B50,673676;Pov.,616;Str.Tab.,241.
Mln.Mg.,1980,~,877-878;
Am.Min .,1971,56,1539-1552;
Hlllzel,151 ;Str.Tab.,320;
POY.,511.
Can.Mln.,1989,2I,137-142;
SSSR,~,206-210.
Am.Min., 1988,~,439(Abs.);
LF,283 ;Dokl.Akad.Nauk
Hlllzel145.
Am.Min., 1978 ,~,424427;
Holzel13.
Am .Min.,1983,,642(Abs.);
Hlllzel,44.
Am.Min.,19n,~,1057;
Mln.Mag.19n,~,33-35;
1235-1242;HlSlzel,61.
Am .Min .,1979,~,1230-1234;
Pov.,541-542;Str.Tab.,326;
KIB,103-105.
ActaCryst.,1980,B36,919921;PoY.,583,;Holzel,121;
Zelt.Krtst.,1998,m,141-150;
LF 305' Str.Tab . 273.
Wyckoff,~,228-234;LF, 165;
Tet.
4/mmm
Mon .
P2 1
Hex .
P'62c
Ba""Cs""
{g} [ctr~h12c
(g}[CUO~
CuB(OH)4C1
Fe3(PO.h(OHh
PbFeGe30S
KeFe20S26(CI,S)
BaBe2Si207
Pb sMn(Si207h
BaCa(C0 3h
(Ce,La)C~F
(La,Ce)C~
BANDYLITE
BARBOSALITE
BARTELKEITE
BARTONITE
BARYUTE
BARYSILITE
BARYTOCALCITE
BASTNASITE - (Ce)
BASTNASITE - (La)
(F,OH)
Mon .
P21...
A9 5CugHgS6
BALKANITE
(g}[C"O:&
[(La,Ce) +6]
(F,OH),OIr
em
[(Ce,LS~ +6]
(F
Pba,o'Mnu
{g} (Si/07h
Be2'Si2(Ba07]"
3a:>[Fe3o(OHh
I0
{g}[p 4hl
(Basic st.Lazulite)
Cu"S'[(OHhCij
(Mg,FehlSi6027
(OHho
...
Hex.
P'62c
R~c
Trig.
Orth.
Pnma ...
Mon.
P21/C
Tet.
P4/n
Orth .
P222
Mon .
P2In
Tric.
C1...
BALANGEROITE
(Zn,Fe,AI,M9h
1
(OHM 200{(Si,N) 4
010]{200}[(Zn,Fe,AI,
Ma).oCOH)Rll
(M~,Fehl {1<Xl}
[Si6027(OHhol
Mon.
C2Im
SPACE
GROUP
(Zn ,Fe,AI,Mg)6
(Si,AI).OlO(OH)6
STRUCTURAl
FORMULA
BAILEYCHLORE
CHEMICAL
FORMULA
Sb:lA1501.(OHh
NAME
a=?
c=?
Z=?
s=7 .1175A
c=9.7619A
Z=6
a-9.82A
Z=4
b=11.67A
c=4 .69A
a=9.821A aR=13.99A
c=38.990A a=41 08'
Z=6
z,,=2
a=8.15A ~=106S'
b=5.22A Z=2
c=6.5SA
a=19.40A
~=88 .9"
b=19.40A
Z=2
c=9.65A
a=10.62A
Z=1
b=9.42A
c=3.92A
s=6 .19A
c=5.61A
Z=2
a=7.25A ~-120015'
b=7.46A Z=2
c=7.49A
a=5.431A ~=111.79
b=13.689A Z=2
c=5.892A
a=10.424A Z=2
c=20.626A
a=9.406A ~=99.94
b=11.541A Z=2
c=4.410A
a=?
a=5.346A
b=9.257A ~=97 .12
c=14.401A t =? Z=1
ApBqCrD.(cont. )
BAHIANITE
Table 76
Ce(6g) C(6h)
O,(6h) O\l(12i)
F,(2a) FIIC40
Ba(2a)C'41(2s)
Ca(2a)O' .V1(2a)
...
Fe,(32o)
Fe\l(16m)
~C80 ~,C4eL.
Be(8d) Ba(4c)
SI(8d)
O,JIIC8d) OIVC4c)
Pb,(36f) Mn(6a)
Pb\l(12c) SI(36f)
Cu(2c) CI(2c)
B(2a) OH(8g)
EQUIVALENT
POSITIONS
DOLOMITE
{g}[ctr~h12 c
Dist .dertv.
Cs 8PMgaP
Be2Si2 (Ba~]"
BARYLITE
o(OHh
3a:>[Fe3
{g}[Ptc4hl
BARBOSALITE
[Sis 0 27(OHhol
BALANGEROITE
STRUCTURE TYPE
REFERENCES
Am.Min.,1993,n,415-418;
SR.17,521-S23;Pov.,613614Str.Tab.242.
Hlllzel,101;Am.Mln.,1966,51,
152-158.
Str.Tsb.,239;LF,172.
Str.Tab.,390;Am.Min.,1969,
M ,51Q-521;Pov .,401-402.
Aeta.Cryst.,1965,~,357-363;
..
LF,119;Pov.359;Str.Tab.,389
Am .Min.1977,~,167-169;
Am.Min. ,1981,66,376-384.
Am .Mln.,1981,66,369-375;
Holzel,17,
Hlllzel,31 ;Str.Tab.,318;LF322
Am.Min.,1982,!U,413 (Abs.);
Hlllzel,185.
; Pov. , 544;Wyckoff,~ , 1 97 1 99 ;
1959.44.875-877'Hlllzel,112.
Pov.490;Str.Tsb .,254;
Am.Min .,1987,12,382-391;
Am.Min.1983 ,~,214219;
Hlllzel,230.
Am.Min .1973,~, 11-15;
Hlllzel.15.
Am .Min.,1988,~,135-139;
Hlllzel,233.
Hlllzel,79.
Vl
(pb,Ag)5
(Cr0 4,As04,Si04h
CI
Mn5SI40 10(OH)8
Pb 4(Mn,Fe)SbsS14
eansso,
BELUTE
BEMENTITE
BENAVIDESITE
BENITOITE
Be4Sh07(OHh
BeJAI2Sis018
BERYL
(Fe,Alh(Si,AI)2
BERTHIERINE-1H
BERTRANDITE
Be4Si2[07(OHhJ"
(Fe,Alh(Si,AI)2
05(0H)4
BERTHIERINE-1M
O,(OH)~
Mon.
(Ag,CU)5PbJBirS16
BERRYITE
Z=2
a=9.206~
c=9 .205A
P6/mcc
~=10431'
~=102"30'
Z=6
Z=2
Z=4
Z=1?
a=8.7135A
b=15 .268A
c=4 .5693A
a=12 .72A
b=4 .o2A
c=58.07A
a=5 .41A
b=9 .33A
c=7 .04A
?
a-6.603A Z=2
c=12.726A
a=10.35A
c=7 .39A
Z=6
a=6.57~
c=9 .48A
a=22 .80A a=90"3'
b=8.357A ~=9716'
c=7 .894A y =895S'
Z=1
a=6 .7690A Z=2
c=10.020A
Z=2
a=9.521~
c=9.165A
UNIT CELLDIMENSIONS
Hex.
Hex.
P3m1
Orth.
Cmc2 1
Mon.
Cm
P21/m
...
P4/mmm
Tet.
A9 8(Sb.As)Te2S3
Hex.
P'6c2
Mon.
P21/a
Olth.
P2 1/c
Hex.
P6J!m
P'62c
Hex .
P6/mmc
.Hex.
Hex .
P'62c
Tric.
P1
SPACE
GROUP
ApBqCrD.(cont.)
BENLEONARDITE
Ba''')
Q{g}[Si3IQg)
{3ao}[ Ti
)
U(OH)8
(Pb,Ag)5U
l
(Cr,AS,Sih
Ts
r012CnMn5
10
{3ao}[Si 6 151
(SC,Feh
{3ao} [Be3tSistOlsl
Be3(Sc.Fe)~is018
BAZZITE
BaZrSbQg
BAZ.RITE
{g}[CuOi![(Y,Ce)I'><CJ
F,D]"Ts.
STRUCTURAL
FORMULA
(y,Ce)CO;F
CHEMICAL
FORMULA
BASTNASITE (V)
BAUMHAUER'TE
NAME
Tablen
AI(4c) Si(121)
Be(6t) 0 1(121)
01l(24m)
SI(8b) BeI(8b)
Bell(8b) 01(8b)...
Ba(2e) Ti(2c)
Si(6k) 01(6k)
011(121)
Si l.V1(4e)Mnl(2a)
Mnll(2b) ...
Pbl.xu(1a)
AS1,XVl( 1a)
SI,xxxVl(1 a)
POSITIONS
EQUIVALENT
Alt
{3ao} [B~ISi6t01sl
BERYL
Be4Si2'[07(OHhl"
BERTRANDITE
Ba l '"
{3ao}[1iQ{g}[SbIOgl )
BENITOITE
AI2
ISi
{3ao}18e:l 6ta18]
BERYL
Ca5uP3
[012(F,OH,CI)]"Ts
APATITE
STRUCTURE TYPE
Str.Tab.,457 .
Pov.,254-255;Str.Tab.,144;
Holzel,40;Can.Min.,1968,,
407-413.
Pov.,443;str."ab.457;
Holzel ,234.
Am.Min.,1994,Zi,91-106;
str.Tab.,465;Pov.,430;
H/ilzel,235.
Am.Min.,1983 ,!m,280(Abs.);
Enc,Min.Nam .,35;
Holzel,43.
Zeit.Krist.,1969,129,222243 ;Pov.,362-363;Str.Tab. ,
402; Holzel ,205.
Mln.Mag.,1986,50 ,681-686;
Holzel,38.
Am .Min.,1967,~,563-564
Holzel.20S.
REFERENCES
0'1
(Ca,Uh
(T1;Nb,Tah
ORCOH)
AgP~(F,OHhCI 3
P~S~06(0,OH)
H2(NH4,K)P04
B12DaC03)
(Bi,Ca)(Ta,NbhOe
(OH)
a-Mg3B-P13CI
J3-Mg3B7013C1
(>265C)
CuPbSbS3
CaTh(P04h
Ca(Mn,Fe)14Si024
Ca2C03F2
CU2(Fe,Zn)GeS4
BETAFITE
BIDEAUXITE
BINDHEIMITE
BIPHOSPHAMMITE
BISMUTITE
BISMUTOMICROLITE
BORACITE (low)
BORACITE
BOURNONITE
BRABANTITE
BRAUNITE II
BRENKITE
BRIARTITE
(high)
NaBeP0 4
CHEMICAL
FORMULA
BERYLLONITE
NAME
Table 78
SPAC'"
{g}[C"031
{300} [F21Cal'1
Tet.
142m
Orth .
Pbcn
Tet.
I 41/acd
Mon .
P2 1
Call'fhloJP2'[Oa]*
(Subs.deriv.
Monazite)
ca"uhMn,Fe)14USI
[024] Tt)l1
c=10.51A
a=5.325~
b=7.550A
c=6.548A
a=7.850~
Z=2
Z=4
Z=4
b=8.692A
c=7 .793A
a=6.726A 13=10353'
b=6 .933A Z=2
c=6.447A
a=9.431A Z=8
c=37.774A
a=8.153~
a=12.0986A
Z=8
Cub
F43c
Orth.
Pn21m
a=8.5496A Z=4
b=8.5496A
c=12.0910A
Orth.
Pca21
Tat .
142d
Tet.
14/mmm
Cub.
Fd3"m
13=90
Z=12
a=14.132A
Z=16
a=10.67A
Z=8
a=8.16A
b=14.0eA
c= 7.79A
a=10 .32A
Z=8
Cub .
Fd3"m
Cub.
Fd3"m
Pb,UOICU Sb'"''',S:J'
ta
Mg3,U'CI
I
{300} [8J Bl 0 13l
(Dlst.d.Boracite
hlah)
Mg3,u'Cl
{300} [83 4lT0 13l
(Bi,Ca)""W
(Ta.Nb)lll
[Oe(OH)P]Qs
[06(OH)D) Os
p~~Sbr
rORCOH)P
Fd~
Cub.
(Ca,Uh~
(TI,Nb,Ta~~
Mon .
P21/n
GROUP
NaLlW1{300}[Be'P'04]
STRUCTURAL
FORMULA
ApBqCrO.(cont.)
(Mn,FeM16d)
(Mn,Fe>u<16e)
Ca(8b) ...
Ca(8d) 0 1(4c)
Ou(Sd) C(4c)
F(Sd)
Cu(4d) Fe(2a)
Ge(2b) S(81)
CI(8b) B1(24d)
8 u(32e) Mg(24c)
O,(8a)...
Cu(4b) Sb l_u(2a)
Pbl.u(2a) SI~I(2a)
SIII.lvC4b)
MgI.III(4a) CI(4a)
B1_V1(4a)01 _xlII(4a)
OI-XU(4e)
Bel~u(4e)PI_III(4e)
Nal.III(4e)
POSITIONS
EQUIVALENT
STRUCTURE TYPE
CU2'Fe S~lSJ'
STANNITE
BOURNONITE
[6Jf
Pb1llo,Cu SbL.>rl1
Defect deriv .
(Ca,NahcbN~61
[Oe(OH,F)D]
PYROCHLORE
[06(OH ,F)D]
PYROCHLORE
(Ca,Nah~~'
NaL""')
1
(300}[Be P04]
BERYLLONITE
(Ca,Nah=N~ol
[Oe(OH,F)D]
PYROCHLORE
REFl:RJ:NCES
Str.Tab. 116.
SR,~.59;LF,113;Pov.,228 ;
Am.Mln. ,1966,~,1816(Abs.);
M.241-242 (Abs.).
Am.Mln.,1986 ,71,1543
(Abs.);Str.Tab . 377.
Zelt .Krist.,1970,ill,397-417;
Mln.Abs. ,81-2424;LF, 161;
Pov . 237Str.Tab. 143.
Am.Mln.,1981,M,878(Abs.);
KIB,160;HOlzel,146;LF,321.
Zelt .Krist.,1973,m,64-99;
Pov.,463;Str.Tab.,266;
Can.Mln.,1977,~, 189-202;
LF,280;Wyckoff-:4,60-64.
Am.Min.1973,a,691-697.
Pov . ,462 ;Wyckoff,~,60-64 .
Pov.,729.
Am .Mln.,1977,~,403-410 ;
KIB 160Str.Tab.509
POV. ,623;str.Tab.,244;
HOlze1145.
Str.Tab.,192;
Mln.Mag .,1972,~,965-967 ;
Pov.,276;Str.Tab.,191 ;
LF,140.
SR,2Z.58B-581;Pov.,529530;Str.Tab.,307;KlB ,58-59.
-.l
NaCaP0 4
CU3FeTbSe4
(Na ,Cah
(Sr ,Ba,Ceh(C03)s
CaMnSI 20S
K2Ca(COJh
Na(Ca,Sr)~h
BROCHANTITE
BUCHWALDITE
BUKOVITE
BURBANKITE
BUSTAMITE
BUTSCHUITE
CALCJARLITE
(Mn ,Cah(Fe,AQ2
(S104h
Ca2ZrSTi201S
(Si,Ce,Ba)(Ca,Na)
(COJh
CaS(P04, C03hF
CAlZIRTITE
CARBOCERNAITE
CARBONATEFLUORAPATITE
CALDERITE
(Ce,Ca)s
(Si04 ,P04h
(OH,F>
CU4S04(OH)s
BRITHOLfTE -(Ce)
(F,OH)1S
(Ni,A1h(Si,AlhOs
(OH)4
CHEMICAL
FORMULA
BRINDLEVTTE
NAME
Table 79
Ca S"P3
T8
[012(C0 3,F)r
uu
(Mn,Cah
(Fe AI),oSh~O"]*
Ca2~Z~41/tnl)1
08
(0,60 21
u
Ca"Mn
{leo} (SbOs]
(Subs.dem.
Wollastonite?)
K2,u"'Ca,uJ
trOJ]2
{g} [C
Cu 40S (04(0H)sf
(:oAntlerite)
(Ce,ca)sP(Sifh
(012(OH,F)r
:zoo(Ni,Al)3O~OH)4]
{:zoo}((Si,AJh Os]
STRUCTURAL
FORMULA
Hex.
P6J/m
Olth.
Pmc2
Cub.
la!d
Tet.
I 41/aOO
Mon.
C2Im?
Trig.
R'3"m
Tric.
P'1
Hex.
P"6Jmc
...
Tet.
14/mmm
Olth .
Pmn21
Mon.
P2,/c
Hex.
P6ym
Mon.
?
GROUP
SPACE
Z=2
a=9.63~
Z=2
a=5.214A Z=2
b=6.430A
c=7.301A
a=9.36A
Z=2
c=6 .90A
a=10.52A
c=6.51A
a=6.02A
f:l=10322'
b=9.854A Z=4
c=13 .08A
a=5 .167A Z=4
b=9.259A
c=6.737A
a=3.976A Z=1
c=13 .70A
c=7 .03A
f:l=104"9'
Z=(?)
a=5.286A
b=9.133A
c=7.31A
ApBqCrO.(cont)
Ca(16f) Ti(16f)
Zr I112(16f)
Zrll(32g)01-l1(16e)
0,,1.\1(320)
K(6c) C(6c)
Ca(3a) 0(18h)
(Na,Ca)(6c)
(Sr,Ba ,Ce)(6c)
01(12d)
Ou.M6c) C1(6c)
C,,(2a) CIII(2b)
CU'.lv(4e) S(4e)
OI.X(4e)
EQUIVALENT
pOSITIONS
CasPP3
T8
(012(F,OH,CI)r
APATITE
Ca3uuAI2Sbl?12]*
GROSSULAR
Ca2ooZr:zr4"'T12,uI
[0'602]08
CALZIRTITE
CasPP3
T8
(012(F,OH,CI)r
APATITE
STRUCTURE TYPE
REFERENCES
874(Abs .).
Pov.,382;LF,148; Hlllzel,187;
Str.Tab. 369.
Sov.Phys .Cryst .,1961,!i,155157;Pov .,278;str.Tab.,192;
Am .Min.,1986,Z1.815-818;
Hlllzel80.
Am .Min.,1983,,1251
(Abs.);Str.Tab.,240;
Pov. 611'Holzel 99.
Str.Tab.,326-327 ;LF,165 ;
Hlllzel,156;KIB,104-105.
Acta
Cryst.,1984,~,12991300.Am.Min.,1974,~,353-
Am .Min ~ ,1977,62,1216-1224.
Sov.Phys.Cryst.,1968,~,192-
Am .Mln.,1972,I,191O(Abs.);
Hlllzel15.
Am .Min.,1978,63,484-489;
Hlllzel,234 .
00
Mon.
C2 ...
CeWz06(OHh
(Ce,Nd,La)
(Fe,n,A1h(Si,Ash
0 13
PbMn30e(OHh
(Cs.Nah(Pb,Sbh
Ta.O..
(Cs,Na)SbTB401z
Th" xPbzx
(Sb,As)91.xS147
(Cu,Fe,Ag)6.3
CTI.KhSbS.
Mn3BrO'3CI
(Fe,Mg,Ai)e(Si,A1)4
01o(OH,O)e
CUeFeSnzSe
(Mg,Fe)17SiZo0504
(OH)e
CEROTUNGSTITE - (Ce)
CERVANDONITE -(Ce)
CESPLUMTANTITE
CESSTlBTANTITE
CHABOURNEITE
CHALCOTHALUTE
CHAMBERSITE
CHAMOSITE
CHATKALITE
CHESTERITE
CESAROLITE
Mon.
P2,...
CuzCdSnS4
CERNYITE
(Fe,Mg,Ai)3U(OH)z
{200}[ (Si,AI).1010
.(Fe Mg,Al)~o (OH)el
CUe Fe Snz (S6!
(Inser.subs.d.Sphalerlte =Mawsonite)
{200}[ ((Mg,Fe)17o
(OH)e]{1 oo}{Sizo'0 50411
Mn3
{3:X>}[B3IBl 0 13l
10'CI
(Cs Na)~Sb~Oz~
Ta)6I(O,zOz]Oo
Z=2
Olth.
A21ma
Tet.
P'4m2
Mon.
C2Im
Tet.
14/mmm
Olth.
Pca21
a=18.6A
b=45.3A
c=5.30A
Z=4
a=16.346A a,=;9586'
b=42.602A ~=8891'
c=8.534Az=1y=96S8
Z=1
a=3.87A Z=0.75?
c=13.16A
aeS.6SA
Z=4
b=8.6SA
c=12.26A
a=5.394A ~=900
b=9.342A Z=2
c=14.180A
a=7.61A. Z=1
c=5.373A
Trlc.
P1
Z=2
a=13.55?A
c=6.445A
a=10.256A
Z=4
a=5.874A ~=10527'
b=8.700A Z=2
c=7.070A
a=11.269A ~=121 .35
b=19.527A Z=6
c=7.226A
?
a=5.5330A
c=10.S266A
a=5.65A ~"104"30'
b=9.7SA Z=2
c=7.50A
A=S.622A ~=115 .09"
b=13.07SA Z=S
c=14.411A
?
UNIT CELJ..DIMENSIONS
Tet.
?
Cub.
Fd"!m
Tet.
142m
Fd~m
Cub.
(Nb,Ta)z[ If"
[06(OHlO
CuzCd'Sn(S4)"
(ce,ca,~CD
(Ce,Ca,y)z
(Nb,Ta)zOe(OH,F)
CERIOPYROCHLORE - (Ce)
Mon.
l2Ic
BaIVl{3:X>}[SizA1z'Oel
(",Plagioclase)
BaAlzSizOe
Mon.
?
SPACE
GROUP
CELSIAN
(Mn,Mol3
{200}[Siz 051
U(OH)4
STRUCTURAL
FORMULA
(Mn,MghSl z0 5
(OH)4
CHEMICAL
FORMULA
ApBqC,D.(cont)
CARYOPILITE
NAME
Table 80
(Mg.Fe)I.lx(8b)
(v. occ.) ...
Ba(Sf)OI-VIII(Sf)
(Si,AlkMSf)
EQUIVALENT
POSITIONS
STRUCTURE TYPE
ca,Na)zcllN~
(Oe(OH,F)OI
PYROCHLORE
Defect deriv.
(Oe(OH,F)O]
PYROCHLORE
CuzFe Sn[S41"
STANNITE
(Ca,Na)z""N~OI
(Mg,Feh"(OH)4
(200}[SlzI051
ANTIGORITE
REFERENCES
Am.Mln.,19S2,lU ,621-622
(Abs.);G.0 .,SerleGeol.,1986,
9 41-53'HOlzel 20.
Am .Mln . ,1978,~.1 000-1 009;
Am.Min., 1978,~,1 053-1 073.
Am.Mln.,1979.lM,658(Abs.);
HlllzeI15Enc.Mln.Nam.60.
Am.Min.,1962,47,665-671 ;
LF,280;Str.Tab.,266;Pov.,
463;Hl>lzel,119.
Hlllzel,232;Pov.,444,154;
Str.Tab.,452:LF,234.
Am.Min.,1982,67,621 :
Hl>lzel,41 .
MinAbs .S9M14847;HOlzel,
190.
HOlzel,74;Pov.,319;
Str.Tab.515.
Am.Mln.,19S9,~,501 (Abs.);
H61ze178.
Am.Mln.,19S2,lU,413-414
(Abs.); H61zel,66.
Am.Mln .,1990.~,932(Abs.) :
Am.Mln.,1979,!M,653;Garcia
Orts,Serle Geol.,1986,i.4153' HOlze119.
Am.Mln.,1972,R,15581559(Abs.);Pov.,572;HOlzel,
81.
19n,~,403-410;
H6Izel,234;Str.Tab.,457;Pov..
431432,738;Can.Mln.,19S2,
2Q,1-S.
Am.Min.,1976,1,414-41S;
LF ,269;Wyckoff,~,451-453:
Pov.,344;Str.Tab.476.
Encycl.Mln.Nam.,58;Am.Mln.,
\0
Cas(P04hCI
Cas
(Si04,SO.,PO.h
CI
(Mg,Fe)s(Si04h
(F,OHh
CHLORAPATITE
CHLORELLES
TADITE
TIHgAsSJ
{Mg,A1MSi,AI)4
010(OH)6
Mg3SbOs(OH)4
CuJAsO.(OHh
(Mg,Fe)g(SI04)4
(F ,OHh
(Mg,FehSleO,6
(OHh
Ca(Mg,Fe,Mn)B2
Os
LiCaAIF6
CHRISTITE
CLINOCHLORE
CLINOCHRYSO
TILE
CLINOCLASE
CLiNOHUMITE
CLiNOJIMTHOMPSONITE
CLiNOKURCHATOVITE
COFFINITE
COLQUIRIITE
CHONDRODITE
Na2BeSi206
CHEMICAl.
FORMULA
CHKALOVITE
NAME
Table 81
P21/n
Mon.
UOQ8il(O,OH)41*
(Mg,Fe)gUSi 4
[O,6(F,OHht
{2oo}[MQ3
[(200}[8i 2'Osll
0(OH)4
Tet.
14,/amd
Tng.
P'!1c ...
Mon.
1
Mon.
C2Ic
Mon.
P2,1b
Mon..
P2,/c
Mon.
C2Im
U(OHh
(Mg,A1h
Tric .
C'1
[ 2oo[(Si,A1hI0 1o]
2oo[(Mg,A1hO(OH)6] 1
P21 /a
TIHg
Mon.
(Mg,Fe)sUSi~
[06(OH ,Fhl
Asl,,"I[8Jl
Hex.
P6J/m...
Hex.
P6J/m
Olth.
F2dd
SPACE
GROUP
CasP(Si,S,Ph
[O,2CI)"Ta
Nal",UJ
IBe'Oll""lc
{3:Xl} [SI2
(Inser.subs.deriv .
Cnstobalite)
CalP3 [O'2CI)" a
STRUCTURAL
FORMULA
Z=24
Z=2
~=109"2'
Z=2
a=5.34A 1l=9316'
b=9.25A Z=2
c=14.65A
a=7.24A
1l=99030'
b=6.46A
Z=4
c=12.38A
a=4.7441A 1l=100.78
b=10 .2501A Z=2
c=13.6635A
a-9.87A
1l=10.5
b=27.2A
Z=4
c=5.32A
a=12.19A 1l=1
b=10 .95A Z=16
c=5.59A
a=6.981A
Z=4
c=6.250A
a=5.02A
Z=2
c=9.67A
a=6.113A ~=96.71
b=16 .188A Z=4
c=6.111A
1
a=10 .29A
b=4.742A
c=7 .87A
a..9.543A
c..6.917A
a-9.5979A Z-2
c=6.7762A
b=21.1A
c=6 .87A
a=21.1~
ApBqCrD.(conl)
U(4a)0(16h)
81C4b)
CUI.ln(4e)
As(4e)01.1V(4e)
(OH)I~n(4e)
(Mg,Feli(2d)
(Mg,Fe)II.v{4e)
811(4e)8In(4e)...
(Mg,Fe)I.v{4e)
811-111 (81)...
(OH,Fe)(4e)
01 ~v(4e)
(Mg,Fe)l.n(4e)
M91II(2d)Si(4e)
Ca,(4f)Call(6h)
P(6h) CI(4e)
01~1(6h)01ll(120
EQUIVALENT
POSITIONS
uu8i
[0.]*
Zn
ZIRCON
(Mg,Fe)9U8i4
[016(F,0H)l
CLiNOHUMITE
(Mg,AlhO(OHh
{200}[(Si,AI)4'o,O]
2oo[(Mg,A1ho(OH)61
CLiNOCHLORE
[06(OH,Fhl
CHONDRODITE
(Mg,Fe)sOSi~
CasPP3
[O'2(F,OH,CI)"T.
APATITE
Cas"P3
0'2(F,OH,CI))"Ta
APATITE
STRUCTURE TYPE
REFERENCES
Am.Min.,1958,43 ,243-248 ;
Pov. 381Str.Tab.,371;LF 149
Am.Min .,1981,,679(Abs.);
HOlzel51.
Am .Mln., 1984,i,81O(Abs.);
HOlzel,114;Pov.,472.
Am .Min.,1973,58,43-49;
LF,126;Pov.,391;Str.Tab.,376
Acta .Cryst.,1965,18,777-787;
Pov.,511-512;Str.Tab.,320.
Str.Tab.,457;HOlzel,233.
H6Izel ,39.
Am.Min.,1977,~,421-425;
Am .Min.,1982,I,9Q-96.Str.
Tab .,327;Pov.,389-390;
H61zelsuppl..
Wyckoff,~, 178-180;LF,124;
Pov .,391-392;Str.Tab.,376;
Am.Min. ,1970,55,1182-1194.
Am.Min.,1989,74,870-876;
Pov.,541 ;Str.Tab.,326-327.
Pov .,359;Str.Tab.,470;
H61zel,238.
.....
o
Mg 2AI4SisO' 6
CU3P04(OHh
CUs(As04h(OH)4
CUs(As04h(OH)4
Fe3(SI,FehOs
(OH)4
CONGOUTE
CORDIERITE
CORNETITE
CORNUBITE
CORNWALUTE
CRONSTEDTITE-1H
Ca.Sb0 7(F,OHh
CUSPIDINE
C=GillesDite)
Ca4uSb
[07(F ,OHhf'"
Mon.
P2,/c
Tet.
P4/ncc
CaIDICu'-'
IO,01
a=7.55A
b=10.43A
c=10.85A
a=7.30A
c=15 .12A
Z=4
~=6956'
Z=4
a=9.51A
~= 1 0155 '
b=18 .19A Z=2
c=5 .33A
Z=2
a=12 .122A
Z=8
a=15.065A
c=24 .436A
CUPRORIVAITE
{200} [SI4
Z=6
c=13 .176A
a=10.464~
a=10 .68A
Z=1
Cub .
I a3d
Tet.
14/mmm
Tog.
P31m ...
Mon .
P2,/a
Toe.
P'1
Orth .
Pbca
Mon.
C2Im
NarAbOLi3[Fd*
200[ Fe3(OH?41
{2co}[(Si,Feh Osl
CSubs.d.Bervl)
Orth .
Cccm
(Mg ,Fe)r
(Mg,Fe) so(OH)2
{l co}[SiaI0 2:zl
CU20Pb:2,CI42
(OH)4Q
Mgt
{3a>} [A14ISistOlal
Tog .
R3c ...
Tog .
P3,21
SPACE
GROUP
Cub .
P43m
ApBqCrD.( conl}
CUMENGITE
CRYOUTHIONITE Na3LbA bF ,2
Na2C82Si30 9
CHEMICAl
STRUCTURAL
FORMULA
FORMULA
CU26V2(As,Sn)6S32 CU26 V2(As,Sn)6
[S3:z]c
(-=Germanite)
COMBEITE
COLUSITE
NAME
Table 82
REFERENCES
Holzel ,119;RRW,143
Am .Min.,1994 ,Z2,75Q-762;
Holzel,21;Str.Tab .,116.
I</S,172-173.
Am .Mln. ,1971,~,16-23;Pov.,
S I I~,(4e)FI.II(4e)
SI(16O)
Ca,.,y(4e)
0,.vlI(4e)
Wyckoff,~,395-397;Pov. ,427-
Str.Tab.,416;
Am .Min.,1989,.M,10911 096.
663Str.Tab. 160HlllzeI.51.
Min .Mag.,1986.Q,157-162;
Pov .,649 ;5\r.Tab.,167 ;Hlll zel,
57.
01(8f)01l~ 1I(18g)
Ca4Si2
[07(F,OH):z]"'"
CUSPIDINE
Car(Mg,Fe}sU(OHh
, co}[SlaI02:zl""
TREMO LITE
Ca3OAI2uSiJ t012l"
GROSSULAR
Cyst .,1963,.1.,1-8;LF,236;
Am .Min. 196247781 783 '
Wyckoff,~366-367 ;Acta .
Am.Min.,1985 ,70,1333(Abs.);
Holzel,151;Pov .,511;Str.Tab .,
320 ;Mln .Mag., 1959 .~.1-5.
STRUCTURE TYPE
Ca(4b)Cu(4c)
(Mg ,Fe)I_II(4h)
(Mg ,Fe)III(4g)..
Si,~, (8j)
(Fe ,Si)(2b)
Fe(3c) O(3c)
COH),(3c)...
Ca(24c)Li(24c)
AIC16a)FC96h)
Pbl(2a)Pbll(4e)
Pb lll(16n)
PbrA16m)...
Mg(8g)
(AI,SQI(8k)
(AI,SQII(4b)...
V(2a) Cul(12f)
CUII(8e
CUIII(6d)
S,C8e)SII(241)..
Si l _III(6c)
0'.1I(3a)...
POSITIONS
EQUIVALENT
......
......
~ZrSlsO,~
DADSONITE
DALYITE
DANBURITE
(La,Ce,Ca)(y,U)
(TI,Fe)2lP38
CaeSI30,,(OHh
(Ca,Mn)(Mn,Zn)
Te40,o
CuPb:2CI 2(OH)4
Ag3Pb:2S~SS
A12SI20~(OH)4
CaMgSI20s
CU20S04
DAVIDITE (La)
DELLAITE
DENNINGITE
DIAPHORITE
DICKITE
DIOPSIDE
DOLEROPHANITE
DIABOLEITE
(Ce,Ls)(y,U)
(TI,Fe)wOJs
DAVIDITE - (ee)
Mon.
Cc
Mon.
C2Ic
Mon.
C2m
Ca,oJMgO
(loo)[Sl210slcx
(300)[CUOCUIODYIS 051
Mon .
C2,/a
Tet .
P42/nbc
Tet.
P4mm
Too .
P'1
R~
Trig .
Trig .
R~
Trlc.
P'1
200[ A12(0H)4
(200)[SI210st I
[Ss)'
Ag3"Pb:2l0'S~I""J
Pb:210JCU"'l
[[OHMCI1:zl(C2,c'l f
Subs.d .DavidltelYl\
(Y,U)(TI,Fe),sO
l
(TI,Feh
hho
[(La,Ce,Ca) 0381
(Subs .d.Davldlte(Y)
(Ce,La)0381hl>::
~i,Fehl
~,ut(Tl.Fe),sO
(200)[SI SOd
~10<'T1~
K2TISIsO,~
DAVANITE
Pnam
Orth.
Call1{300H~ Si 2Oel
CaB 2S120S
Mon .
P2Im ...
SPACE
GROUP
Too.
P'1
[S~C~'
Pb:2,L''''ISb:2l,nr
STRUCTURAL
FORMULA
a=9.750A
b=8.930A
c=5.249A
a=9.370A
b=6.319A
c=7.639A
a=15.85A
b=32 .09A
c=5.90A
a=5.150A
b=8.940A
c=14.424A
13=12254'
Z=4
13=7410'
Z=4
13=9644'
Z=4
13=90"10'
Z=8
a=6.84A cx.=9004S'
b=6.94A
13=97"22'
c=12 .89A v=9816'Z=2
Z=8
a=8.82A
c=13 .04A
a=S.870A
Z=1
c=5.494A
a=10.37A
c=20.87A
Z=3
a=19.0SA 13=9620'
b=4.11A
Z=0 .5
c=17.33A
a=7.371A cx.=10614'
b=7.730A 13=11127'
c=6.912A y =100"0 '
Z=1
a=8.04A Z=4
b=8.77A
c=7.74A
a=7.250A cx.=10S.SQO
b=7.474A 13=112.81
c=6 .909A t =99 .28
Z=1
a=10.376As R=9 .190A
c=20 .910A cx.=68.73
Z=3
Z=1
UNITCELL DIMENSIONs
ApBqCrD.( cant.)
Kl' <JZr"
IO,51
(200)[Sls
NAME
. CHEMICAL
FORMULA
Pb:2,Sbn~CI
Table 83
STRUCTURETYPE
146-154.
S(41)~~I'III(41)
01V(8
Str.Tab.,411 ;LF,20S.
Wyckoff,~,295-296;Pov . ,409;
Wyckoff,~,369-371 .
LF ,1S8;Wyckoff,~,98-99;
Zelt.Krist. ,1971 ,~,69+80;
1-1S;Enc.Mln.Nam .,80;
HOlzel,203.
Pov.,564-56S:Str.Tab.,22$;
RRW,168-169.
RRW,167;Mln.Mag .,196M~,
Am .Min.,1979,M,101Q-1017;
Pov.,28Q-281;Str.Tab.,187;
HOIzel,65,Am.Mln.,1961,40,
70Q-718.
Pov .,280-281 ;Am.Mln.,1979,
M,101Q-1017; HOlzel,6S;
Str.Tab. ,187.
~Q.79-85.
Pov.,253;Str.Tab.,148;HOlzel,
199.
Wyckoff ,~,39Q-391 ;Pov.,364;
Str.Tab. ,434;Zelt.Krist.,196S,
ill,349+368.
SR,~,307;Str .T8b.,27S ;
Pov.,S85:Am.Mln.,1961,~,
Dist .derlv.
200[ AbO(OHh
C
(200)[Si210 51 I
KAOLINITE
Ca'U'MgU
CX
(loo)[S1210 al
DIOPSIDE
REFEJU=NCES
Mln .Mag .,1969,~,437-441 ;
CUI(4e)CulI(41)
Ca(4e) Mg(4e)
Si(8f) 0~1II(8f)
SII~I(4a) ...
AII-I,(4g)
Pb(2c)(OH)(4d) Pb:2'u,Cu'"
[[OHMCI):zl(C2,C1) f
Cu(1 a)CI,(1a)
DIABOLEITE
CI"l1b\
n:".lefl...
(Ce,La)(1a)
(Tl,Fe)(2c)
(y,U)(1b)
Ca(4c)SI(8d)
B(8d) OI-lIl(Sd)
O;'J.\/(4cl
Zr(1 a)51'.11I(21)
K(21)O,(1 h)
01l.vu(21)
EQUIVALEIfT
POSITIONS
.....
IV
STRUCTURAL
FORMULA
HgeOCIJ(OH)
Na2Mg(COJh
Ca2ThSl e020
K2NaAIFe
(Fe ,Mg.MnhB~13
EFREMOVITE
EGLESTONITE
EITELITE
EKANITE
ELPASOLITE
ERICAITE
Fe eSle015(OH,0)e
Ag7Pb1QBi,5S Je
LiAJSi0 4
ERLIANITE
ESKIMOITE
EUCRYPTITE
CI
(Cu,Fe)PbgBi 12S2e
ECLARITE
LiAl'Si
[04 00.5](3R21 0) by
(sub.der.Phenakite)
QNaQ[K2 C
Fei
AI
(Subs.deriv.Perovskite)
(Fe,Mg,Mnh'OlCI
(300}[8JIS4tr0 13]
Na2,DlMgQ
{g} [Clr~.h'bc
(",Dolomite)
CarTh-Sie1020]
Tet.
Pbe,o'As2'U,
[[O~Dl rCI4n<02,201~.r
(Cute)Pbgl'> 1
Bi126J[~ef
P~07CI4
ECDEMITE
~~HH~21~~iH)]
CbO
Orth .
Pbca
(Mn,MgtM9Q
(1oo}[Si 2Oelchx
(Mn,Mg)Mg
(SiOJh
R3
Trig .
Mon.
B2Im ...
Orth.
Pmmn ...
Orth .
Pca2 1
Cub .
Pa3
Tet.
1422
R3
Cub .
P2 13
Cub.
1a!d
Trig .
Orth .
Pnma
R3
DONPEACORITE
Trig .
SPACE
GROUP
Ca
{g} [ClrOJ.h'bC
4"Mg""
CaMg(COJh
CHEMICAL
FORMULA
EQUIVALENT
POSITIONS
a=8.58A
Z=4
b=8.65A
c=12.17A
a-23.20A
Z=6
b=9.20A
c=13.18A
a=13.459A ~=9335'
b=30.194A
Z=1
c=4.100A
a=13.471A a~8.37A
c=8.998A 0.=107"52'
Z=18
ZR=6
a=8.11A
Z=4
Li(18f)S i(18f)
AI(18f)
OI.M18f)
AI(4a) K(8c)
Na(4b) F(24d)
ApBqC,D.( cont.)
DOLOMITE
NAME
Table 84
STRUCTURE TYPE
.ea
Pov .,663;Str.Tab.,161;H/)Izel,
51.
Pov. ,463;Str.Tab.,266 ;Am.
Tab. ,383;Pov.,3833B4;LF,145
H6Izel,230;Am.Min.,1987;72,
1023-1024(Abs.).
Am .Min.,1979 ,64,243-244
(Abs.) ;H6Izel,45 .
H61ze1119'LF 280.
Min.,1973.~,1098-1099 ;
Wyckoff,~,374-375 ;LF,104;
ELPASOLITE
Pov .,374-375;Str.Tab.,405;
Am .Min.1961.46,1516(Abs.):
Mln.,1983,~,474(Abs.) ;
Wyckoff,~,286 ;Holzel,207;
JCPDS,23-343;H6Izel.57;
Pov . 656 Str.Tab. 169'LF 157
MlnAbs.,84M13840,382;
H61zel,46;Am.Min.,1985,IQ,
215(Abs.)
Am.Min. ,1991 ,76,299-300
(Abs.tH6Izel sUDPI..
Am.Min .,1977 ,~,396(Abs.);
H6IzeI55Pov.848-849.
Am .Min.,1973,58,211-217;
H6Izel ,97;Pov .,613;Str.Tab.,
240.
Can.Mln.,1982,2Q,65-75.Am.
H6Izel,213;LF,207.
Am.Min.,1984,~,472-480 ;
Pov .,612;Str.Tab.,237;H/)Izel,
97;Am .Min.,1977
772-783.
REFERENCES
AIONaU[K2F~
CaPMg....
{g} [Clr~.h'bC
DOLOMITE
Mg10lMgQ
(1oo}[Si2'oejchx
ENSTATITE
...w
Mn2AsO.(OH)
Ba(Ca,Y,Na,K)
(C0 3h
CaB 30 5(OH)
K2Ca(C03h
(Ca,Sr)5
(AsO.,pO.h(OH)
Li 1_.(Fe,Mn)PO.
Ca(Fe,Ca,Mn)
Si 20 6
(Na,CahFe3
(PO.h
CU2(Fe,Zn)SnS.
(Fe ,Mn)S~15
(OH ,CI)10
CU1102(V0.)6
EWALDITE
FABIANITE
FAIRCHILDITE
FERMORITE
FERRISICKLERI
TE
FERRO-ANTHOPHYLUTE
FERROBUSTA
MITE
FERROHAGEN
DORFITE
FERROKESTE
RITE
FERROPYROSMALITE
FINGERITE
CHEMICAL
FORMULA
EVEITE
NAME
Table 85
Hex .
P6J!mmc
(K,Ca)21f I(K,Ca)lOJ
trOJl2
{g}[C
CU1t"OOYV6 (026j"
CU2(Fe,Zn) Sn (5.]"
Cao(Fe,Ca,Mn)O
{lao}[Sh10sl
(Subs .d.WoIlastonite)
Olth.
Prnnb
Trlc.
P'1
P~m1
Trig.
14
Tet.
Mon.
C2Ic
Tric.
A'1
(Fe,Mg)r(Fe,MghU Olth.
(OHh
Pnma
t0
{lao}[Sis 2 chx
Hex.
P6J!m
Mon.
P21/a
Ca lOJ
t
{2ao} [B 2tS '05(OH)]"
(Ca,SrhP(p ,Ash
TS
[012(OH)r
Hex .
P63mc
Olth .
Pnnm
SPACE
GROUP
Ba'O'(Ca,Y,Na,K)
t'03h
{g} [C
MnoMn,J'As
[O.(OH) DjR21 by
STRUCTURAL
FORMULA
Z=2
Z=4
Z=2
Z=2
Z=2
Li(4a) P(4c)
(Fe,Mn)(4c)
O'4,(4c)0 1ll(8d)
Ca(4e)OH(4e)
B'.1II(4e)
0 1.y(4e)
(K,Ca),(4t)
(K,Ca>u<2b)
C,(2a)C;,(2d) ...
EQUIVALENT
POSITIONS
a=13.33A
c=7.11A
a=5.433A
c=10 .884A
a=7.862A 0.=89044'
b=7.253A ~=95"28'
c=13 .967Ay =10329'
Z=3?
?
a=5.918A Z=4
b=10.037A
c=4 .799A
?
a=9.62A
c=7.01A
a=6.593A ~=113.38
b=10 .488A Z=4
c=6 .365A
a=5.294A Z=2
c=13.355A
a=5 .284A
c=12.78A
a=8.57A
b=8.nA
c=6 .27A
ApBqCrD.{conl)
STRUCTURE TYPE
Dist .deiv.
CU2tFetSnt(S.jC
STANNITE
Dist.deriv.
(Mg,Fe)}S)
(Mg,FehO(OH,Fh
{laoHSist02212cllx
ANTHOPHYLLITE
Ca5PP3
T6
[012(F,OH,CI)r
APATITE
CaUMgU[Si 041"
MONTICELLITE
MnoMnlOJAs
[0.(OH) D jR21 by
ADAMITE
REFERENCES
174.
Am .Mln.,1985.70,197-199 ;
Holzel,150.
HlSlzelsuppl.;Enc.Min.Nam .,
100.
Can .Min.,1989,27,673-688;
LF,113;HlSlzel suppl..
lM,419-438.
156;Str.Tab.,327-328 ;Pov.,
541-542;LF,165.
Acta Cryst., 1976,m,27612764;Pov.,737;Str.Tab.,308 ;
LF 122 ' HlSlzel142 .
LF,211 ;HlSlzel,218.
Wyckoff ,~,228-232;HlSlzel ,
Am .Min.,1968,53,18411845
Am.Min ,197O,55,319-320
(Abs.);Pov.,51Q-511;Str.Tab.,
317'LF 144'
Am.Min.,1971,56,2156(Abs.) ;
Am.Min.,1995,Q,634(Abs.);
Pov.613.
Zeit.Krist.,1970,m,241-254;
Str:Tab.,263;Am.Min. ,1963,
48,212-213(Abs.);Pov.,487.
Zeit .Krist.,1981,lli,199-205;
Pov. ,736 ;Str.Tab.,240;HOIzel,
98.
.j:>.
.....
Mon .
C2Im
Tric.
P-1
2oo[(Zn,AJhO(OH)4
{2oo}[(Si,AJ)}05Jj
P~Sn3Sb:2[S141
Ca5(P04hF
Ca5(5i04,S04,
P04h(F ,OH,CI)
Ca4(Si03h(OHh
(Zn,AIh(Si,Alh05
(OH)4
P~Sn3Sb:2S14
CU6(Ag,Fe)6Sb4
5 13
AgPbSbS3
FLUORAPATITE
FLUORELLESTADITE
FOSHAGITE
FRAIPONTITE
FRANCKEITE
FREIBERGITE
FREIESLEBENITE
Cub .
143m
Mon .
P2,/a
Ag " JPbuSb''''J[~]
Tric.
P'1
Hex .
P6:J!m
Hex.
P6:J!m
300[CU6 (Ag,Fe)6"
sbi3nI S131
Ca4
(loo}[Sh tOg(OHh]my
Ca5P(Si,S,Ph
[012(F,OH,C1)rr6
CalP3 [012F)" 6
Hex.
P6ym
Mg 3(B03)(F,OHh
FLUOBORITE
Orth.
Pnma
Mn2uMn'OUJ'As
[04(OH)4]
Mn~s04(OH)4
FLiNKITE
Mon.
P2 1/n
Or6
[OgCII
(",ADatite)
Ag5Pb14Sb:21[S48]
(",Andorite)
Ag 5Pb14Sb:21S48
SPACE
GROUP
Hex.
P6:J!m
FIZELYITE
P~I~wJA5:l'J
STRUCTURAL
FORMULA
P~(AS03hCI
FORMULA
CHEMICAL
Z=2
~=10333'
Z=?
(=900
13=106"24'
1=90
Z-2
Z-2
Z=2
a=7.518A 13=92.25
b=12 .809A Z=4
c=5 .940A
(=900
a-46.9A
b=5.82A 13=9440'
c=17 .3A
1 =90
Z=8
a=10 .384A Z=2
a=10.32A
b=7.36A
c=7 .04A
Z=2
a=5 .372A
b=9.246A
c=7 .273A
a=9.485A
c=6.916A
a-9.3684A
c=6 .8841A
a=9.06A
c=3 .06A
a=10 .322A
c=7 .055A
ApBqC,D.{conl)
FINNEMANITE
NAME
Table 86
Pb(4e)S'~II(4e)
CUI(12d)
(Cu,Ag)u(12e)
Sb(8c) 5 ,(2a)
S,,(24o)
Ag(4e) Sb(4e)
OI~x(2i)
OIlI(121)CI(4e)
Cal_Iy(2i)
SI'_1II(2i)
OH 14I(2i)
P(6h)O'~1(6h)
Cal(4f)Call(6h)
OIll(121)F(2a)
P(6h)O'~1(6h)
Ca,(4f)Call(6h)
Mg(6h)B(2c)
(F,OH)(6h)
O(6h)
O,v.~4c)
O'~II(8d)
Mn,(4a)
Mnlll(Bd)As(4c)
EQUIVALENT
POSITIONS
REFERENCES
Ag"JpboSb'""'J[8:l]
FREIE5LEBENITE
300(CU6 CU6"5b/'''
S13I
TETRAHEDRITE
C a5"P3
[012(F,OH,CI)"rl
APATITE
I<IS,84-85.
~.141(Abs.);Str.Tab. ,145;
eo,
Cryst .,1960,ll,785-793;LF,
212;Str.Tab.,423 ;Pov.,417;
Am .Min .,1958,43,1 -15 .
Am.Min.,1977 ,62,175(Abs.);
Htllzel,234;Enc.Min.Nam .,
106;Pov.,457-458;str.Tab.,
375' LF 236 .
Bull. Mln.,1961 ,M,35O353 ;Pov .,263:str.Tab.,
125 ; 1<15,79.
Wyckoff,~,32Q-322 ;Aeta .
5tr.Tab .,527;Am.Min.,1970,
55,17Q-184;Am .Min. ,1989 ,74,
870-876 .
Am .Min.,1989 ,~,502-503 ;
LF,165(Abs.);HOlzel,157;Am .
Min . , 1 970 , ~, 17Q-1 84 .
FLUOBORITE
Ca 5"P3
[012(F,OH,CI)"r6
APATITE
Wyckoff,~,518-519;LF,182;
Am.Min.,1979,64,229-231 ;
H6Izel,112;Pov.,469-470;
5tr.Tab. 253.
MinAbs. ,19B1,B1/1244,137;
Htllzel,91iPOV .,289;str.Tab.,
227.
Am .Min .,1985 ,70,219-220 ;
Htllzel,41 ;Pov .,253-254 ;
str.Tab.,145.
Am.Min.,1967,52,1603-1613;
Str.Tab.,321;Pov .,514.
Mg3 [[(F,OH)b
(g}[Blr~J'0To")
STRUCTURE TYPE
Ul
NaCaY(F,Cl)e
(Cs ,TI)
(Hg,Cu,Zn)e
(As,Sb)4S12
FeSbBiS 4
(Mg ,Feh(P04h
(OH ,H 2Oh
Ca 2AI(Si,Al)P7
CU2N03(OHh
CU2eFe4Ge4S32
Hg 4S04N2
CU2P~e(Bi .Sbho
GAGARINITE -(Y)
GALKHAITE
GARAVELLITE
GARYANSELLITE
GEHLENITE
GERHARDTITE
GERMANITE
GtANELLAlTE
GIESSENITE
BaFeSi 40 10
CsZrSb07
(Na ,K ,Cah-8
(Si,AI)'2 024
(S04,A1),.2
GILLESPITE
GmlNSITE
GIUSEPPETTITE
S57
CU5PbsBi7S1e
CHEMICAL
FORMULA
Mn8SiIP15
(OH,CI)10
FRIEDRICHITE
FRIEDELITE
NAME
Table 87
SPACE
CaUZr"(g}(Sb Or]
Ba'OJFe""
(2oo}(Si 4'010]
(Bi,Sbhora;Ss7] #
CU2P~IOJ
Cub.
P43n
Hex.
P6Jmc
Mon.
C2
P4/ncc
Tel.
P2,/n
Cub.
F43m
Mon.
Olth .
P212121
Tel.
P421n
Olth.
Pbna
Olth .
1
Cub.
143m
Hex.
P3 .. .
(Mon .)
Trig. ?
P3m1
Olth .
Pb2 1m
GROUP
CU2N"[03(OHh]
Ca2'u,
1(Si,Alh107]
{2<>O}(AI
3<X>[(Hg,cu/Zn)e
(As ,Sbh[3n
S12(CS TI)I
FeoStJ!,n1Bi lf[S41 ..
NauCa'''''''''''Y''j
[F,Cll e"T.
STRUCTURAL
FORMULA
Mn18 (OH,Clho
{2<>O}(Sie101sh
(Random d.Mcgillite)
uB
CU5'Pbs i7,fJ [S18] "
(Subs .der.Aiklnite)
Z=2
Z=4
a-34.34A 13=90.33
b=38 .05A Z=2
c=4.06A
a=7.510A Z=4
c=16 .082A
a=9.521A
a-6.087A. Z=4
b=13.813A
c=5.597A
a=10.5662A Z=1
a=11 .439A
Z=4
b=14.093A
c=3 .754A
a=9.452A
Z=4 1
b=9.890A
c=8 .198A
a=7.694A Z-2
c=5 .072A
a-10.379A
Z=1
Z=2
a=33 .84~
b=11.65A
c=4 .01A
a=5 .987A
c=3 .5413A
Z=6
a=13 .40A
c=21.43A
ApBqCrO.(cont.)
STRUCTURE TYPE
Ba(4b) Si(16g)
Fe(4c) 0 ,(81)
0 11 -111 (160)'
Zr(2b) Si(4c)
Ca(2b) 01(2a)
0 1l.IV(4c)
AI(2a) Ca(4e)
(Ca,Na)t'{200)
(Si,AI)(4e)
[(AI,Mg) (Sl,AlhtOr]
0 1(2c)0 1l(4e)
MELlLlTE
Olll(sfl
CU,_1I(4a)
N(4a) 0 1.vl(4a)
H .1,,(4a)
CUI(2a)CulI(6c)
CUIII(6d)SII(24i)
CUIV(12f)SI(8e)
(Ge ,Fe)(8e)
Na(1a)
(Ca ,y)(2d)
(F CI)(Ekl)
(Hg,Zn)(12d)
As(8c) S(24g)
(Cs,TI)(2a)
EQUIVALENT
POSmoNS
REFERENCES
;Str.Tab.,234;
Am.Min.1982 ,67,415(Abs.);
HCllzel.240.
Pov .,633.
SR ,~ .251
SR,32A,439;LF,189 ;Str.Tab .,
388;Pov .,738,440.
Am .Min .,1984,69,207-209;
KlS ,158;HCllzel,170.
>-'
0\
Cub .
I a3d
Mon.
C2Jm
Ca3O(V,AI,Fe)2"Sb
[012]*
P~coS [04F2]"'"
Fe2-3U(OH)4
(2co}[Sb'051
Ca3OAI2Sb[012]*
(Fe,Mg) r(Fe,Mgh U
(OHh
{1co}[SIS'0 2i12.cx
CUeHg3'Sbl,n J
[SI 2D]c
(Cu ,NihC03(OHh
(NH4)(AI,Fe)
(S04),
Ca3(V,AI,Feh
(Si04h
P~(S04)F2
Fe2-3Si~5(OH)4
Ca~b(Si04h
(Fe,MghSisOn
(OHh
CU6Hg3Sb4S12
Ca2BeSi20 7
AgPbBbSs
(Nd,Pb)C03
(OH ,H20)
GLAUKOSPHAERITE
GODOVIKOVITE
GRANDREEFITE
GREENALITE
GROSSULAR
GRUNERITE
GRUZOEVITE
GUGIAITE
GUSTAVITE
GYSINITE -(Nd)
HAAPALAITE
GOLDMANITE
CaMnSi04
Olth.
Pmcn
(Nd,Pb)L'Ul (OH,H2O)
I
(g}[C '03l
Hex.
Mon.
P2 1/c
Tet.
P42 1m
Trig .
R3
(Orth .)
Mon.
A2Ja
Mon .
C2Jm
Trig .
P321
Cub .
I a3d
Mon .
?
Pbnm
onn,
Mon.
C2Jc
AgPbBb[Ser
(=Andonte)
Car{200}[Be'si 2'07]
(Cu,Nihi [OHh
{g}[C,r031
rl,
(Ca,Mn)tSr[04J"
Na2"
(3cXl}[CacllS2'OS)
Pbnm
GLAUCOCHROITE
onn.
Na2Ca(S04h
SPACE
GROUP
GLAUBERITE
Cu Pb1'JBi5" [Sg)
STRUCTURAL
FORMULA
CuPbBi58g
CHEMICAL
FORMULA
a=8.867A 13=107.41
b=4.4419A
Z=4
c=14.242A
a=5.58A 13=104"20'
b=9.63A
Z=?
c=7.38A
a=11 .845A Z=8
Z=4
b=11.486A
c=4.003A
a=10.129A /3=112.19"
b=8 .306A Z=4
c=8 .533A
a=4.913A Z=4
b=11 .151A
c=6 .488A
a=9.34A ~=900
b=11.93A Z=4
c=3 .07A
a=4.75A
Z=1
c=8.30A
a=12.011A
Z=8
a=33.531~
ApBqCrD.{conl)
GLADITE
NAME
Table 88
(Nd,Pb)(4c)
C(4c) 0, .II(4c)
0,;,(8d)
Ca(4e) Be(2a)
SI(4e) 0,(2c)
0 11(48) 0 11I (81)
(Fe,Mg)(4h)
(Fe,MgM2a) ...
(Fe,Ma);,.j1l(4h)
Ca(24c)SI(24d)
AI(16a) O(96h)
Ca(24c)O(96h)
Si(24d)
N :AJ Fe)(16a)
(CB,Mn)(4a)
(Ca,Mn)(4c)
Si(4c)0,~,(4c) ...
Ca2IUJ(Mg,Fe)5U
(OHh{100}[Sleb 22]2CX
TREMOLITE
CUe Zn3Asl"'i
[S120)c
NOWACKIITE
(Ca,Na)t{200)
[(AJ,Mg)(Si,Alh'0]]
MELILITE
GROSSULAR
Ca3~AI2USi3[OI2]*
Ca3OAI2Sb [0 121*
GROSSULAR
CU2[ [OHh
{g}[Ctr031 r..]
MALACHITE
Zelt.,Krlst.,1965,1I1,155-158;
HlSlzel,108;Am.Min.,1985 ,70,
1314-1317.
Am .Min.,1973,58,1111-1115
(Abs.);HlSlzel 26.
1986;9,41-53;HlSlzel,39.
Mln.Abs .,82M12413;Am.Min. ,
1963,~,211 (Abs.),Pov .,447;
Str.Tab.,388;LF,189.
KlS,180-181 ;Enc.Min.Nam. ,
121;RRW,252;Pov.,253-254.
(Abs.);G .O . ,~erieGeol .,
310;LF,208;Str.Tab.,416;
Pov .,739.
Am.Min.,1982,1,855
HlSlzel,234;RRW,247;Pov.,
431-432;Str.Tab.,457.
Am .Min. ,1971,~, 791-825 ;
LF , 148;Wyckoff,~,159 ;Pov.,
382Slr. Tab . 369.
LF,184 ;HlSlzel,100.
Min.Mag.,1974.~,737-743;
366.
LF,315;Pov.,584;Str.Tab.,
273.
Am .Min.,1978 ,63,365-377;
LF, 122;Pov.,385;Str.Tab .,
Am.Min.,1967 ,~,1272-1277;
Ca(4e) S(8f)
Na(8f) 0 ,.1v(8f)
REFERENCES
Cu(4c) B'.j1(4c)
Pb(4c)Si ,.uq4c)
Mg2uSi[041"
FORSTERITE
STRUCTURE TYPE
EQUIVALENT
POSITIONS
.......
-..I
SrVS b07
Ca2ZnSi207
Ni9B iSbS s
CaFeS i20 6
PbsAS2~CI4
Pb 4Fe30S
(OH ,CI)
(Ti,V,Fe ,AI)12
(As ,Sbh 0 23(OH)
CusSnMoS s
AgPblOBi5S1S
Ag2(Fe,Zn)SnS4
HARADAITE
HARDYSTONITE
HAUCHECORNITE
HEDENBERGITE
HELIOPHYLLITE
HEMATOPHANITE
HEMLOITE
HEMUSITE
HEYROVSKYITE
HOCARTITE
Mon.
C2Ic
Olth.
?
Ca,o'Feu
{100} [S121061""
Pbs,UJA52,UJ
1I0MClloIl(a2,Ol )1
Ag2(Fe ,Zn)'SnlS4]
CUe Sn Mo [Ssl C
lSubs.d.Sohaleritel
Pb 10UAgl_"JB~U
(Sls1 #
(As ,Sbh
hc
(023(0H) D3t
Tet.
P4/mmm
Bi~iuSbNis'" (Ssl
(",Pentlandlte)
Tet.
142m
Olth .
Cman
Cub.
Tric.
P'1
Tet.
P4/mmm
Tet.
P421m
Car{2",}[ZnSi2'071
Olth.
Amam
Olth.
Pnam
CU2 P~Bi4[Sgr
(""Aikinlte)
CU2P~Bi4Sg
HAMMARITE
Sr" "V''''''
[teo] [Sbt071
Olth.
Pbca
300[Be2BU03(OH)1
Be2B03(OH)
HAMBERGITE
SPACE
GROUP
Mon.
Cm
STRUCTURAL
FORMULA
Z=1
Z=2
Z=4
Z=4
Z=16?
a.=89.06
P=104.32"
y =84.97"
a=4.110A Z=2
b=13.600A
c=30.485A
a=5.74A Z=2
c=10 .96A
a=7.158A
b=7.552A
c=16.014A
Z=2
a=10.82A
a=9.85A P=10420'
b=9.02A Z=4
c=5.26A
a-10.823A
Z-8
b=10.783A
c=25.580A
a=3.9097A
Z=1
c=15 .2873A
c=5.402A
a=7 .300~
a=7.06A
b=14.64A
c=5 .33A
a=7.823A
c=5 .013A
b=33.45A
c=4.01A
a=11 .58~
P=100o
a=5.15A
b=8.9A
Z=2
c=7.57A
a- 9.755A Z=8
b=12.20 1A
c=4.426A
ApBqCrD.(cont.)
2oo[AI2 (OH)4
{200} [Si 2to5fl
AI 2Si20 5(OH)4
CHEMICAL
FORMULA
HALLOVSITE -7A
NAME
Table 89
...
Pb,(4b) Pb ll(8f)
Pb lll(4c) Sv(4c)
S,.,IASf'- ...
Pb'.1I(2h)
Fe,(2g)Fell(1b)O,
(4i)01l(2g)
0 Il',(2e)CI(1a)
M,.xlI(21)
A,_",(2i)O,.xx,v(2i)
Sr(4c) V(4c)
Si(8f) 0,~1(4c)
0 1l;(4b)O,V<16hl
Ca(4e)Si(4e)
Zn(2a)O,(2c)
0 1l(4e)01ll(8f)
Bi(1a)Nh(1 b)
Ni ll(8t)Sb(1 d)
S,(4m)SII(4il'
B i , ~v(4c) S ,~x(4c)
CU,_1I(4c) Pb,_
1I(4c)
Be'.1I(8c)H(8c)
B(8c)0,.,v(8c)
AI(4b)SI(4b)
O,(2a)01l_1II(4b)
EQUIVALENT
POSITIONS
STRUCTURE TYPE
CU2'Fe Sn (Soil"
STANNITE
tc
Ca'O'MgU
cx
{l Oll} [Sb 61
DIOPSIDE
(Ca,Na)r{200}
[(A1,Mg) Sbt~1
MELILITE
o
2oo[AI2 (OH)4
t0
{200} [Si 2 5fl
HALLOYSITE-7A
REFEREN CES
Can. ,Min.,1989,21,427-440 ;
H<ilzel suppl..
H<ilzel,57;RRW,265 ;Pov.,656;
Str .Tab., 691 .
1975,m,2851-2857 .
Acta Cryst .,1963,1,11441146;SR,2,171;Pov.,469;Str.
Tab .,266;Am.Min.,1965 ,50,85
-95;RRW,257.
Am .Min.,1976&1.15-20;Pov.,
254-255;SR ,!M,32;Str.Tab.,
143;Can.Mln.,1976 ,H,536539
Am .Min.,1975,!m,340(Abs .);
SR,32A,441-442 ;Pov .,449;
Str.Tab. 432.
H<ilzel,197;ZeitKrlst.,1969,
130,427-437;SR,ill,433;Pov
440 ;Str. Tab.,388;LF ,189.
SR ,i16,10-11;Pov.,225;Str.
Tab .,113;RRW,261;Can.Min.,
1974 12,269-274.
Str.Tab.,411;RRW,263-264;
LF,205 ;Pov.,740,409.
;SB,~,54+545;ActaCryst.,
LF,239;Str.Tab.,461;Pov. ,436
00
......
STRUCTURAL
FORMULA
HYDROZlNCrrE
HYDROXYLBASTNAsITE (Ce)
HYDROXYLBASTNAsITE (Nd)
(Nd.Ce,La)[3+61
[(OH,F)T8
(",BastnAsite)
Zn3Zn2
([OH]s {gHCtrOJlzl
Mon .
C2Im
Hex .
P'62c
(g}[C"~
(Nd,Ce,La)C0 3
(OH,F)
Zns(C03h(OH)s
Hex.
P'62c
8
[(OH,F)]
C",BastnAsite)
{9HCU~(Ce,LarUI
(Ce ,La)C03(OH,F)
Cas(P04h(OH)
HZnMn2.x04
HYDROHETAEROLITE
HYDROXYLAPATITE
Trig .
P~1l"JPbIOJ{2ClO}
[{g}[C"03b(OHh]
Mon.
P2,/a
~a[7"'1{3cx:>}[Be2 P2'Os]
Tet.
14,/amd
Hex.
P6J!m
PbJ(C03h(OHh
HYDROCERUSSITE
Trig.
R32
Trig .
R32
Orth .
Pbnm
Ca PMg3"(g}[C"0314
AI40i
Hex .
P62m...
Hex .
P6~mc...
Hex.
?
Trig.
Hex .
P63mc...
SPACE
GROUP
~g l(4c)Mg lI.IV(8d)
EQUIVALENT
POSmoNS
Z=8
Z=6
Z=2
9R=8.44A
(=3808'
ZR=1
Z=4
~=90 .5
Z=4
a-13.82A ~-9550'
b=6.30A Z=2
c=5.42A
a=7.191A
c=9.921A
a=7.23A
c=9.98A
c=6.883A
a=9 .418~
a=8.299A
b=8.782A
c=7.798A
a-5.24A
c=23.85A
Z=3
a=5.75A
c=9 .17A
Znl(2a)Zn ll(4h)
Zn Ill(41)C(41) ...
Cal(4f)Call(6h)
0 1.u(6h)01ll(12i)
(OH)(2a)P(6h)
Ca(4e) Bel.II(4e)
P1.1I(4e)01.VIII(4e)
01.y(Bd)OvI_VII(4c)
F,OH)(8d)Si l(4c)
SIIIl8dl
a=9.505A 9R=8.075A Ca(3a)Mg(9d)
c=7.821A (=102056' C1(3b)CII.y(ge)
CY(18f)
Z=3
l.R=1
a=5.72A Z=1
c=23.02A
a=5.72A
Z=?
c=27.53A
a=5.72A Z-?
c=15x4.6=69.oA
a=5.72A
Z=?
c=15x4 .8=69.oA
a=5.738A
Z=18
c=83 .36A
a=4.748A Z=4
b=10 .25A
c=20.90A
a-5.72A Z=?
c=18.3SA
ApBqCrD.( cont.)
Mn2.xZn[(04,H)t
(=HausmannitelCalP3 [012(OH)r 8
CaBe2(P04h
HURLBUTITE
HOGBOMITE-16H
HOGBOMITE-16R
HOGBOMITE-18R
HUMITE
(~~teu4"Ti03"
(Mg,Fe)'4Tlo:A!40a
HOGBOMITE- 6H
HUNTITE
(~~te2;/1l030
AI 0.1'
(Mg ,Fe)1.4Tio:A14Oa
CHEMICAL
FORMULA
HOGBOMITE- 6H
HOGBOMITE- 4H
NAME
Table 90
U03]4
Zn3Zn2
[(OH)s {g}[C"03]zl
HYDROZINCITE
CasPP3
T8
[0'2 (F,OH,CI)r
APATITE
CaPMg3"{g}[C
HUNTITE
(Mg,Fe)7"Si3
[0,2(F,OHht
HUMITE
STRUCTURE TYPE
Str.Tab.,180;Pov.,741;Hlllzel ,
61 'LF 121.
Wyckoff~,228-229;LF,165;
Am .Min.,1989,:M,87Q-878;
Str.Tab.,326.
Am.M in.,1965,.Q,805(Abs.);
Pov .,613-614;Str.Tab.,243;
Hlllzel,101.
Am.Min.,1988,73 ,440(Abs.).
Min.Mag.,1985,49,717-720;
HIllzel,1 01;Pov.,613-814..
Pov.,624;str.Tab.,243;Hlilzel,
103.
Mln.Mag .,1963,,563580;RRW,276.
LF , 1 25;Wyckoff,~ , 175-178;
Am.Min .,1971 ,~ , 1 1 55-1 1 73 ;
Pov .,391;str.Tab.,376;SR,
3[A,335.
ActaCryst.,1962,15 ,238-242.
SR,27,561-562;Am.Min .,1986,
l1,163-166;Pov.,612;Str.Tab.,
238;
Am .Min., 1974,59,1267-1271 ;
Pov.,529;str.Tab.,307 .
M in.Mag. ,1963,~,563-580 .
Min.Mag. ,1963,~,563-580.
Min .Mag.,1963,33,563-580;
Pov.,281 J282;Str.Tab.,187;
RRW276.
Mln.Mag .1963,~,563-580 ;
RRW,276Pov.281 .
Mln.Mag.,1963,33,563-580.
REFERENCES
......
\0
Al e(B0 3l5(F,OHh
Mng(Si04l4(0H) 2
(Na,Ca ,Fe)
(Sc ,Mg ,Fe)SI20 e
JERRYGIBBSITE
JERVISITE
JASKOLSKIITE
JEREMEJEVITE
Mn~04(OH)e
JAROSEWICHITE
Pb 4FeSbeS14
JAMESONITE
JEFFREYITE
CaeSI207(0H) e
JAFFEITE
If l(Sb,B
Mon.
C2Ic
(Na ,Ca,Fe)IOJ
(Sc ,Mg,Fet
f1oolrS j,10~lClC
Hex .
P6J!m
Orth.
Pbnm...
Orth.
C2221
i)1.8 Orth.
Pbnm
Orth.
C222...
Mon.
P21/a
p!
101SlF ,OHhO?1
MnguSi410 1e(OHhl n
AIe~u
(Ca,Nah iOI
{200}[ (Be,AliSbt
(O,OHhl
[S141#
Trig .
Mon .
C2Ic
Na,oJ(A1,Fe)"
(l oo}[Sl2tOslClC
Na(AI ,Fe)Si20 e
(Cu,Feh'~JPlhl"oJ
JADEITE
Orth .
Pnnm
(Sb,Bi)1g15l8)[S571 #
(Cu,FehPlh7
(Sb ,Bi)19S57
1Z0KLAKEITE
Hex.
P3m...
Ca3MnSb4014
INGERSONITE
Hex.
P6/mcc
Palm ...
Hex .
?
?
SPACE
GROUP
Z=2
Z=?
(Mg ,Fe)(4c)
(AI,SiM8f)
(AI,SQII(121)
0 ,(24m)0,,(121)
EQUIVALENT
POSITIONS
a=8.5S6A
Z=2
c=8 .175A
a=4.85A
Z=4
b=10.70A
c=28 .17A
a=9.853A/l=100037'
b=9.042A Z=4
c=5 .312A
(Na,Ca,Fe)(4e)
(Sc,Mg,Fe)(4e)
SI(8f)0 1.1II(81)
AI(12Q F(6h)
Ou,(12i)0,"(6h)..
M1xx1v(4g)
a=34.221~
Z=2
SI(2a)
.
b=37 .933A
c=4.063A
SII.xxlx(4g)
a=9.4 18Ap=10758' Na(4e) AI(4e)
Si(8f) 01.11I(8f)
b=8.562A Z=4
c=5.219A
a=10.026A Z=2
c=7.482A
a=15.57A ~=9148' Fe(2a)Sb'.1II(4e)
Pb l . II(4e)SI.vu(4e)
b=18 .98A Z=2
c=4.03A
a=6.S6A
Z=8
b=25.20A
c=10 .00A
a=11.321A Z=4
(Pb,Sb,Bi)I.III(4c)
Cu(4c) (oec.v.)
b=19 .829A
Si ,.~(4c)
c=4 .088A
a=14 .90A Z=64
b=14 .90A
c=40.41A
a=7.287A Z=3
c=17.679A
a=7.03A .
c=16.44A
a=9.800A
c=9.345A
b=5.1A
c=8.4A
UNIT CELL
DIMENSIONS
ApBqCrD.(cont.)
(Ca 3,M,&""Sbr
[014021
lSubs.d.Pvrochlore)
Mg2AI4Si50 1S
INDIALITE
U
Mg2
{3Xl}[AbtAltSisI01S1
(Subs.deriv .Beryl)
CU3Pb(lr,Pt)sSl e
INAGLYITE
STRUCTURAL
FORMULA
AhSi03(OH)4
CHEMICAL
FORMULA
IMOGOLITE
NAME
Table 91
{l oo} lSi2tear'
DIOPSIDE
Ca,oJMgU
Dist .deriv .
(Ca,Nah[ S)
(200}[(AI,M9isbte 71
MELILI TE
Ca'U'Mg U
ClC
(l oo}[Si2tOeI
DIOPSIDE
(Ca3,M,&""Sbr
[014 021
INGERSONITE
STRUCTURE TYPE
REFERENCES
Am .Min.,1982,67,599-603;
Acta Cryst.,1973 ,~,2615
2616' Holzel213.
Zelt.Krist.,1983,165 ,255-260 ;
Pov . 466str.Tab. 250.
Am .Min.,1984,69 ,S46-552;
H(jlzel,189.
Zelt.Krist.,1985,1I1,179-194;
H(jlzel,45.
Pov .,410.
Am .Mln.,1989,B,1203-1206 ;
H(jlzel suool..
SR ,~,346-34 7;Pov.,251-252;
Str.Tab.,148;HCllzel,43;RRW,
308-309 .
Am .Min.,1982,1,1043-1047 ;
H(jlze l,151.
Am .Min.,1987,72,821-831;
Can.Min. ,1966,~,1 5;Am.Min.
,1987,Z2,821831H(jlzel 48.
Am .Mln.,1996,51 ,956-
Am .Min.,1988,ll,405-412;
LF,140;H(jjzel,66.
Min.Mag .,1987,51,327;Am.
Mln. ,196IJ ,~,50-71 ;Str.Tab.,
537'H Cllzel 233.
Am.Min.,1986,l1,228(Abs .);
HCllzel28.
SR,43A,315;Pov.,376;Str.
Tab.,406;LF,274;Holzel,207;
RRW,30Q-301.
CaAIB3~
CaMnSi 20 li
Cas(As04h(OH)
C U2Pb:lBis(S,Se)1s
KHC03
KAlSi04
K 2Sr(S04h
KAISI04
(Mn,AI)(AI,Mn)
CaTi 204(OHh
(Mn,Mg,Alh
(SI,AlhOs(OH)4
JOHACHIDOLITE
JOHANNSENITE
JOHNBAUMITE
JUNOITE
KALiCINITE
KALiOPHILITE
KALiSTRONTITE
KALSILITE
KANONAITE
KAOLINITE
KASSITE
KELLYITE
sio,
(Mg,Fe)sSis0 16
(OHh
CHEMICAL
FORMULA
JIMTHOMPSONITE
NAME
Table 92
Orth.
Ammm
Ca"T12U[04(OH)21
Hex.
P63
Trie.
P'1
2oo[AI 2O(OHl4{200}
lSi210sl"l
Si~OsOI 21by
Orth .
Pnnm
Trig.
R'3'm1
Hex.
P6 3
Hex.
P6)22
(Mn,A1t~AI,Mn)Lal
(OlAphthitalite)
KID!
(300}[SiIAIJoP J.ch'l h
(lnser.d.Tridvmite)
Sr'~IS2 (OsK2
1'"'.,
KID!
{300}[AIISiI04[2JcCh,t
P2,/a
Mon .
K'D'H{g}[C"031
CU~PbuBbUp~I"DI
Hex.
P6J!m...
Mon .
C2Im
Mon .
C2Ie
Orth.
Cmma
Orth .
Pbca
SPACE
GROUP
calAS)t(012(OH)]"rs
Ca'DIMnu
{l oo}[S12tosl cX
(Mg,Fe)s(OHh
{loo}[Sls0 1S1
STRUCTURAL
FORMULA
a-5.438A
c=14.04A
Z-2
Z=4
Z=2
a=7.959A
b=8.047A
c=5.616A
Z=3
a-5.45~
c=20 .7A
a=5.16A
c=8.69A
a-18.6263A Z=8
b=27.2303A
c=5.2970A
a=7.970A Z=4
b=11.722A
e=4.374A
a=9.978A 13=10529'
b=9.156A
Z=4
c=5.293A
a=9.70A
Z-2
e=6.93A
a=26.66A 13=127.20
b=4.06A
Z=2
e=17.03A
a=15.1725Af3=104.63"
b=5.6283A Z=4
e=3.7110A
a=27.06A
Z=54
e=8.61A
ApBqCrO.( cont.)
~6]{300}[SitAIJo4[21.ch 'lh
AluAlIDJSi10s0r"
ANDALUSITE
"1
KI5J{300}(SilAltOPJ'ch'lh
KALSILITE
KALSILITE
Dist .deriv .
Ca'DJMgU
lO cx
(l oo}[Si 2 sl
DIOPSIDE
CasPP3 [OdF,OH,CI)]"
APATITE
STRUCTURE TYPE
0,~(8h)
Ah.II(2a)
200[ AI2o(OH)4
Si l_II(2a) OIv(2a) {200} (Si 2tOslc1
KAOLINITE
SI(4g)~_1II(4g)
(Mn ,AI)(4e)
(AI,Mn)(4g)
Si(2b)~_1I(6e)
K(2a)AI(2b)
K(4e) H(4e)
C(4e) 01 ~ 1I(4e)
...
Cu(4i) Pb(2a)
Pb(4i) B ~M4i)
Ca(4e)Mn(4e)
Si(8f) 01~1I(8f)
(Mg,Fe)I_Iv(8e)
Si l_Vl(8e) ...
EQUIVALENT
POSITIONS
REFERENCES
Mln .Mag.1961,~,902-907;
Wyekoff,~,371-373 ;LF ,236;
Pov.,583-584;Str.Tab.,273.
Min .Mag., 1965,~,588-595 ;
Wyekoff,~,169-170;LF ,260;
Pov.,245.
SR,~,44;HOIzel,40.
Am.Min .,1980,~,1143-
Am .Min.,1967,52,709-720;
SR,~,457;Pov .,409;Str .
Tab.,411 ;RRW,312 .
Am .Mln . ,1978,~,100o-
N
.....
Tric .
P'1...
Hex.
Ca3(Zr,Tih
(Si,AI ,FehO'2
Pb,oBbAs3S,g
CaFeSI0 4
Mg 3Cr2(Si0 4h
(Cu,FehPb,2
(Bi,Sb)'4S35
Na3(S04)F
(Cu,CohC03(OHh
CU3Pb(Rh,Pt,lr)a
S16
NaCrSb06
KIMZEYITE
KIRKIITE
KIRSCHSTEINITE
KNORRINGITE
KOBELLITE
KOGARKOITE
KOLWEZITE
KONDERITE
KOSMOCHLOR
Palm...
P2,/m
Mon.
Orth.
Pnnm
la~
Cub.
Olth.
Pbnm
P6322
Hex.
Cub.
?
Cub.
I a'!d
Mon.
B2Im
Hex .
P6Jmc
(Cu,FehPb,2"'J
(Bi,Sb),i6ltS:!5! #
(",Tintlnalte)
Na2" Na'o,S[04F]
CaoFeoSil041"
(Subs.der.Forsterite)
Mg3uUCrtSi3[0,21*
CusWSn [Sal"
(Subs .d.SPhalerite)
Ca3""(Zr,Tiho
t
(Si,AI,Feh [0,21*
CusWSnSs
KIDDCREEKITE
KHIBINSKITE
(Na,Cah
(Ba,Sr,Ce,Cah
(C03)5
K2ZrS i20 7
14
Tet.
KHANNESHITE
CU2(Zn,Fe)SnS4
Mon .
C2Im...
SPACE
GROUP
KESTERITE
FORMULA
STRUCTURAL
Mg:leS b:\02S(CI,Br)9
CHEMICAL
FORMULA
b=34 .104A
c=4.038A
a=18 .074A
b=6.958A
c=11.443A
a=9.50A
b=12 .15A
c=3 .189A
Z=4
a=7.024A
c=16 .48A
a=9 .560A
b=8.746A
c=5.270A
a=22 .575~
a=4.886A
b=11 .146A
C"'6.434A
a=11 .65A
a=8.69A
c=26.06A
a=12 .365A
a=19.188A
b=14.072A
c=11.075A
a=10.856A
a=10.65A
c=6.58A
Mg(4a) Ca(4c)
Si(4c) 01~1(4c)
OUI(8d)
Ca(24c)0(96h)
(Zr,Ti)(16a)
(Si AI Fe)(24d)
CUI(2a)CulI(2c)
Sn(2b)S(Sg)
(Zn,Fe)(2d)
EQUIVALENT
POSIT1ONS
13=107.38
Z=4
Z=?
a=9 .032"
13=90.74
y=91.47
13=10771' Nal(2b)Nall(2a)
Nalll-YII(2e) ...
Z=12
Z=2
Z-8
Z-4
Z=2
Z=8
Z=4
13=1174'
Z=16
Z-2
a=23.50A
13-97.01
b=13 .62A
Z=2
c=10 .31A
a=5.427A
Z=2
c=10 .871A
ApBqCrO.(cont.)
KELYANITE
NAME
Table 93
Ca'D'MgU
{1oo} [Si2toa!""
DIOPSIOE
Ca3""AI2Sh[0'2!*
GROSSULAR
u uS!J041"
Ca Mg
MONTICELLITE
Ca3 AI2Sh[O'2!*
GROSSULAR
Oist.deriv .
CU2tFetsnl[S4!C
STANNITE
STRUCTURE TYPE
REFERENCES
Am .Min.,1986,71,229(Abs.) ;
HOlzel28.
Am .Mln., 1965,~,2096(Abs.) ;
LF,205;Str.Tab. ,412;HOIzel,
213 .
Min.Mag .,1980,g,753-759 ;
Am .Min.,1973,58 ,116-127 ;
SR,~,347.
Am .Min.,1980,Z,1067(Abs.);
HOlzel,100.
Str.Tab.,369;Pov. 744;LF,148.
SR,37A,35;KlS,176-177;Str.
Tab ., 150;Pov .,252.
Am.Min.,1968,~,1833-1840;
Garcia Olta,Ser.Geol.,1986,
941 -53' HOIze121 .
Am .Min. ,1980 ,~ , 186-191;
SR,~,387-388; Pov.,382;
Str.Tab. 370.
Am.Min.,1986,71,1278-1279
(Abs.);HOIzel,42;BuII.Min.,
1985.108.667-677.
RRW,325;Min .,Mag .,1983,lm,
1089-1094;Pov .,385;8tr.Tab. ,
366'H<Slzel 185SR30A ,424.
Mln.Abs .,78-2696;HOlzel,198.
Am. Min.,1983,,1249(Abs.);
HOlzel,98.
323;Str.Tab.,115-116.
Am.Min.,1983,68,1248-1249
(Abs.) ; H61zel ,55.
N
N
CuPbBhSe
CHEMICAl
FORMULA
Mon.
Aa
AgHgAsS3
P~0(S04)
(Mn ,Ca)s
(Mn,Fe,SbhSi0 11
K2Mg2(S04h
CuNiSbS 3
ZnPbSi04
Feg(P04)4(OH)12
LAFFITTITE
LANARKITE
LANGBANITE
LANGBEINITE
LAPIEITE
LARSENITE
LAUBMANNITE
Orth .
P21212 1
onn.
Cu'l/Q'Ni1ll"'StJI'Yl53] "
(=MOckeite)
3oO[Zn'si PttOY104]
Feg 4[016(0H)12]
UP
Cub .
P2 13
K'''''u,
{300HM9253'012]
Olth.
Pbma
Pna2 1
Trig .
P31m
(Mn,Ca)sU
I
(Mn,Fe,Sb)i8l3n1Si
[011f'
AgHgAs[S3]"
Mon .
C2Im
Cub.
P23 ...
HgaAS20 9CI2
Trig .
R3
KUZNETSOVITE
{gHC '03.h12c
Ca(Mg ,Mn,Fe)
(C03h
KUTNOHORITE
caap~Mg,Mn ,Fe)ap
Olth.
P2,212...
Ca(Mg,Mn,Fe)~
KURCHATOVITE
05
Olth.
(7)
Orth.
Pbna
(Fe,MnhoP2
[Oa(OH,H20h]
PbMnTe06
Orth.
Pmc2,
SPACE
GROUP
Cu PtY'Bh"'[Se]"
STRUCTURAL
FORMULA
...
Pb(2b)(occ.v.)
Fel(4a)Fell(Bd)
P(8d)0,(4c)...
Bil~,(2a)Billl(2b)
Cu,(2a)CulI(2b)
EQUIVAlENT
POSITIONS
Z=4
a=7.422A Z=4
b=12 .508A
c=4.90oA
a=8.244A Z=8
b=18 .963A
c=5.06A
a=13 .95A
Z=4
b=30 .77A
c=5.16A
a-9.920A
Zn'_1I(4a)
Sil-ll(4a)
Pb l_II(4a)...
Mg1.1I(4a)
Kt.II(4a)S(12b)
0,~V<12b)
aR=6.12A
<1=4638'
z..=1
Mg(12j) As(4e)
Z=2
CI(4e) O,(4e)
01l(12j)
~=115.16 Ag(4a)Hg(4a)
a=7 .732A
As(4a) S'_1II(4a)
b=11.285A Z=4
c=6.643A
a=13.769A ~=11556' Pb'_1I(4i) S(41)
O,~,(4i) 01ll(8j)
b=5.698A
Z=4
OM4g)
c=7.079A
a-11.563A Z=6
Si,(1a) Siu(2b)
Si lll(3c) Sb(3c)
c=11 .10oA
Z-4
Z=7
Z=4
a-9.404~
b=9.973A
c=8.536A
a-5.1A
b=8.9A
c=5.3A
a=11.15A
b=36 .4A
c=5 .55A
a=4.88A
c=16.37A
Z=3
a=8.4013A
Z=2
a=4.003A
b=11 .20oA
c=11 .560A
ApBqCrD.(cont.)
KURANAKHITE
KRUPKAITE
NAME
Table 94
Ca""(Mg,Fe)""{g}
[CII03h12c
DOLOMITE
STRUCTURE TYPE
REFERENCES
Am.Min.,1975,Q,3OQ.308;
Am.Min.,1975,60,737(Abs.);
H()lzel 213SR.42A 46-47 .
v.>
K(AISivOe
Mnr(SI04)a(OHh
Li28eSi04
LEUCITE
LEUCOPHOENICITE
L1BERITE
CU2P04(OH)
CUa(Mo04h(OHh
CUaPba8lrS15
Li(Mn,Fe)P04
MQaSI205(OH)4
MgaSiP5(OH)4
(Mn,Znh(COah
(OH)10
(Na,Ca)a(Zr,Ti)Sie
(O,OH),e
CU5(P04h(OH)4
LIBETHENITE
L1NDGRENITE
LINDSTROMITE
LITHIOPHILITE
LIZARDITE - 1T
LIZARDITE - 2H,
LOSEYITE
LOVOZERITE
LUDJIBAITE
(Na,Ca)aI,"OI
{300}[Zr,TitSi e!
io OH)la)
2oo[ Mgao(OH)4
{~}rsbt0511
Mn 4Zna (OH),o
tr0312
{g}[C
200{ M9aO(OH)4
{200}[Sht05))
Li"(Mn ,Fe)Up[04]"
Li 2 8e SI (0 4)"
(Subs,deriv .Wurtzitel
CUUCu,U,p
[04(OH)D)R2' by
iSubs.d.Andalusite)
CUaUMo2[Oa(OH)2)
Kl"""J{300}[AJ Si2Oe)
(..Nepheline)
MnrSia[O,2(OHh)"
Tric.
P'1
Trig .
R3m...
Mon.
A21a
P6acm
Hex.
Trig.
P31m
Orth.
Pmnb
Orth.
P2,am
P2,/n
Mon.
Orth.
Pnnm
Mon.
Pn
P2,/a
Mon.
141/a
Tet.
Tric .
P1...
(N H4Mg}[~ OaH)
(NH4)aH(S04h
SPACE
GROUP
LETOVICITE
STRUCTURAL
FORMULA
Tric .
P1,. .
CHEMICAL
FORMULA
a=18.45A a.=900
b=11 .68A
~=90
c=70.16A y=91.01
Z=30
a=5.87A
a.=101.1
b=10 .17A
~=111 .1
c=8.27A
y=89.S"
Z=2
a=13 .09A
Z=16
c=13 .75A
a=10 .842A ~=103 .93
b=4.826A
Z=2
c=11 .324A
a=4.68A
~=9O"20'
b=4.95A
Z=2
c=6.13A
a=8 .076A Z=4
b=8.407A
c=5.898A
a=5.61A
~=98"23'
b=14.03A Z=2
c=5.40A
a=11.57A Z=4
b=56.07A
c=4.01A
Z=4
a=6.05A
b=10.32A
c=4 .71A
a=5.325A
c=7.259A
Z=1
a=5.318A Z=2
c=14 .541A
a=16.40sA ~=95.4So
b=5.540A Z=4
c=15 .150A
a=10 .1SA a~7.32A
c=13 .10A a.=Sso4'
Z=3
lR=1
a=4.446A
a.=103.9
b=5.871A
~=90.3
c=8.680A Z=""=93.2"
ApBqC,D.(cont.)
NAME
Table 95
STRUCTURE TYPE
REfERENCES
Mnl.II(Sf)Znl(Sf)
Znll(4b)C(8f)...
0I(4b)OI~III(6c),..
Si(4b) Mg(6c)
0I(2b)01l~II(6c) ...
Li(4a) P(4c)
(Mn,Fe)(4c)
01.II(4c)0Ill(Sd)
Si(2b) Mg(3c)
UMgUSi'[041"
Ca
MONTICELLITE
HOlzel,150.
Am .Min.,1988,~,1495(Abs .);
n.
Am.Min. ,1976,.1,15-20;
Holzel,40;Pov. ,254-255 ;Sov .
Phvs.Crvst'.,1976.20 634-636 ,
Acta Cryst.1960,13,325-332;
RRW,360;HOIzel,142;str.Tab.
308Pov. 746;1<18 126-127.
Am .Min.,1987 ,:U,943-948;LF,
234;Pov.4~1 ;Am.Mln.,1994 ,
79 1194-119S.
Am.Min.,1987,:U,943-94S;
Enc .Min.Nam.,1
Acta Cryst. ,19S1,m.13231328;RRW.365;Pov.,616;Str.
Tab .241;HOIzel,100.
Am.Min.1974,~,633(Abs.) ;
Holzel,20S;Pov.,367;Sov.
Phys.Cryst.,1960,186-198.
Am .Min.,1988 ,73,1426-1433;
RRW,351 ;Holzel,42;Pov.,263;
Str.Tab.,144;Enc.Min.Nam.,
172.
J.Appl.Cryst. ,1984,11,331-333;
RRW,353;Str.Tab .,272;
Holzel,120;Zeit.Krist.,1998,
213,141-150,
Am .Mln.,1976,61,108-115;
K(16f)01.vl(16f) KI5 ' 5'{300}[AI Si2'Oe)
LF ,279;Pov.,346.Str.Tab .,471.
(AI,Si)I.III(16f)
LEUCITE
Mnl(2a)
Mnr SI~'!.012(OHh)" Am .Min.,1970,55,1146-1166;
SR.~,466-467;Pov.,391 ;
Mnll.N(4e)
LEUCOPHOENISil~I(4e)01.vlI(4e) CITE
HOlzeI189;RRW,354.
Si(2a)8e(2a)
Li<Be Sf[04]"
SR ,llA,230;Pov.,358;HOIzel,
L18ERITE
L11~I(2a)
185.
OI.N(2a)
CUI(4e)CulI(4g) ZnUZn1U1As'
SR,!M,309-31 0 ;SR,~,251 ;
[04(OH)O)R21 by
Pov.,540;str.Tab.,317;LF,144.
P(4g)OI~II(4g)
01\l(8h)
ADAMITE
CUI(2a)CulI(4g)
SR,21,249-251 ;Pov .,571 ;str.
Mo(4g)OI.v{4g)
Tab.,302;SR,ti,453.
EQUIVALENT
POSITIONS
CU3Fe4(V04)e
FeTe205(OH)
LVONSITE
MACAULAVITE
MACKAVITE
MAGNESIO-ANTHOPHVLLITE
Tet.
14,/aOO
Mon.
A21a
Trig.
Mn3u~
CaSnSi05
Mn3As20 4(OH)4
MALAVAITE
MANGANARSITE
(Ca,Nahuu(Mn,MghO Cub.
I[Ot
I a3<:l
AS3
2]
Orth .
Pbnm
Cub .
P213
(Mn,MghUSh'
h
[O'2(OH)21
Mn2 ~ [012K2)
MANGANOLANG K2Mn2(S04h
BEINITE
P~1m ...
MANGANBERZE- (Ca,Nah(Mn,Mgh
UITE
(As0 4h
[04(OH)4]
OiIT. j
Mon .
P2,/a
{g}[C
CU2U~[OH12
CU2C03(OHh
MALACHITE
Cub.
la3<:l
MQ3uu(Fe,AI,SI)2uSi3
[0 12).
Mg3(Fe,AI,SI)2
(S104h
MAJORITE
Cub.
I a3<:l
Mon .
12la
Mon.
C2Im
Mn~S309(OH,CI)
(Mg,Fe)r(Mg,Fe)5
(OHh
(1001lSi.10??1 2.cx
(Mg,Fe,Mnhup
[04(F,OH)
Mon .
{:zoo}[(Fe,Alh405i4
0 43(OH)21
cu
(024)
Orth .
Pmcn
SPACE
GROUP
4"Ve'
STRUCTURAL
FORMULA
uCu2""Fe
Z=16
Z=4
~ =92"
Z=2
Fe(16d)Fe(32g)
0 1.II(16t)
0 1ll_M32g)
Fe(Bd)Cul.II(4c)
V1(4c)VII(Bd).. .
EQUIVALENT
POSmONS
STRUCTURE TYPE
Z=4
~=113 .3
13=98.75
Z=4
a=4.815A Z=4
b=10.580A
c=21.448A
a=10.03A
Z=4
a=11.451A Z=4
c=7.252A
a=12.48A
Z=8
a=9.502A
b=11.974A
c=3.240A
a=7.149A
b=8.906A
c=6.667A
Ca3uoAI2USb[0,21
GROSSULAR
CU2U[ [OH) ~
{g}[CIrOil' 0)
MALACHITE
3oo[Ca PMgOp 04F]
ISOKITE
Mn,(4c)
(Mg,Fe )r"S i3
MnIlJ v(Bd)Si l(4c) [012(F,OHht
SiH(Bd).. .
HUMITE
Ca(4e)Si(4e)
Sn(4c)0,(4e)
0 1l_1II(8t)
CUI_II(4e)C(4e)
0 1_v(4e)
(MgFe)r(Mg,Fe)5
(OH,F)2
[t ee}[SieI02212.chx
ANTHOPHYLLITE
Ca210J(Mg,Fe)5
a=9.51A
13=10155' (Mg ,Fe)I(2a)
cx
(Mg,Fe)u(4g)
b=18.19A Z=2
(OHh{loo}[Sieto22
(MO,Fe)III_Iv(4h).. TREMOLITE
c=5.33A
a=12.065A 13=108
b=6.454A
Z=8
c=9.937A
a=19.680A Z=32
As(96h)
Mnl(24d)
O'J,,(96h) ...
Ca3uuAI2uSl3 [012).
a=11.524A Z=8
GROSSULAR
a::10 .296A
b=17.207A
c=4.910A
a::5 .038A
b=8.726A
c=36.342A
a=11.80A
c=15.10A
ApBqCrD.(cant)
MAGNUSSONITE
MAGNESIO
(Mg,FehSle022
-CUMMINGTONI- (OHh
TE
MAGNIOTRIPUTE (Mg ,Fe ,MnhP04
(F,OH)
CHEMICAL
FORMULA
NAME
Table 96
REFERENCES
318 .
Am.Mln .,1966,71 ,15171521' HCSlzel 91.
HCSlzel,143;KIB, 100-101;
RRW,378;Pov.,747;Am.Min
. 1968.53.316-319.
.Am .Min.,1978,63,874-877;
LF,125;Pov .,391392 ;Min.
Mao.,1978,42,133-136 .
Pov.,563;str.Tab.,271;RR
W ,379.
Am.Mln.,1979,M,390-401 ;
Str.Tab.,227;Pov .,289;SR,
145A 521
KlB ,116-118.HCllzel,148;str.
Tab .,316.
SR,m,291-292 ;Am.Mln.,
1970,55,1072(Abs.);RRW,
370Pov . 565' HOlzel 94.
Am.M in.,1978,63,10231052; HOIzel,217;LF,211.
HOlzel,190.
(Mn,FehSb(As,Si)
0 12
(Mn ,Fe)aS1s015
iOH,CI)10
Ca2PbSi309
Na4(Si,A1)12024CI
NaFeP0 4
AgPbAsSJ
P~{Si04,S04hCI
MANGANOSTIBITE
MANGANPYROSMALITE
MARGAROSANITE
MARIALITE
MARlelTE
MARRITE
MATTHEDDLEITE
MAWSONITE
141m
KHS04
{K,Nah(Fe,Mg)5
MERCALLITE
MERRIHUEITE
Sil~30
Orth.
Pn21m
Cu,OJPb'3,OJSbr,OJ[S24]
CUPb13Sbr~4
MENEGHINITE
(K,Na)l "'(K,Na)'"
l
(Fe ,Mg)2(Fe,Mgh
follSi1?'o.nl
KI"J{1oo}[HS'04]
Tet.
P-42,m
(Ca,Nah'OJ
{:zoo}[(AI,Mg)1
(Si,Alh10r)
(Ca,Nah(AI,Mg)
(Si,Alh0 7
MELILITE
Hex.
P61mcc
Orth.
Pbca
P2,/a
Mon.
Hex.
P6J/m
TetP4m2
P21/a
Mon.
(Mg,CuhC03(OHh
CUe Fe2SnlSaf
(Inser.subs.d .Sphalerite,=Chatkalite)
Ag"PblOJAsl.>l1J[S3I -
Orth.
Pmnb
Tet.
Na4l"JCI '~J
Na' 'U'FeUP'[04)
Tric .
P1
P~m1
Trig.
Orth.
Ibmm
SPACE
GROUP
(Mn,Fe)5USbOMn2
(As,Si)I[012)C
STRUCTURAL
FORMULA
Z=1
Z=4
Z=4
~=9113'
Z=4
a=10.222A Z=2
c=14.152A
a=11.363A Z=?
b=24.057A
c=24x4 .128A
a=8.429A
Z-16
b=9.807A
c=18.976A
~=93.28
a=9.398A
b=12.011A Z=4
c=3.379A
a=7.74A
Z=2
c=5.02A
a=6.861A
b=8.987A
c=5.045A
a=7.2705A
b=12.6319A
c=5.9853A
a=9.963A
c=7.484A
a=7.603A
c=5 .358A
a-8.727A Z=4
b=18.847A
c=6.062A
a=13.36A
Z=2
c=7.16A
a=6.768A 0.=110.360
b=9.575A
~=102.98
c=6.718Az=2 y=83.00
a=12.060A Z=2
c=7 .572A
ApBqCrD.(cont.)
MCGUINNESSITE
CUeFe2SnSa
CHEMICAL
FORMULA
NAME
Table 97
Kt(2a)K II(4d)
(Fe,Mg)I(4c)
CFe MollIC6fL.
01_VIII(8c)
K'.1I{8c)S'~1(8c)
(Ca,Na)(4e)
(AI,Mg)(2a)
(SI,AI)(4e)O,(2c)
01l{4e)011l(8f)
(Pb ,Sb)I_III{4c)
Pb'_1I(4c)
1I4Cu(4c)...
Sn(1 a)Cul(2g)
CUII(4i)Fel(1b)
Fell(1c)S,(4j) ...
Na{4c)Fe(4a)
P{4c)0,.,t<4c)
011l(8d)
As(4e)Pb(4e)
Ag{4e)SI_I1I(4e)
Na(8h)CI(2a)
(Si,A1)(16i)
Si(8h) ...
Pb(2i)Ca'.1I(2i)
Si l-I1I(2i)0'_lx(2l)
...
Sb(4c)As(4e)
(Mn,As,SQ(8c)
EQUNAlENT
POSITIONS
(Ca,Na)r
(:zoo}[(AI,Mg)
(Si,Al)2'o,]
MELILITE
Na4l"ICI1"J
(3X>}[{Si,AI)'21024)
MARIALITE
STRUCTURE TYPE
......
--
.... . -
393.
272;SR,~,358-359;RRW.
Tab. ,149;HOIzel,43;Can.Min.,
1978.16.393-395.
ActaCryst., 1976,~,18751879;SR,22,458-460;Pov.,
604;Str.Tab.,272;HOIzel,120;
Acta Cryst.,1975,~ ,302304.
ActaCryst. ,1972,B28,267-
SR,~,374375;Pov.,253;Str.
Str.Tab.,388.
SR,~,455-456;Pov. ,440;
Zeit .Krist.,1970,ill,314-321
Wyckoff,~ ,225-227;LF ,189;
116; Hl)Izel,20 .
Am .Mln.,1981,66,1276(Abs.) ;
HOlzel,100.
SR ,~ ,51-52;Am.Min.,1965 ,
~ ,900-908;Pov . ,231 ;Str.Tab .,
REFERENCES
N
0\
(Na,Cah-a(Si,AI)12
O,4(CI S04 CO~k,
PAS3
Pbs(As04hCI
Pbs
(012CI]"
(Fe,MghSi 4010
(OHh
CaZn(C03h
CaP~(OH)
CaMgSI 04
(Ba,Ca,Pbh
(As0 4,P04hCI
UM0 5012(OH)1O
CuNiBiS3
CU12PI>.!O'5
ret, Brlo
MICROSOMMITE
MINNESOTAITE
MINRECORDITE
MONETITE
MONTICEu.rrE
MORELANDITE
MOURITE
MUCKEITE
MURDOCHITE
MIMETITE
(Ca,NahTa20e
(O,OH ,F)
MICROLITE
SPACE
GROUP
Mon.
P2,/a
Olth.
P21212,
Cub .
Fm3m
CU,2PI>.!D3
rO,~(CI Brlo!c
Mon.
Pc?
P6~m
Hex.
Orth .
Pbnm
Trlc.
P"1
R~
Trig.
Trlc.
P"1...
Hex .
P6.22
Mon.
P2,/b
Fd~m
Cub.
Cul=INr""IBiloYI(S3) ..
(=Lapieite)
(Ba,Ca,Pb)5P(As ,Ph
TI
[O,2C1
'12
UMgUSil
0 4)"
Ca
(Subs.d,Forsterlte)
Ca'PZn""{g}(C"03'
(Fe,MghU(OH&
{200}[ SI41 0 10) h)c
(..Talc)
(Ca,Nah""Ta2'"'
(Oe(O,OH,F)D)OI
~127
r- 9Oo
=101
STRUCTURE TYPE
O",(Bd)
Si(4c)01~1(4c)
Mg(4a)Ca(4c)
Cal-ll(21)
P 1.1I(21)
01-V1II(21)...
(Ca ,Na)(16c)
Nd(16d)
(00H.F)(48f)
REFERENCES
Ca5PP3
(O'2{F,OH,CI),TI
APATITE
CaUMgUS!104) n
MONTICElllTE
Ca""Mg""
I'03 h c
'b
{g}(C
DOLOMITE
Dlst .deriv.
1
C a5PP3
(O'2{F,OH,CI),T.
APATITE
Am .Mln.,1971,,163-173;
HOlzel,141;Am.Mln.,1962,H,
1217CAbs.):Pov.573.
Acta Cryst.,1990,~,12712B;Am.Mln.1990 ,~,708
CAbs.).
Acta Cryst.,1983,~,114311146SR.19 .398Pov.29O.
604.
HOlzel,156;Enc.Mln.Nam.,
RRW ,416;Pov.,385.
SR,~,424;Str.Tab.,366;
"HOIzel,231 ;Pov.,432-433;Str.
Tab .,435;Can.Mln.,1986,2!,
479-497;Can.Mln., 1982,2Q,
579-584.
Am.Mln.,1983,~,281 (Abs.) ;
HOlzel,97.
Am.Mln.,1969,.M,933(Abs .);
Pov.,512;lF,165;HOIzel,157.
Str.Tab .,482;HOIzel,240.
Wyckoff,~,439-440;lF,140 ;
(Na,Cah=N~DJ
Tab,474 . .
Wyckoff,~,443-447;lF,268;
SR,~,373;Pov.,346 ;Str.
386; HOlzel,186.
(Oe(OH,F)D]
PYROCHlORE
POSITIONS
EQUIVALENT
&=24.443A ~10213'
b=7.182A
Z=4
c=9.901A
a=7.514A. Z=4
Cu(4a)Ni(4a)
b=12.557A
BI(4a)SI.III(4a)
c=4.B880A
a=9 .224A
Pb(4a)Cu(24d)
CIC4b)Br(4bL.
a=6.916A =96.78
b=6.619A ~=1 03.820
c=6.946A r-88.34
Z=4
a=4.822A
Z=4
b=11.10BA
c=8.382A
a=10.165JA Z=2
c=7.315A
Z=1
a=4.B183A Z=3
c=16.0295A
a=28 .0A
b=9.4A
c=9.6A
Z=3
a=22.0~A
c=5.33A
a=10.24A r-120"
b=20.4BA Z=4
c=7 .45A
a=8.643A =90.1
b=12 .929A ~=116.2O
c=7.190A r- 89.6
Z=4
a=10.402A Z=8
UNIT CELLDIMENSIONS
ApBqCrO.(cont)
KAISiPa
MICROCUNE
STRUCTURAL
FORMULA
MgUSI2
[Cal'2ICa211C10e)T312T4
Ca3Mg(SI0~2
CHEMICAL
FORMULA
MERWINITE
NAME
Table 98
N
--.J
Orth.
Bmmb
PbL01SttOI
[ [OMCI]]
PbSb~CI
NaHC03
Na2(P030H)
CuVBi20e
Na2(Ti,Fe)SI4
(OH,F)"
Na(V,Cr)ShOe
Na2T1S105
(Na,Cs)BI
(Ta,Nb,Sb)4
(O ,OH)12
NaMnP04
Cu 2eV2SnsS32
CaMneS10'2
NADORITE
NAHCOLITE
NAHPOITE
NAMIBITE
NARSARSUKITE
NATALYITE
NATISITE
NATROBISTANTITE
NATROPHIUTE
NEKRASOVITE
NELTNERITE
Ca""MneLO'SI [012[J4]....
...Braunlte)
(Na,Cs)""BI""
(Ta,Nb,Sb)i6J
Ca
[(O ,OH)'2[J2l
CSubs.d.Pvrochlore)
NauMnup[04l"
(Subs .deriv.Forsterile)
C U26 V2SnelS:!2i
Nal'l
{3CO}[(Tl,Fe)oSI41
(O,F) ,,]
Na10JH {g}[C"03l
(02,Q') r
Cub.
P43n
Tet.
14,laOO
Orth.
Pnam
Tel.
P41nmm
Cub.
Fd!m
Mon.
C2Ic
141m
Tel.
Mon.
C2Im...
Mon.
P2,lm...
Mon.
P2,ln
Mon.
CC
2co[Aho(OH)4
{2co}[ShI0!llc]
~laJAI~[6]10'2Ihhccoc
AI2SI205(OH)4
NACRITE
(M~le,zn)I"'Bel'"
(Mg ,Fe,ZnhBe
AleO'2
Tel.
14m2
Trig.
R3m
SPACE
GROUP
MUSGRAVITE
STRUCTURAL
FORMULA
K2Cu3FeS4
CHEMICAL
FORMULA
Z=4
Z=2
13=107.16
Z=4
a=9.464A. Z=8
c=18 .854A
a=10.523A Z=4
b=4.987A
c=6.312A
a=10.73A
Z=1
c=5.07A
a=19.502A
a=6 .50~
a=9.58A
b=8.72A
c=5.27A
a-5.60A
Z=4
b=5.44A
c=12.22A
a=7.53A
13=9319'
Z=4
b=9.72A
c=3.54A
a=5.47A 13=116~O'
b=6.84A
Z=2
c=5.45A
a=11.864A 13=10Q042'
b=3.696A Z=2
c=7.491A
a=10 .727A Z=4
c=7 .948A
Z= ?
a=3.88A.
e-13.10A
a=5.675AaR=14.085A
c=41.096A <1=23.24
z..=2
Z=6
a=8.909A 13=113 42'
b=5.146A Z=4
c=15.697A
ApBqC,D.(conl)
MURUNSKITE
NAME
Table 99
(Na,MnM4a)
(Na,Mn)u(4c)
PC4cL.
Na(8h)
(Ti,Fe)(4e)
SI(16QOI(8h)...
Pb(4c)Sb(4c)
CI(4c)0(8e)
(OH)I~4a)
01.v(4a)
AII~I(4a)SI.II(4a)
EQUIVALENT
POSITIONS
U M gU S ! )
.04]
Ca
MONTICELLITE
Na2,uJ
1
{3CO}[(Tl,FetSI 4
(O,F),,]
NARSARSUKITE
Dlst.deriv.
2co[ Ah\OH)4
{2co} [SI2os]" ]
KAOLINITE
Pb,01SbLOJ
[ [OMCI] ] (Q2,Ql ) r
NAOORITE
STRUCTURE TYPE
REFERENCES
134-4;LF,122;RRW,430;Pov.,
538-539.
Am .Min.,1985,ZQ,437;HOIzel,
21.
Am.Min.,1983,9,282(Abs.);L
F 141' HOlze/ 190.
Am.Mln .,1972~,1333-
Am .Min. ,1987,12,223-224
(Abs.);HOlzel,213.
SR,2Z,699-700;SR,2!,495496;Am.Mln.,1962,47,539556;RRW,427;Pov.,366-367
Am.MIn.,1982.l,857(Abs.) ;
HOIzel,68.
Am .Min.,1982,~.856859
{Abs.);KlB,159;HOIzel,145.
SR,l1,311;Pov.,655-656;Str.
Tab.,169;RRW,425Wells,196
2 674 'LF 159.
Pov.,621-622;RRW,426;Str.
Tab .,235;HOIzel,96.
425;Pov.,431;Am.Min.,1963,
~, 1196-1209;LF,236.
SR,~,368,~,370;RRW,
Am .Min .,1982,67,624(Abs.).
HOlze11S.
HOlzel,62;Mln.Abs.,85MI0172
;Am.Mln .,1984,i,215(Abs.);
Mln.Mao. 1967.36.305-310.
N
00
(Cu,AghPlqBieS17
NEYITE
CUe Zn3As4'''''J[S'2D)
(Defed subs. deriv.
Sphalerite)
Ni2
[[OHMg}[Clr03)oT'']
(",Malachite)
CueZn~S12
NbCOJ(OHh
Na2Ca(C03h
(Fe,Mg,AIh4(Si,AQ
05(OH)4
(Fe.Mg,AQ24(S1,AQ
NOWACKIITE
NULLAGINfTE
NYEREREfTE
ODINITE -1M
ODINfTE -1T
O~(OHl,
(Tat. ?)
Hex. ?
Mon.
Cm
Orth .
Cmc21
Mon.
P21/m...
Trig.
R!
Trig .
R32 ...
Ba"l'Mg""
{g}[Clr03.h'] 2c
BaMg(COJh
NORSETHfTE
[S.Se)14
Mon.
P2 1/m
CuPb:lBI7(S,Se)14
NORDSTROMfTE
CUlflp~' JBliOlI J
CaSn(BOJh
NORDENSKIOL
DINE
Trig .
R!
Orth .
Pbnm
Mon.
C2Im
Mon .
C2Im
o,~,,,i4cL.
Mgl(8d) SI(4c)
Mg lI(4c) O,(Bd)
(Na,K)(2a)
Na(6c) AII(2b)
AIII(6c) ..
EQUIVALENT
POSITIONS
Na'.1I(4a)Ca(4a)
O,(4a)OIl(8b)
C,.;,(4a)...
a,r6.296A Ba(3a)Mg(3b)
0.=46058' C(6c)O(18f)
Z,r1
Z=?
~=94.300
a,r6.01A
0.=47042'
ZR=1
Z=4
Z=2
~=97.100
Z=8
~=96.8
Z=4
~",93
Z=8
Z=4
b=8.809A
c=12.743A
a=5.373A
~=10400 '
b=9.326A Z=?
c=7.363A
a=5 .366A Z=?
c=7 .161A
a=5 .044~
a=13.44A
c=9.17A
Z=3
a=9.236A
b=12.001A
e-3.091A
b=10.2A
c=8.74A
a=4.66A
c=15.95A
Z=3
a=17.97A
b=4.11A
c=17.62A
a=5.017A
c=16.77A
Z=3
a=4.71~
a=5 .29A
b=9.18A
c=14.55A
a=37.5A
b=4.07A
c=41 .6A
a=5.320A
b=9.214A
c=14 .302A
Mon .
Cm
P6:l
a=10.05A
c=8 .38A
Hex.
SPACE
GROUP
ApBqCrD.( cont)
Ca""Sn....
{g}[BI'OJ.h'bC
(Subs.deriv .Calcite)
NORBERGfTE
NIMITE
NbS b05(OH)4
NEpOUfTE
(Na.K)'wo,
{3ao} [SIIAiIOpJch']h
(Inser.subs.deriv.
Trldymlte)
NI3(OH)4
I05!
{200}[SI2
STRUCTURAL
FORMULA
(Cu.AJJhPbtJBIlJ
[S17)
(RlAlklnlte)
(NI,Mg)s(SI,A1)401o [(Ni.MghO(OH)2
(OH)e
{200}[(SI,AI)40010r
{200}[(NI.Mgho
(OH)Rl
Mg 3(SI04)(F.OHh
Mg3USil04(F,OHM'
(Na.K)AISI04
CHEMICAL
FORMULA
NEPHELINE
NAME
Table 100
STRUCTURE TYPE
Dist .deriv .
Ca8PMgBP
{g}[Ct'OJ.h']2C
DOLOMITE
CUe Zn3 As.'~"J
[S'2 D
NOWACKIITE
Ca"'g"l'
{g}[C lr03.h']2e
DOLOMITE
Mg3Si O4(F.OHhl"
NORBERGITE
Mga(OH)e
10,ol
{200}[SI4
ANTIGORITE
(Na.K)'....'
{3ao}[SIIAl'o4[2J'ch']h
NEPHELINE
REFERENCES
Am .Min.,1990.ll.432-433
(Abs.).
Am .Min .1980,~,789-796 ;
HOIzel,40;Mln.Abs.,81/830.
Wyckoff.~,175-177;LF, 123;
Am .Min.,1960.M,376-390;
Pov . 391-392Str.Tab. 375.
Pov .,465-466 ;LF,174 ;Str.Tab.,
251.
RRW,434;Pov.254-255;
HOlzel,40;Can .Mln.,1969.,tg.
90-96 .
Am.Mln. , 1970 ,~, 18-30;RRW,
438-437;LF,234;HOlzel.233; .
Pov .444.
RRW,433;Pov.,345-346 ;
HOlzel,238;Bull.Min.,1984,1QZ
499-507 .
Pov. ,431-432 ;HOIzel,235;
RRW,433;LF,240.
Wyckoff,~,453-454;LF ,261;
IV
\0
K'~I
(Ca,Na)(Mg ,Fe,A1)
Shos
UTI2Os(OH)
Mg3SI~5(OH)4
KAISi~s
(Mg ,Mn,Feh02
(B~
Ag3Pb4BI5S13
OMPHACITE
ORTHOBRANNERITE
ORTHOCHRYSOTILE
ORTHOCLASE
ORTHOPINAKIOLITE
OURAYITE
OWYHEEITE
Ba(Sn,TI)SI~9
(K,NahPb(S04h
PABSTITE
PALMIERITE
~s
2co[Mg3
(2co}[SbtO~"l
Ca3[B(0H)4MOHh
OLSHANSKYITE
Pb'~J~
[(K,Nah[8]Oell3l2T4
(",ADhthitallte?)
l
Trig.
R!m
Hex .
P'6c2
Orth .
Pnam
Ag3+.10IPblG-~J
Sbll+.[8][~s]
(",Ullianlte)
IOJ{
Ba 3CO
[(Sn.TQ {gHSI3t~D
Orth.
Bbmm...
Orth.
Pnnm
Mon.
C2Im
Orth.
?
Orth.
P2122
Mon.
C2Ic
Mon. ?
?
Mon.
P21 /n
Ag3Pb4,u'<J Bi5!S13l-
[[OMgHBtr~)...T)
u
(Mg,Mn.Feh
{~}[ShtAl'os)(2by)o
o(OH)4]
Uurb10s(OH
(Ca,Na)IOJ(Mg,Fe,AI)
{1co}[ShIOel ClC
[04(OH)D)R21 by
(Subs .d.Andalusite)
CugCul~JAs'
CU2As04(OH)
OUVENITE
Sr,Ba,Nah110Jos)
SPACE
GROUP
Z=1
EQUIVALENT
POSITIONS
a=9.66A P=106033'
b=8.82A
Z=4
c=5.23A
a=7.37A .
Z=2
b=11 .67A (after heattng
c=8 .33A
Z=4
a5.3~A
b=9.2A
c=14 .63A
a=8.561Ap=116.015
b=12.9962A Z=4
c=7 .1934A
a=18 .357A Z=16
b=12.591A
c=6 .068A
a=13 .457A Z=4
b=44 .042A
c=4.100A
a=22.82A Z=2
b=27 .20A
c=8.19A
a=6.706A Z=2
c=9 .829A
STRUCTURETYPE
Balu,
{3CO}[Ti{g}[Sb'ogD
BENITOITE
ORTHOCLASE
0,(40)011 (4 1).. .
I(I~J
DIOPSIDE
{~}[SI3tAl~)(2.by)o
K(1a)(K,Pb)
(2c)S(2c) (r.d.)
0 1(2c) 01l(6h)
REFERENCES
Can.Min.,1995,n,885-888;
Ada Cryst.,1977 ,m.26282631;LF,144;Pov.,510;HOIzel,
149.
Am..Mln.,1969.M,1737-1738
(Abs.);RRW,447;Pov.,491 ;
458;Pov.,583-584;Str.Tab.,273
Cryst .,1986,~,138-142;RRW,
Am .Mln.,1965,Q,1164-1169;
RRW.455;Pov.362-363;Str.
Tab .,402.
SR.ll,499-500;Sov.Phys.
;LF,267;
Pov .,346;Str.Tab.,474;Am.
Mln.,1973,~,500-507.
SR.~,231 ;LF,181;Pov. ,467;
HOlzel,111.
Wyckoff,~,449-451
Str.Tab.,457;HtlIzel ,234.
205;HOlzel,213;SR,m,394;
Am.Mln.,1975 60,634-641.
Am.Mln.,1979,M,658(Abs.);
HOlzel,78;Pov.,311-312.
~lzeI113.
~alJMgo{1 co}[Shosf" Pov .,409;Str.Tab.,413;LF,
[(K Nat2J(K,Na)}lJ
Os)m4
APHTHITALITE
Dlst.deriv.
ZnOZn[5JAsI
[04(0H)D]R21 by
ADAMITE
Nau~
(SI,AQ I~ I(8j)
K(41)
(Ca,Na)'.1I(2m)
(Mg,Fe,AQ'.1I
C2mUforP2In)
Sr,Ba,Na)I.1I1
1a,1b,1c) .
~a(1a) P1(1 b)
P"l1c) O'~ll3ciL.
a=8 .5894Ap=90.088 CUI-lI(4e)As(4e)
01-'/(4e)
b=8.2073A Z=4
c-5.9285A
a:a5.585A
c=7 .050A
UNIT CELL
DIMENSIONS
ApBqCrD.( cant)
Trig .
T4 P3 (or
P!m1)
STRUCTURAL
FORMULA
uP
Na 2 [(Sr,Ba,Na~J
Na(Sr,Ba)P04
CHEMICAL
FORMULA
OLGITE
NAME
Table 101
VJ
(K.Na)A1Si04
BaAhSi20a
PANUNZITE
PARACELSIAN
Na2ZrSi~7
BaCa(CO:lh
NI(OHhx
(S04. C03)O.!lx
PARAKELDYSHI-
PARALSTONITE
PARAOTWAYITE
CuPbBI 11(S,Se)1a
(Mn.A1)a(SI,A1)401o (Mn.Aih0(OH)2
OH)a
{200}(SI.A1)4to 10
{200}(Mn,A1ho(OH)a]
(...Nlmlte)
PEKOITE
PENNANTITE
Be(Fe.Zn,MghAi a
0 12
PEHRMANITE 9R
Cu Pb" 8111"
(S.8eI1a#
Ni3Si205(0H)4
Ni3U(OH)4
{200}(SI210 5l
Ba,'U'CaLOI
I'0312
{g}(C
(...Oolomite)
o(OH)4
200( Mg3
C
{200}(Si210 5l 1
(...Chrvsotile)
ZnuZn''As
(04(OH)DIR21by
Ba'DI
(3oo}(812IAI210el(by)
STRUCTURAl.
FORMULA
PECORAITE
PARSETTENSITE Mn5Sia013(OH)a
TE
Zn2As04(0H)
PARADAMITE
LE
PARACHRYSOTI Mg3Si~5(OH)4
(Na.Ca.K)
(Mg.Fe,Mn)P04
CHEMICAl.
FORMULA
PANETHITE
NAME
Table 102
Mon .
C2Im
Orth.
P2 1am
Trig .
R3"m
(Orth.)
Mon .
?
Mon.
?
Mon .
?
Trig.
P321
Tric.
P'1
Trie.
P'1
Orth.
s.g.?
Hex.
P63
Mon.
P2 1/a
Mon.
P2 1/n
SPACE
GROUP
a=7.89A
13=91.1
b=2.96A
Z=6
c=13.83A
a=39.47A p=120"48 '
b=22.78A Z=?
c=14.63A
a=5.26A
P=92
b=9.16A
Z=?
c=14.63A
a=5.70A
aR'"14.11A
c=41.16A a=23.32"
Z=9
z..=3
a=11 .472A Z=2
b=3x11.248A
c=4 .016A
a=5.43A
p=97"25'
b=9.4A
Z=4
c=28.5A
a=5.638A a=103.25
b=5.827A P=104.37
c=6.692A y=87.72
Z=2
a=5.419A a=71 .50"
b=6.607A
P=87.15
c=8.800A y=85.63
Z=2
a=8 .692A Z=3
c=6.148A
Z=2
13=90.21
Z=4
Z=32
a=20.51~A
c=8.553A
a=9.072A
b=9.588A
c=8.577A
a=5.34A
b=9.2A
c=14 .63A
P=91.1
Z=64
a=10.16A
b=14 .90A
c=25.87A
ApBqCrD.( cant)
BaLDI
STRUCTURETYPE
Ba(3e)Ca(3f)
C'.1I(2d)CIII(2e) ...
01.v(2i)
Zrl~,(21)As(2i)
Dist.deriv.
ZnOZn[5)AsI
(04(0H)DJR21by
ADAMITE
PARACELSIAN
~'~1(4e)01.V1I(4e) {300}(8i2IAl2toal(by)o
Ba(4e)S'.IMe)
EQUIVALENT
POSITIONS
Am .Min., 1976.ltl,15-20;SR,
m.3Q-31 ;KlS,62-64;Holzel,
40.
RRW,489-470;Str. Tab.452;
Pov .444;LF,234 .
Hl>lzel,230;Pov436 ;Str.Tab .
443.
Can.Mln.1987,~,409-411 ;
HOlzel,100.
1332(Abs.);Holzel,98.
SR.~,300;Am.Mln.1979,M,
Am.Mln .1979,~,656-657;
Min.Abs.88I3454 ;77/292 ;
HOlzel.98.
Am.MIn .1968.~.509(Abs.);
RRW.457;Str.Tab.309;
HOlzeI145.
Am.M1n.1988.ll.42D-421;
HOlzel238.
Am .Mln.,1985,lQ,969974;
str.Tab.481 ;Pov .344;SR,1l.
556-557.
Str.Tab.,457;LF.238.
REFERENCES
>-'
Vol
Tet.
P42...
CalO'Zno{loo}[Si2 0a]""
CaznSi~a
UFe(Nb,TahOe
P~0(Cr04)
P~C03C12
(NH 4h(P03OH)
Mg~O(OH)e
Ag2ZnSnS4
PETEDUNNITE
PET8CHECKITE
PHOENICOCHROITE
PHOSGENITE
PHOSPHAMMITE
PINNOITE
PIRQUITASITE
Orth.
C2221
Mon.
C2Ic
P~SI40e(OH)lo
~Cu4OCho
PLUMBOTSUMI-
PONOMAREVITE
TE
Cub.
Fd!m
(Pb,Y.U.C~.,,"~N~IUJ
[Oe(OH)D]
(Pb,Y,U,Cah-xN~
Tel.
142m...
Cub.
Fd!m
Tat.
P4/mbm
Mon.
C2Im
P~1m
Trig.
Mon.
C2Ic
Mon.
P2Ia
OeOH
(Ti,Nbhl
[Oe(OH,F)D]Oo
lOefect d.Pvrochlore)
(Pb,U,C~~rr
Ag2Zn'Sn' [S41"
MgU{g}[~'O(OH)e]
(..Lanar1dte)
Pbl~JPb"'O{g}[Cr04]
PLUMBOPYRoCHLORE
PLUMBOBETAFI- (Pb,U,Ca)(Ti,Nbh
TE
e(OH,F)
Mon.
P2 1/c
LiAlSI4010
Orth.
P2 1212
PETALITE
Ag4Hg5
[S4(CI,I,B"4] II
Ag 4Hg5S4(CI,I,Br).
Orth.
Bmmb
SPACE
GROUP
PERROUDITE
PblOIBIIOj
[[OblClDIC2,Ql) f
FORMULA
STRUCTURAl
PbBl02CI
CHEMICAL
FORMULA
Pbl-ll(41)
Cr(4I)OI.II(4i)
OIll(Sj)OtV<4g)
Pb(8k)C(4g)
CII(4e)CIII(4h)
O,(4Q)on(8k).
01(2b)OII(2f)
0,,;.\11(40)
SII~I(4g)
U(2e)AI(2e)
HgI(2a)HglI~II(4c)
Agl ~I(4c) ...
Pb(4c)Bi(4c)
CI(4c)0(8e)
EQUIVALENT
POSmONS
a=15.875.1. Z=10
b=9.261.1.
c=29.364.1.
a-14.73.1. ~-104 .go
b=14.86A Z-4
c=8.93.1.
a=5.766.1.. Z=2
c=10 .829.1.
a-10.33.1. Z=8
(after heating)
a=10.72.1. ~=10go41'
b=6.68.1.
Z=5
c=8.03.1.
a=7.614O.1. Z=4
Mg(4d)BI.II(4d)
c=8.1898.1.
OI(2a)OII(2b)
OIll.VlII(4d) ...
a=9.82.1.
~=105.6
b=9.00.1.
Z=4
c=5.27.1.
a=6.42A
Z=1
c=4.02.1.(after heatina)
a=14.001.1. ~-11513'
b=5.675.1. Z=4
c=7.137.1.
a=8.160A Z=4
c=8.863.1.
a=5.627.1. Z=4
b=5.575.1.
c=12.425.1.
Z=2
a=17.43~
b=12.24.1.
c=4.35.1.
a=11.754.1. ~=113.04
b=5.140.1. Z=2
c=7.630.1.
ApBqCrD.( cont.)
PERITE
NAME
Table 103
STRUCTURE TYPE
REFERENCES
SR,~,39O-391 ;Zeit.Krist.,
1982,jQ.159-170;Pov.,347348;Str.Tab.471.
Wyckoff,~ ,96-97;LF,159;Am.
Min.,1961,~. 765(Abs .);
(Na.CahUUN~UJ
[Oe(OH,F)D]
PYROCHLORE
(Abs.);HOIzel suppl ..
348-348.
Pov.,5n;Str.Tab.300;HOIzel,
'139.
SR,ill,293-294 ;Pov.,624625;str.Tab.,244 .
Am.Min .,1970,~,784-792 ;
HBlzel78.
PblOISblo,
[[OhlCID(C2,Ql) ,
NADORITE
t..l
Cub.
Fd"3"m
(Na,Cah"'N~uJ
[Oe(OH,F)D)
CU5(P04h(OH)4
(Na,CahN~Oe
PSEUDOMALA
CHITE
PYROCHLORE
Tric .
C'1
Olth.
Pbcn
AIU(OH)
(2<>o}(SI 2IOsl(2.h)c
(Fe,Mn)t(Nb,TahU
AISb05(OH)
(Fe,Mnh(Nb,Tah
W0 10
PbMn02(OH)
Ag 3PbeSb11S24
(Ag. nhPbeSbe~1
PYROPHYLLfTE
1Tc
QfTlANLINGITE
QUENSELITE
RAMDOHRITE
RAYITE
(~l
(-Andorite)
(Ag,T1)2PbeSbe
[~4t
Ag310JPbe'OJSb l11~J
lSubS.d.ScrutlnYite)
Mon .
P21/n
Mon.
Mon .
P2Ia
Mon .
C2Ic
AIU(OH)
(200}(Si 2IOsl(2h)c
AISb 05(OH)
PYROPHYLLfTE
-2M
wl'(O lOt
Cub .
I a!d
Mg3UUA12US13[012) *
MgJAb(S10 4h
PYROPE
Hex .
P6J/m
P!>.IPP3 [012Cq
P!>.I(P04hCI
PYROMORPHITE
(OH,F)
Mon .
P2 1/c
CU5uP2 [(OH)40e)"
PbeS04F 1o
PSEUDOGRANDREEFfTE
Olth.
F222
Mg3Bll015(OH)o
Trig .
R"3"m
Olth.
Pbcn
SPACE
GROUP
PREOBRAZHENSKITE
Pb
fSe,ITe ShIll
3oo(Mg30S10 Sl1015
(OH)gJ
STRUCTURAL
FORMULA
uSI2u
PbB l2Se2(Te,Sh
CHEMICAl.
FORMULA
Z=3
Ca5~P3
.T.
(Na,Cah"'N~OI
(Oe(OH,F)D)
PYROCHLORE
STRUCTURETYPE
Aol4e) ...
P~'1II(4e)
Pb(4g) OI~I(4g)
(OH)(4g)
Mnl,II(2e)
8I,)(1I(4e)
01.v(2i)OH(21)
AI(21)SI~I(21)
REFERENCES
Am.Mln. ,197S,lm,218-22S;LF,
148;Am.Mln.,1971 .,791825' Ht)lzeI186.
Wyckoff.~,365-366;LF ,226;
Pov.,432-433;Str.Tab.,435 .
Can.Mln.,1989,21,189-192;
.LF,16S;Str.Tab.,2,327.
Pov .,276;SR,m,190-191.
Wyckoff,~,439-440;LF,140;
Acta Cryst.,1963,1.124-128;
SR,2,192194;Am.Min.,1981,
,176-181;Am.Min.,1977,2 ,
10421048.
Can.Mln .,1994,~,387-396;
Am .Mln.,1970,~,10711072
Am .Mln.1978.63.1283(Abs.).
AI"(OH)
(200}(Sb'Osl(2.h)c
PYROPHILLITE - 2M
Dlst.deriv.
Am .Mln.,1972,ll.732-750;
Alo(OH)
Am.Min .,1970,~,1259-1272,
{2<>o}[Si 2105)(2 h)c
PYROPHILLITE- 2M
Am.Mln .1988,~,1497(Abs .);
IMA AbS.,1.986,261 ;HOlzel.
75.
Zelt.Krist.,1971,l.M.321-332;
Str.Tab 219;Pov.,329-330;
SR,m,268.
Am.Mln .,1984,!m,412(Abs.);
Pov.,253;Str.Tab.,145;N.Jb.
Min.Abh.1983.lli,58-79.
Am .Mln.,1984,69,211 (Abs.);
H()lzel,43.
(012(F,OH,CI))
01l1(121)CI(2a)
APATITE
uS!J[012)
Mg(24c)AI(16a) Ca3""AI2
*
SI(24d)0(96h)
GROSSULAR
P(6h)OI~ I(6h)
(Ca,Na)(16c)
Nb(16d)
(O,OHM8b)
CO OH);t(48n
Pb,(4f)Pb u(6h)
Cu,(2a)CulI(4e)
P(4e) 01-N(4e)
OH 1.1I(4e)
Mg,(4c)Mg lI(8d)
B1(4c)BII.V\(8d) ...
EQUlVAU:NT
POSrTIONS
a=91.03
P=100.37
y=S9.75
Z=2
a=23.706A
Z=4
b=5.723A
c=5 .045A
a=5.61A
P=93.0o
b=5.70A
Z=4
c=9.15A
a=19 .24A P=9028
b=13.0sA
Z=2
c=8.73A
a=13.60A
~=103.94
b=11.96A Z=4
c=24.49A
a=5 .16A
b=8.90A
c=1S.60A
a=5.161A
b=8.957A
c=9.351A
a=11.456A Z=S
a=9.9784A Z=2
c=7.3511A
a=10.397A Z=8
c=40.27A
a=16.291A Z=4
b=9.181A
c=10 .571A
a=8 .S182A. Z=4
b=19.5736A
c=8.4926A
a=4.47A
~=91"O7 '
baS.75A
Z=2
c=17.osA
a=4 .271~
ApBqCrD.( conl)
POUBAITE
NAME
Table 104
(.,.)
(.,.)
BaTI~r2016
CHEMICAL
FORMULA
Ca5(SI04h(OH,Fh
N a3
(Ca,Ce,La,Na ,Srh
(Cu.Zn)11Fe4
(Ge ,AshS16
CU2FeSn3Sa
Ca2(Fe,Mg,Ti)e
(Si,MeOw
(Mn,Mg)5( Si04h
(OHh
!<JNaFeCIe
REINHARD
BRAUNSITE
REMONDITE-(C8)
RENIERITE
RHODOSTANNI
TE
RHONITE
RIBBEITE
RINNEITE
uSI2
(Na,K)llUJ(Na,K)I.J
l
(Mg.Fe),20(Mg,Feh
0
S112
{gH
JOl
ROEDDERITE
S112~
(Na,Kh(Mg,Fe)s
(Fe,Mn)5UP3
[012(OH)5)
K:tNaUFe [CI6)
(Cu ,Zn)1/'Fe4'
(Ge,Ash [S16)e
(Subs.lnser.d.Sphalerlte AlMawsonlte)
uCU21Sa]"
Sn3"Fe
(Dist.subs.deriv.
Spinel)
CaS
h
[Oa(OH,F)21
Hex.
P61mcc
Bbmm
onn,
Trig.
R!c
Olth.
Pnma
Tric.
P'1 ...
Tet.
I 4 1/a
Tat .
P42c
Mon.
P2 1
Mon.
P2 1
Mon.
P21/a
lOj
Na
(300HSb1a'oa)(2.byjo
CUSuP2 [(OH)40a)"
Tric.
C'1
TieUCr([BaOlej ~'
(Subs .d.Hollandlte)
Z=2
c=14.275A
a=10.139~ Z=2
a=10.478A a=101"25
b=10.923A 13=96"56'
c=9 .170A
y=129"'41
Z=2
a=10.7321\ Z=4
b=15.672A
c=4.811A
a::l11.901\ aR=8.3376A
c=13 .91A
a=92.29"
L,=2
Z=6
a=13.783A
b=16 .805A
c=5.172A
Z=4
a=7.3OSI\.
c=10 .330A
a-10.129A 13=90.0S"
b=2.9SA
Z=1
c=10.135A
a=7.833A a=93"18.S'
b=12.360A 13=116"21 .1'
c--6.803A y=92"3.3'
Z=4
a=9.198A 13=92.42"
b=10 .691A Z=2
c=4.476A
a=11.458A 13=108.91
b=5 .052A
Z=2
c=8.840A
a=10.444A 13=119.86
b=6.313A Z=2
c=10.445A
a=10.62261\ Z=2
c=10 .5S06A
ApBqCrD.( cont.)
SPACE
GROUP
Mon.
121m
STRUCTURAL
FORMULA
ROCKBRIDGEITE (Fe,Mn)s(P04h
(OH)s
(C~)s
CU5(P04h(OH)4
REICHENBACHITE
REEDMERGNERI NaBSI30a
TE
REDLEDGEITE
NAME
Table 10S
ON_~II(8n
Fel(4a)Fell(8f)
Feav(16h)P1(8f)
P II(4c)O"II(Sg)
OIll(16h)
(Mn,Mg)I(4c)
(Mn ,Mg)II,III(Sd)
SIiC4c)SIII(8d)...
K(6e) Na(2a)
Fe(2b) CI(12f)
Ot.M 4i)(occ.v.)
Na(4i)Sil-lll(4i)
B(4i)
O,-vlII(4i)
(Cr,Ti),~,(4i)
Bal(2a)Ball(4g)
POSITIONS
EQUIVALENT
Na lOI
3ooHSbIAl'oa)(2bY)s
ALBITE
STRUCTURE TYPE
REFERENCES
210 .
~,949-955;RRW,523;HOIzel,
Str.Tab .,409;Am.Mln.,1966,
SR,3SA,339-340;Pov.,544.
Am .Mln.,1993,l,19Q-194;
Am .Mln .,1987 ,12,213-216;
H6IzeI189:
SR&iA,115-116;Pov.,641 ;
H()lzel,52;Str.Tab.,163;RRW,
520.
Am.Min., 1970,~,864-874;
H6Izel,218;Pov.,426.
Str.Tab.,118;LF,120,121.
2197;SR,~,Pov. ,228-229 ;
Acta Cryst.,1979,m,2195-
Am.Mln .,1990,~,433(Abs.);
(Abs.);Mln.Abs.,84M12504;LF,
124.
Am.Min.,1987,12,404-408;
H6lzel,1S0.
~,188-189.
Str.Tab.,478;Am.Mln.,1960,
Am.Min.,1965,~,182718S0 ;
LF.269;SR,~435;Pov. ,344 ;
Min.Mag.,1986,.5Q,709-71S;
Pov .,306;LF,107;Str.Tab. ,198.
w
.;:.
(Ce,La,Ndh
(Mg,Fe}(C03}4
CUI03(OH)
Ag 4MnSb:1 Sa
SAHAMAUTE-
SALESITE
SAMSONITE
Mon.
P2 1/a
Trlc.
P'1
Mon .
C2Ic
Mon.
P21/a
Mg7A1la'S13 [O~l
(Dist.d .Sapphirlne2M}
Mg7AhaSi30<IQ
CaSb 1oOloSe
Mn~s04(OH}
SAPPHIRINE -1Tc
SARABAUITE
SARKINITE
Mon.
P2 1/n
Pnma
orth .
Mg7"AI18'SiJ [O~)"
Ag 4l"''''-'Mn
tl
[Sal
oSb:1l
300[ CuO(OH}
{gHI[3nJoJlI
Trig.
P321
Mon .
P21/ a
Tat.
14mm. :.
Olth.
Pmmn
SAPPHIRINE - 2M Mg7AlleSI30<IQ
-(eel
(NH 4}Fe(S04h
SABIEITE
TIHgAsS3
ROUTHIERITE
'''''
Too .
P-1
Ca3lHOJ
{g} [Sbba(OHhl
Ca3S130a(OHh
ROSENHAHNITE
2eo[ {iHUl"l()21
{g}[C 0Jll
Mon .
P2 1/a
ROSASITE
Fd~m
Cub .
P222 ...
(Ca,Fe,Mn,Na}2~
(Ca,Fe,Mn,Nah
(Sb,T1hOe(O,OH,F} (Sb,T1h[B)
Oa
rOe(O,OH,F>Dl
(CU,ZOhC03(OHh (Cu,ZnhlI!JH12
{g} [CIrOJ)"TS,
onn.
SPACE
GROUP
ROMEITE
STRUCTURAL
FORMULA
CUa.7(Tl,Pb,K)2Sb:1
S4
CHEMICAL.
FORMULA
EQUIVALENT
POSITIONS
Z=8
Ca(4e}Sb w(8f)
SI.III(8f)01.V(8f)
(occ.v.)...
AIrv(1f)AIv(21)
AII~II(21)A1111(1e}
(Mg,Al}I.vlII(4e)
(AI,Sl)I-vl(4e)
01_xx(4e}
Cu(4a}I(4c}
01(4c}On(Bd)
(OH)(24C)H(4C)
Mn(2a}Sb(4e}
Agl.II(4e)S1I.III(4e)
U(2b}C(2a}
01(2a}On(4e}
011;(40
<1=108.84 Cal.III(2i}
~=94.84 Sh~II(21} ...
y=95.89
~=110.36
Z=4
Z=8
Z=1
Z=2
b=9.20A
c=4.29A
a=4.8221\. Z=1
c=8.1696A
a=5.894A ~=106.54
b=16 .116A Z=2
c=4.612A
a-10.7~A Z-4
b=6.708A
c=4.781A
a=10.362A ~=92"38'
b=8.101A Z=2
c=6.847A
a=11.268A ~=125.46
b=14.401A Z=2
c=9.929A
<1=107.4
a=9.97A
b=10.34A
~=95 .2"
c=8.62A
y=123.8
Z=1
a-25.37A /3=117.58
b=5.654A Z=4
c=16 .87A
a=12.779A /3-10853'
b=13.596A Z=16
c=10 .20aA
a=4.84~
a=12.873A
b=9.354A
c=3.156A
a=6.955A
b=9.484A
c=6.812A
Z=2
a=9.9771\.
c=11.290A
a=7.66A
b=3.80A
c=20.99A
a=10.28A
ApBqCrD.{ cont.)
ROHAITE
NAME
Table 106
MALACHITE
(Na,Cah""N~O'
[Oe(OH,F}0]
PYROCHLORE
CU2ullOH12
{gHClrOJlc_TS,
STRUCTURE TYPE
REFERENCES
Mln .,1988,~,1134-1137;Pov . ,
SR.!1A,336;Pov.,510-511;
Str.Tab.,316;RR\N,536.
3572;Sr,~,225-226;Am.
Mln.,1978,~, 715-719 .
H()Izel,218.
Acta Cryst .,1978 .~,3569-
286 .
Zelt .Krist.,1960,ill,91100;
Pov.,629;Str.Tab.,230 ;RR\N,
534.
Zelt .KJist.,1974 ,~,87-99 ;SR,
!OA,13-14;Acta Cryst.,1969,
m,1 004-1006;Pov. , 258.
Am.Mln .1969,~,31-49;Am .
Am .Mln . ,1978,~,172179;
Am .Min.,1986,Z1,229(Abs .);
H()Ize1120.
MlnAbs.,84M12545;RRW,531
-532;Str.Tab.,240;Pov.,611;
Holzel99.
Am .Min.,1975,W2,947(Abs.);
Am .Mln. 1990,15, 935(Abs".).
SR,.1i ,425;Pov.,622-623;Str.
Tab .,248;RRW,529.
Am .Mln.,1977,2,503-512;SR,
m ,321;Pov.,370;RR\N, 527.
Am .Mln.,1987,12,1028(Abs .);
Pov.,616;Str.Tab.,241 ;LF,184.
VI
VJ
Orth.
Pbnm
Mon.
P21/n
L1(Mn,Fe)"Pl004l"
(Subs.d .Forsterite)
Til/'<IHgl""I~I""J
(UOVT903
Ca3{Ti,Feh
{(Si,Fe)O~)3
Hg3~(S04)
Pb{As03OH)
{Fe,MghAl 4Si5 0 18
CUPbAsS3
Ca2(Mg,Al)e
(SI,AI,B)e020
Hg 4Sb03(OH)3
Cus(Si~)4(OHh
Na2Ca2(C03h
L1{Mn,Fe)P04
nHQAS:l~
SCHMITTERITE
SCHORLOMITE
SCHUETTEITE
SCHULTENITE
SEKANINAITE
SELIGMANNITE
SERENDIBITE
SHAKHOVITE
SHATTUCKITE
SHORTITE
SICKLERITE
SIMONITE
Orth .
Amm2
NalOJNallJCal'J
t703l3
(g}[C
[Sa] "
Orth .
Pcab
Mon .
1m
Tric.
P1...
Orth.
Pn2 1m
Orth .
Cccm
Mon.
P2Ia...
Cub.
I a3d
Hex.
P3121
CU4MlCu1oJ(OHh
t03l4
(1oo}[Sl
U
(Fe,Mgh
{3X>}[AI4tSlst01Sl
(Dist.subs.d.Bervl)
CuPu ....., [S31 ~
(Si,Feh101~1*
Ca3""{Ti,Fehu
Orth.
Pca2 1
Orth .
Bbmm...
Ag3P~i7-sIS1al
Ag3P~17.eS18
SCHIRMERITE
SPACE
GROUP
Trig.
P31m...
STRUCTURAL
FORMULA
SATTERLYlTE
NAME
Z=6
Z=3
a=5.827A 11=99.34
b=6.743A Z=2
c=4 .847A
a=17.186A Z=4
b=9.S27A
c=9 .29SA
a=8.076A Z-4
b=S.737A
c=7 .634A
a=10.019A <1=106.36
b=10.393A 11=96.06
c=8.630Az=2 r-124.36"
a=4.781A 11=98.86"
b=15.098A Z=2
c=5.433A
a=9.885A Z=4
b=19.832A
c=5.3825A
a=4.947A
Z=2
b=11.032A
c=7.108A
a=4.78A
Z=4
b=10 .24A
c=6.01A
a=5.948A 11=90.15"
b=11 .404A Z=4
c=15.979A
c=10.9A
a=7 .07~
a=11 .361A
c=5.041A
UNIT CELLDIMENSIONS
ApBqCrD.( cant.)
CHEMICAL
FORMULA
(Fe ,MghP04{OH)
Table 107
Ca3uuAI2USh[012l *
GROSSULAR
STRUCTURE TYPE
n(4e)Hg(4e)
AsJIII(4e)SI.V1(4e)
Nal(2a)Nall(2b)
Ca(4e)C1(4d)
CII(2b) ...
Si,~,(8c)-
CUI(4a)CII_III(SC)
OI.vlI(8c)H{Sc)
Sb(2a)Hg 1(2a)
HglI(4b) ...
OMgOSi'[
O o4l"
Ca
MONTICELLITE
Mg2
(3X>}{AI4tSlstols1
CORDIERITE
CU(4b)Pbl_II(2a) Cu Pbl"UISb'~'J[S3l ~
SbJ.II(2a)SI.U(2a) BOURNONITE
SIII.lv(4bl
...
Pb{2e) As{2f)
U{4a) Te{4a)
OI_v{4a)
EQUIVALENT
POSITIONS
REFERENCES
Zeit .Krist.,1982,161,159-166;
Am.Min.,1984,i,211 ;H/)!zel,
39.
Pov.,538-539 ;RRW,558-559;
Str.Tab.,308;Hl)Izel,142.
Am .Min.1966.51268-267.
SR,m,281 ;SR,.1.2,241-242;
Pov .613;str.Tab.,240.
Am.Mln.,1988.n,1499(Abs.) ;
Acta Cryst.,1986,~, 95-111 ;
Am .Mln.,1983,H,1041(Abs.).
Am.Min.,1977,2.491 -502 ;
Zeit.KJist.,1970,ID,397-417;
SR,2Q.3Q-32;Pov.,237-238;
Str.Tab. 143.
Min.Abs.,75/2420;Pov.,392393;str.Tab.,384;HOIzel,195.
Am.Min.,1977,2,395(Abs.);
str.Tab.,406;Pov.,757.
~,309;str.Tab.,312.
Am.Mln.,1974,.i,384{Abs.);
Pov. ,238;Am.Mln.,1979,M,24
3244{Abs.);Can .Min.,1973,11
952-957.
Acta Cryst.,1973,m,1251 1255;SR,3iA,324325;Am.Mln.,
1971.56.411-415Pov. 586.
Phys.Chem.Mln.,1986,n,198205H()Izel1S7.
Am .Min.1959 ,~.1026-1038 ;
Pov.,586;str.Tab. ,275;rNNtI,
547.
Min.Mag., 1985 ,~,6s-a9 ;Pov.,
521;Mln .Abs.,87M12149;SR,
Abs.79/4'23.
Can.M in.,197S,1,411-413 ;
Am.Min.,1979,M,65765S;Min
0'\
LIAISbOa
Ca4(Mg,Fe,Mn)~
SPODUMENE
STANFIELDITE
Mon.
C2Ic
LilOIAlo{1oo}{Sb'Osf"
(Fe.Mnt(Sn,1J)go
(Ta,Nbho[024)h
(Subs.der.Tapiollte)
CU2 Fe Sn [S4!"
(Subs.d .Sphalerite)
P4~mnm
Tet.
Orth .
1222
"42m
Tet.
Mon.
P2Ic ...
Cub.
I a'3"d
Mn3~Ab"SiJl012)
STANNOIDITE
(Fe.Mn)(Sn,Tl)g
(Ta,Nbh024
P21 Ja
Pbl"o'Cu'Bil""'S,Seb Orth.
Pn2 1m
CU2FeSnS4
STARINGITE
P21/a
MngOSI4~OIS(OH,F)2) Mon.
STANNITE
(P04)e
MnJAb(SI04h
(K,Na)~2(Ta,Nb)22
Oll)
SOSEDKOrre
SPESSARTINE
Z02(Se03)CI2
SOPHIITE
CuPbBi(S,Seh
Orth .
Mng(Si04)4(OH,Fh
SONOUTE
SOUCEKITE
Orth .
Peen
(Sr,Ca)'O'
(3co}[Si2IAl210e)(2!ly)
(Sr,Ca)A12SbOe
SLAWSONITE
Mon.
Orth.
Pnma
Mg"AI"Bl04) n
(Subs.d.Forsterite)
MgAlB04
SPACE
GROUP
Hex.
P3
SINHAUTE
STRUCTURAL
FORMULA
u(Ta,Nbhu
Z=2
Z=S
~=10031'
Z=4
~=69"40'
Z=S
Z=4
Z=1 ?
Z-S
Z=2
~=100"34'
Z=4
~=90 .33
Z=4
Z=1
a=4 .7421.
c=9.535A
Z=0.5
a=10.767A Z=2
b=5.411A
c=16 .11SA
a=9.521.
b=s.321.
c=5.25A
a=17.267A
b=10.0021.
c=22.917A
a=5 .46A
c=10.725A
a=10.151A
b=15 .224A
c=7.719A
a=17.25A
b=17 .73A
c=3 .95A
a=6.153A
b=S.49SA
c=s.osoA
a=11.621A
a=10.66A
b=4.ssA
c=14.33A
a=9.S78A
b=5.675A
c=4.32SA
a=S.SSSA
b=9.344A
c=S.326A
a=7.3SA
c=4.51A
ApBqCrD.(cant.)
Al 4
[OI3(F,OH)h
A4(Ta,Nbh013
(F,OH)
CHEMICAl.
FORMULA
SIMPSONITE
NAME
Table 10S
(Fe,ZnlJ(2a)
(Fe,Zn)u(41)
CUI(2b)Cuu(2c)
CUIII(4f)CUIv(Sk)
Sn(41)0,.IIICSk)
Fe(2a)Sn(2b)
CU(4d)S(SI)
Li(4e)AI(4e)
SI(Sf)O I.III(8t)
OI.V1;,(4e)
AII~I(4e)
SII~I(4e)
(Ta,Nb)(3d)
AI1(3d)AIII(1 a)
01~~3dl ...
AI(4a)Mg(4c)
B(4c)01.1I(4o)
OIll(Sd)
(Sr,Ca)(4e)
POSmoNS
EQUIVALENT
(Fe.Mnt(Sn,Tl)g"
(Ta,Nbho[~4t
STARINGITE
(loo}{Sbto e) ex
DIOPSIDE
CaL0'Mg~
C8JUUAI2"Sb[0,21 *
GROSSULAR
Pb,HoJCu'Bil""'[S31"
BOURNONITE
[OIS(F,OHh) h
CLiNOHUMITE
(Mg,Fe)gOS~
lO'
Ba
(3co}{SbIAl2toe)(2!ly)
PARACELSIAN
!J.
STRUCTURE TYPE
AI/(Ta,Nb)3"
[013(F,OH)h
SIMPSONITE
uMguS
04! "
Ca
MONTICELLITE
REFERENCES
116SR.~A,58-57.
Min.Mag.,1969,ll,447~54;
Am.Mln.,197M~,1446(Abs.);
Zelt.Krist.,1976,jM,145-160;
SR,m.71-72;Pov.,228-229;
Am.Min., 1969,~,1495-1496
(Abs.); Str.Tab.,116.
RRW,576;Pov.,2SS;Str.Tab.,
LF,113;Wyckoff,~,159-160:
LF,14S;RRW,572-573;Pov.,
759;Str.Tab.,369;Am.Mln.,
1971 58 791-825 'SR,3JA 334.
Wyckoff,~,295-297;LF ,205;
RRW,574-575;Pov.,41O;Str.
Tab.,414 ;SR,m,394.
RRW,575-576(Abs.);Am.
Min.,1968,Aa,50S(Abs.);76;
Str.Tab. 309' HBlze1145.
Am.Min.,1960,,209(Abs.);
HOlzel,39.
Am .Min.,19S3,9,644(Abs.);
HBlzel,79 .
LF, 126;RRW,570;Pov.,391;
Str.Tab.,376;Am .Mln.,1969;
54 1392-139S.
H()Izel suppl..
Am .Mln .,1963,~,1413(Abs.);
465Str.Tab.254.
Am.Mln., 1977,A2,31-35;SR,
ga,324;Am.M1n.,1987,12,225226(Abs.);Pov.,344-345;LF,
269.
Min.Mag.,1965,~,196-199;
SR,~,418-419;LF;122:Pov.,
SR,21,54Q.541;Pov.,275;Str.
Tab.,211 ;RRW,582;Mln.Mag.,
1963.33.458-466.
-.I
(Ag ,CuhPb1o
(Sb,As)12S29
CHEMICAL
FORMULA
CU5~(V04)2
CuZn2(As04h
Sr88011(OH)4
(Sr,Ca)5(P04hF
MnB02(OH)
BaVSi207
Ca5(As04hF
STOIBERITE
STRANSKIITE
STRONTIOBORITE
STRONTIUM-APATITE
SUSSEXITE
SUZUKIITE
SVABITE
MgB02(OH)
Mg 3BeAI8018
TAAFFEITE - 8H
NaB e4Sb07
SWEDENBORGITE
SZAlBELYlTE
SVYATOSLAVITE CaAI2Sb08
(Ce,La ,Ca)BSi05
STILLWELUTE -(Ce)
STERRYITE
NAME
Table 109
Trig.
P3 1
Cub.
Fd3m
1'
Be ""9,bgUAI7"AJ
[0 18
Sb uBe4 [ Na07) en
Ca5PAsJ [012F)
PP
(Sr,Ca) 5 3[0'2Fr
Sr"J{g}(B8011(OH)4]
Cu"Zn{x'YJ
I04h
(g}[AS
Hex.
P6Jmc
P21/a
Hex.
P63mc
Mon.
Olth .
P2 12121
Hex.
P6J!m
Amam ...
onn,
Olth.
P21/c
Hex.
P6J
Mon.
P21
Tric .
P'1
Z=3
a=8 .232A
Z=2
b=8.606A
c=4.852A
a=5.43A
Z=2
c=8.82A
a=12.577A 13=95.88"
b=10 .393A Z=8
c=3.139A
a=5.687~
Z=2
c=18.34A
Z=8
b=12.72A
c=3 .25A
a=7 .089A Z=4
b=15.261A
c=5 .364A
a=9 .75A
Z=2
c=6.92A
a=10.70~
a=8.393A ~=108.09
b=6.0652A Z=4
c=16.156A
a=5.073A a=109.85
b=6.669A 13=112.14
c=5.267A y=66.88
Z=1
a=9.909A 13=108.4
b=8.130A Z=2
c=7.623A
a=9.565~
Z=2
c=7.115A
a=6.841A
c=6 .702A
b=42.6A
c=8 .20A
a=10 .356A Z=8
Pbam
Z=4
a=28.4~
UNITCELL DIMENSIONS
onn.
SPACE
GROUP
100{CU4oCU,oOYV2'O'O] Mon.
P21/c
(Ti,Nb,Tah[6]
i08(0 OI..j)"OIClo
(Ce,La,Ca)''
{1oo}[8lsl'o5)
(Ca,Sbh~
(Ag ,CuhPbl0
(Sb,As),pnl[S29)
l / lO j
STRUCTURAL
FORMULA
ApBqCrD.( cant)
Cas"P3'
[012(F,OH,CI .To
APATITE
Dist.deriv .
Ca5PP31
[0'2(F.OH,CI).To
APATITE
[06(OH,F)D)
PYROCHLORE
(Na,cah~N~"J
STRUCTURE TYPE
REFERENCES
Am.Mln.,1991,:m,300-301
(Abs .); H6lzel suppl. ,
RRW,593;Str.Tab.,327;Pov .,
512-513;H61zel,156.
Am .Mln.,1983,~,282(Abs.) .
RRW,593;Str.Tab.256;Pov.,
474;Htilzel,114.
526.Am.Min.,1962,l,808
(Abs.);RRW,558;SR,2i,370.
Sov.Phys.Cryst.,1987,~,524-
(Abs .);SR,!16,286.
Sov.Phys.Cryst.,1976,~,563
568;Am.Mln .,1965,~, 1508
(Abs.),
324;Am .Min.,1960,~,1315,
Can.Mln.,1993,11,147-152;
Pov .,423;Sov.Phys.Cryst. ,
196712.214-220Str.Tab.382.
Acta Cryst.,1973,a2i,11381345;Am.Mln.,1979,!M,941944;Htilzel,150.
Am .Mln.,1978,H,213-215;Poy,
509;Str.Tab .,311;SR,!M,323-
149H()lzeI45.
Am.Min.,1981 ,,1278(Abs.);
HOIzel,67.
uBe".1
Na07]""
LF,133;Str.Tab.,181;RRW,594;
Sb(2b)Be,(2a)
Sb
Bell(6c)O,(2a)... SWEDEN80RGITE Pov.278-279H61zeI62.
Am.Min.,1975,Q,273-279;
Mgl.II(4e)B'~1(4e)
RRW,597;Pov.,474;Str.Tab.,
01-V1(4e)
580,255.
MlnAbs.,85M10172;POY.,281AI,(2a) AJII(2b)
AIIII.M6c) ...
282 Htilzel.62;SR,28,149-150.
(Sr,Cahl(6c)
P(6c)F(2a)
01-lvC6c)
(Sr,Ca),~,(2b)
(Ce,La,Ca)(3a)
B(3a)SI(3a)
O,.v(3a)
Cu..v<4e)
V 1.1I(4e)
01.x(4e)
EQUIVALENT
POSITIONS
00
NlgBITeSB
TELLURO-HAUCHECORNITE
TESCHEMACHERITE
iCSiO~l.COHl.l
Y3Si3010(0H)
CU3FeTI~.
CuP~lSb15~
CaTISI05
TIV03(OH)
TINTINAITE
mANITE
TIVANITE
Tl 6(Fe,Ni,Cuh5
S.",CI
THORNASITE
(Na,K)ThSI 11
CO HoO F,CI)..
THOROGUMMITE (Th ,U)
THALFENISITE
THALENITE -
Na 2B(OH)4CI
TEEPLEITE
THALCUSITE
Zn 2PO.(OH)
TARBUTTITE
(NH 4)HC03
(Na,Ca)(Mn,Mg)12
(SI,AI)12(O,OH)44
TANEYAMALITE
Mon.
C2Ic
Mon .
P21/C
Ti'V1~(OH)ln
Cub.
?
Trig.
R3m ...
Tat.
14/amd
Orth .
Pnnm
Tet.
14m2...
Mon.
P21/n
Tet.
P4/mmm
Orth .
Peen
Tet.
P4/nmm
Tric.
P'1
3oo[CaP'fi"Si 051
(Th,U)""Si'(O,OH].*
i=Zirconl
CU2Pb11Sb15[S:!5] ~
(OH)]
C..Thortveititel
{300}~lljSl3OlD
C~auchecomlte)
3co{ {g}[NH.1
{locH H{g}{Ctr03]]]
NigBiTe[Sal
NatB [OHhCij
Znl"JZnL""YJp
[O.(OH)D]R21 by
(Subs.d.Andalusite)
Tric .
P1...
Tric.
P'1
Mg3Si.c010(OHh
Mg30(OHh
{2a>}[SI.'o 10](2.h)o
SPACE
GROUP
Mon.
C2
STRUCTURAL
FORMULA
/3=93.28"
Z=2?
Z=1
Z=18
a=29.08~
STRUCTURE TYPE
c=6.26A
a=22.30A
b=34.ooA
c=4 .04A
a=6.55A
b=8.70A
c=7.43.4.
a=7.494A
b=4.552A
0=10.oo5A
Z=2
Z=4
TI'V[~(OH)r
TIVANITE
H~lzel SUDD!..
Am.Min.,1977,2,396;H6lzel ,
15.
80v . Ph ys.Cryst.,1 988,~ , 356358;Am.Mln.,1986,l1,188-193;
Pov .,396;str.Tab.,388.
Am .Mln.,1981,,219(Abs.);
H~lzel sUDOl..
Can.Mln .,1987,.2,181-183.
Acta Cryst.,1982,m,82-85;
Pov.,490;str.Tab.,254;RRW,
606-807SR.12.263-284.
Mln.Mag .,1980,g,877-878;
Am.Mln.,1981,,436(Abs.).
MinAbs.,64M13850;Pov.,622;
str.Tab.,235;RRW,610-611.
Zelt .KJ1st.,1966,m,321-329;
SR,m,190;KIB,90-91;Pov.,
540;Str.Tab.,317.
[O.(OH)D]R21 by
ADAMITE
Znl~IZn1WYfAs
LF,227 ;RRW,601;Pov.,432;
Str.Tab.,435.
Mln .Mag.,1981 ,44,51-53;
H6lzel,219.
Am .Min.,1968,~,751-769;
321;Am.Min. ,1987,:ZZ,226
CAbs.l ; H61zel,198 .
Zelt .KJ1st.,1981,1,177-186;
Sov.Phys.Cryst. ,1992,~,319-
REFERENCES
a=7.07~
0,.x(4e)
(OH)(4e)
Y'.III(48)Si'~II(48)
Na(4e) CI(2c)
B(2a)0(8QH(81)
Zn,(2Q Znll(2i)
P(21)0, .1VC2i)
(OH)(2Q
Mg,.1II(2I)SII.M21) Mgi'(OHh
0,.x(21)OH'.1I(2Q {2a:l}[Si.'o 1ol(2.h) c
TALC
Sh~I(4c)01-VII'C4c)
Ba(2a)Sr(4c)
Mn,(2b)Mnll(2a)
EQUIVALENT
POSITIONS
c=17.30A
/3=97.24"
Z=4
Z-1
Z=8
a=14.64A
c=10.87A
a=7.225A
b=10.709A
c=8.746A
a=3.882A
c=13.25A
a=7.318A
b=11.134A
c=10.379A
a=10.29A
Z=8
a=98.68
/3=119.90'
..,=85.27"
Z=2
a=10.198A a=90030'
b=9.820A /3=70032'
0=9.485A ..,=108"34'
Z=1
a=5.499A a=102"51
b=5.654A
/3=102"46'
c=6.465A ..,=86"50'
Z=2
Z=2
a=7.260~
c=4 .847A
a=14.59A
b=7.769A
c=5.141A
a=5.29A
b=9.46A
c=5.29A
ApBqCrO.(conl)
(Sr,Ba).Mn2(SI2Chh (Sr,Ba).
3oo}[Mn2oSI.tOl.i1
CHEMICAL
FORMULA
TALC
TAiKANITE
NAME
Table 110
W
\0
STRUCTURAL
FORMULA
(Mn,Fet<Mn,Fe)'''''YJ
l[04(OH
p
C",TriDlite)
A14P3 [012(OHhl
(Na,K)Lo'FeuFe Sle
(0 15)
2co[ Ca2l'!
{g}[B 4b 4(OH)a] )
AI4(P0 4h(OHh
(Na,K)Fe2SieO,~
Ca5(As04,P04hCI Ca~(As,Ph
[012C1)
MnSn""
{g}[Btr03.hi2 c
(Mn,FehP04(OH)
MnSn(BO~2
CaB2~(OH)4
(U,Ca,Ceh(Ta,Nb)
Oe(OH,F)
TRIPLOIDITE
TROLLEITE
TUHUAUTE
TURNEAUREITE
TUSIONITE
URALBORITE
URANMICROLITE
(U,ca,ceJ2""
(Ta,Nbh[
iOe(OH,-F)[]]Qo
.T.
Cub.
Fd3m
Mon.
P2,ln
Trig.
R3
a=6.92A
b=12.35A
c=9.80A
a=10.40A
a=4.781A
c=15.381A
a=9.810~
c=6.868A
~m
b=6.010A
c=4.692A
a=12.065A
b=6.454A
c=9.937A
a=12.366A
b=13.276A
c=9.943A
a=18.894A
b-7.161A
c=7.162A
a=14.31A
b=17.28A
c=10.11A
EQUIVALENT
POSITIONS
AI(Sd) SI(4c)
01-l,(4c)01ll(Sd)
CF OH)(8d)
AhuSI1.04(F,OH):zf'
TOPAZ
STRUCTURE TYPE
Z=8
/3=83
Z=8
Z=3
Z=2
Z=2?
/3=99.99
Z=4
Mn(3a)Sn(3b)
B(6c)0(18f)
PII(8f)01-V1(8f)...
A1'~1(8f)p,(4e)
.T.
[Oe(OH,F)O)
PYROCHLORE
(ca,Nah~N~Ul
Ca""~g,Fe)'"
(g}[C o, .hi2c
DOLOMITE
Ca5P3
[012(F,OH,CI))
APATITE
CaUMgUSI [0 4)"
L1(4a) Fe(4c)
MONTICELLITE
P(4c) 01~,(4c)
OIllCSd)
/3=107.09' (Mn,Fe,Mg,Ca),_
lI(8f)P(8f)
Z=8
0,~v(8~ ...
/3=108.23' (Mn,Fe)'.V111(4e)
P,#C4e)0,_xx(4e)
Z=16
y=92.77
Z=1
Z=4
Fe,.v1(1 a)SI_V1(1 a)
/3-95
Mg w(1a)...
a=y=90"
Z=2
/3=102041'
Z=1
a=10.33~ Z=4
a=5.37A
b=15.65A
c=10.72A
a=7.12A
b=7.29A
c=6.71A
a=4.6499A
b=8.7968A
c=8.3909A
a=13.349A
b=26.538A
c=4.092A
Hex.
Orth.
Cmca
Mon.
l2Ic
Mon.
P2,la
Mon.
l2Ia
(Mn,Fe,Mg,Cah
P04(F,OH)
TRIPUTE
U
(Mn,Fe,Mg,Cah
pI [04(F,OH)
UFeP04
TRiPHYLITE
Orth.
Pnma
Mon.
B2Im...
Ag7PbeBI1~[8:l2J ~
Ag7PbeBh~8:l2
TREASURITE
L1uFeup (04)"
(Subs.d.Forsterlte)
Orth.
Pbnm
AI2uSI [04(F,OHhj"
AI2Si04(F,OHh
Mon.
P2 tln
Too.
C1
TOPAZ
Y4''SI3 [O,0H]12
(",Monazite)
SPACE
GROUP
Y4(Si04,(OHM3
CHEMICAL
FORMULA
ApBqCrD.(conl)
TOMBARTHITE -(Y)
TOCHILINITE
NAME
Table 111
REFERENCES
Am.Mln .,1984,i,1193(Abs.);
LF 174.
MlnAbs.7Q-3027;Am.Mln.,
1962,!Z,1482(Abs.);Str.Tab.,
263;Pov.,474-475.
Str.Tab.,192;Pov.,763;LF,140.
Can.Mln .,1994,~.903-907;
RRW,632;Str.Tab.,401 ;Pov.,
379-380 'H~el 222.
Can.Mln., 1985,~,251-254;
HBlzel,156;Am.Min .,1986,Z1,
1280CAbs.).
Am.Mln.,1977,~,416-420;
241-242.
Am.Mln . ,1974,~,974-964;KIB,
139-140;Pov.,539;SR,~,
Tab.,316;Pov.,541 .
118-119;SR,~,432-433;Str .
Acta Cryst.,1993,~,147-153;
RRW,626-627;Pov.,538-539;
Str.Tab.,308.
Zelt.Krist., 1969,130,1-14;SR,
m,424;pov.,541;Str.Tab.,
516;RRW.627.
Zelt.Krist.,1970,ill,1-20;KIB,
(Abs.);H~lzel,45.
128;Wyckoff,~,174-175;RRW,
Sov.Phys.Cryst.1973,l1,667671;Pov., 762,264;SR,~,291;
Am.Mln., 1972,~, 1552(Abs.).
Am.Mln.,1969.M,327-328
(Abs.);RRW,621-622;Pov.,381;
Str.Tab.,372.
Am.Mln.,1971,,24-30;LF,
Ca3Cr2(S104h
(Mg,Alh53u(Fe,Cuh
2Fe,Cu)S) .
1.S3Mg,Al)(OHh) [(OHhS21
Pb5(V04hCI
CuU0 2(OH)4
NaeMg(S04)4
TIHgSb4S7
FeeS~016S
AgsPbeBI136Jo
CaB202(0H)4
LiAlSI20e
Na3(Ce,La,Nd)
(P04h
UVAROVITE
VALLERIITE
VANADINITE
VANDENBRANDEITE
VANTHOFmE
VAUGHANITE
VERSILIAITE
VIKINGITE
VIMSITE
VIRGILITE
VITUSITE - (C8)
(U,Ca,ce~2~
Mon .
P21/C
N8e'~~'
Mon .
B2Im ...
Orth .
Pbam
Ca""{loo}[~to2(OH)4) Mon .
B2Ib
AgsPbr<'Bi13l8:lal"
FeeuS~ [OleS)
Too.
P1...
Tric.
P'1
:zoo[ Cu['In!tj7bY1
02(OH)41
{:zoo}{MgOSi016)
Hex.
P6:1m
R~m
Cub .
I a"3'd
Trig.
Fd!m
Cub .
Olth.
P2 12121 ..
SPACE
GROUP
a=10.3174A Z=2
c=7.3378A
a=14.091A Z=8
b=5.357A
c=18.740A
a=9.797A
b=9.217A
c=8.199A
a=9.012A
a=93.27
b=13.223A 1l=9S.0So
c=s .908A y=109.18
Z=2
Z=2
a"8.49~
b=8.328A
c=11.938A
a=13.603A 1l=9S.SSo
b=2S.248A Z=1
c=4.112A
a=10.028A y=91.31
b=4.44oA Z=4
C?9.SS8A
a=5 .13~
Z=1
c=5.454A
a=7.8SSA
b=S.449A
c=6.089A
L'U
REFERENCES
Ce,.1I(4a)
P,_M4a)
Na,_V1(4a)
O,_;";;(4a)
(Si,AI)(3c) 0(8j)
Li(3a)
Ca(4e) B(8f)
01~1I(8f) H1- 1I (8f)
Am.Min.,1981,,1073"1079;
SR.4SA.278-279H~lzeI81 .
Am .Mln., 1979,~243(Abs.);
(Abs.);HOlzel.148.
853;Am.Mln . ,1980,~,812
Soy.Phys.Crysl .1980,2,850-
H~lzeI238 .
Sov.Phys.Cryst.,1976,21,332333;SR.DA,446-447;Pov.,480
Str.Tab.283.
Am.Min.,1978.9,461-46S;Zelt.
Krist .,1988,m,327-348;
H~lzel,45 ;KlS,84-66 .
Am .Min .,1979.~,1235-1242;
Fel(4g)Fell~II(4f)
Acta Crysl.,1984,1Z,1613;SR,
29,3S0-3S1;RRW ,847;Pov.,
S84-58S;Str.Tab.,272.
Mln .Mag.1989,~, 71-83;
Ht)lzel,39.
Str.Tab.,369;Pov.,382;Am.
Min . 1971,56,79182SLF 148.
Zelt .Krist.,1968,m.73-93;
H6Izel,28;Am.Mln., 1972,~,
1037-10S2SR .33A.278-279 .
Can.Min.,1989,2Z,189-192;LF,
18S;RRW.646;Pov.,494;Str.
Tab. ,327.
SR,m,221-222;RRW,646;
Pov .,327;Str.Tab. ,228.
HOlzel,67;Str.Tab.,190;Pov .,
763;LF,140.
Am.Min.,1984,9,408-409
(Abs.);Htilzel.196.
Sb l(81) Sbll(4h)
S(28) 'OI(411)...
.T.
19
(Ca,NahL'UN~U'
STRUCTURE TYPE
[Oe(OH,F)01
PYROCHLORE
Ca(24c)Cr(16a) Ca3 AI2uSi~ 121Sll24d)O(96h)
GROSSULAR
EQUIVALENT
POSITIONS
CI(2a) Pbt(4f)
CaS"P3'
Pb ll(8h) V(6h)
[012(F,OH,CI)
01~1(6h)01l;(121)
APATITE
a=91 .""o Cu(21)U(21)
1l=101.90" 01.V1(2i)
yz89.2"
Z=2
1l=113.So Mgl(2a)Nal~II(4e)
O~V1I1(4e)S,~I(4e)
Z=2
Z=6
a=3.79~
c=34.10A
Z=8
Z=8
Z=4
a=11.97A
a=11.60A
b=14.68A
c=12.83A
a=10 .34A
ApBqCrD.( cont.)
Pbs"V3[012CI]
Ca3""Cr2uSh [0121 *
iOsioH~F)OIa.
(NbTa) [
(U ,Ca,Ceh(Nb,Ta)
e(OH,F)
URANPYROCHLORE
STRUCTURAL
FORMULA
(UO VSl.,<)lS
CtEMICAL
FORMULA
URANOSILITE
NAME
Table 112
......
""'"
STRUCTURAL
FORMULA
Mon.
P2Im...
{Mg,n,Fe,A1)2U
[ [0] {g}(B1f03]"-T]
Cu2PboB14
[88,S,Te]e"
C...souceklte)
Na2~MgUA1u[F7D I-
BaCa2ShOg
(Mg,n,Fe,A1)~
WALSTROMITE
WARWlCKITE
Cu 2PbBI4
(Se,S,Te)e
Na2MgAIF7
Ca{As030 H)
{Ni,MghSI4010
{0H)2
Mn(Sn,Ta)Ta20e
(Fe,MnhP04{OH)
WATKINSONITE
WEBERITE
WEILITE
W1LLEMSEITE
WODGINITE
WOLFEITE
(B03)
Orth.
Pnam
BauC82uSh 109]
(",Malgarosarite)
{Mg,FehP04F
WAGNERITE
Mon.
C2Ie
MnO(Sn,Ta)"Ta2
[Oel"
P21/a
Mon.
Mon.
Ce
{Ni,MghU(OHh
(200}[SI4I0 1ol(2h)c
{Fe,Mnh"P'[04{0H)1
Trie.
P'1
Orth.
Imm2...
Tric .
P1...
P21/e
Mon.
Hex .
P'6
Ca'''O'H{g}[As 0 41
(Mg,FehUP'[04F]
K2LOJ{300}[Zr"Sh'Ogl
K2ZrSi309
WADEITE
Mon.
C2Ie
Na~14011
Trie.
P'1
SPACE
GROUP
VLASOVITE
(Monel/nle)
Nall/f l
{300}[Zr'SI4'o11]
(Dlst.d .V1asovltemon.)
Nall/f l
{300}[Zr'SI4'OI1]
Na2ZrSI4011
CHEMICAL
FORMULA
a:25.316A
b=9.149A
c=18.994A
a=9.489A
b=11.429A
e=5.105A
a=12.2oA
b=13.17A
c=9.79A
a=12.921A
b=3.997A
c=14.989A
a=7.060A
bz10 .oooA
c=7.303A
a=7.0591A
b=6.8906A
c=7.2006A
a=9.20A
b=9.45A
c=3.01A
a=9.644A
b=12.679A
c=11.957A
a=6.743A
b=9.607A
c=6.687A
Cal~I{2J)AsI.II{21)
Ns 1{4c)Nall{4d)
Mg{4c)AI{4d)
F,(2a)FIIC2b)...
13=108.0"
Z=16
13=91.10"
Z=4
Mn{4e)
(Sn,Ta)(4e)
Ta(8f)O',M8f)
13=103"33' 0 1.vlII(21)
y=8745'
Z=4
13=99.96
Z=4
a=97"26'
Z=4
13=109.20
Z=2
13=10818' MgI.vlII(4e)
P,.N<4e)
Z=16
01.XV1C4e)
a=69051, Ba(21) Ca,.11(21)
13=102014' SII~II(21)Q .IX{21)
y=97oe'
Z=2
{Mg,n,Fe,A1)I.1I
Z=4
(4e)
0,~v(4e) B{4e)
Kt(21) KII{2h)
Zr(2g) ...
01l.~C8f)
EQUIVALENT
POSITIONS
a=89042'
13=100"24'
y=90"29'
Z=4
13=100"24' Nal.II{4e)Zr(4c)
SI.II{8f) 0,{4e)
Z=4
a=10.98A
b=10.01A
c=8.53A
a=6.926A Z=2
c=10.1nA
a=10.96A
b=10.01A
c=8.53A
UNITCELL DIMENSIONS
ApBqC,D.(cont.)
VLASOVITE
(Trielinle)
NAME
Table 113
U{0H)2
Mg3
{200}[SI 4I01ol(2h)c
TAl.C
{Mg,n,Fe,A1ho
[ [0] (g}[BIf~]"-T1
WARWlCKITE
STRUCTURE TYPE
RRW,674;HOIzel,149;Pov.,541,
765;Str.Tab.,316.
Can .Mln.,1992,~,633-638.
Pov.,302-303;Str.Tab.,205;
SR ,~,266 ;LF,92;RRW,673;
Am.Mln., 1970,~,31-42;Pov .,
432;LF,227;RRW,671 ;Am.
Mln.,1969,.M,1740CAbs.).
668Str.Tab. 162.
Acta Cryst.,1970,~,403-41 0;
Acta Cryst. ,1969,~,102
{Abs.);Pov .,518;Str.Tab.,312.
SR,~,142;J.SoI.St.Chem. ,
1982,~,213-221 ;Pov.,667-
370-371 ;Str.Tab.,403.
Wyckoff,2,518-521;LF,180;
POV. ,467;Str.Tab.,252;RRW,
662;Am.Mln.,1991,1Jl,138Q1388.
Can.Mln.,1987,2,625-638;
HOlzel,38.
Am .Mln . ,1965,~,314-340 ;
Am.Mln.,1968,~,9-13;SR,
UA,46~1 ;RRW,661 ;Pov.,
Str.Tab.,316;RRW,659.
SR,~ ,362-365;C8n.Mln .,
1992,~, 1161-1165;Pov.,541;
Pov.,363-364;Str.Tab.,428.
Sov.Phys .Cryst.,19n,22,3135;RRW,659;Pov.,362-363;Str.
Tab.402SR.43A,326.
SR,~,465-486;RRW,655;
Min.Mag., 1967,B,233-241;
Cryst.,1974,jj,152-156.
SR,~,465-486 ;Sov.Phys .
Mln.Mag., 1967,M,233-241;
REFERENCES
tv
.j:>.
PbeCrCle
(O,OH,H2O)e
YEDLINITE
Ca3Al eShO,e
CsZrTl 207
AgPb.Sb.S lO
(Fe,MnhPO.
(F,OH)
YOSHIOKAITE
ZIRCONOLITE -3T
ZOUBEKITE
ZWIESELITE
(Fe,MnhuP'
[O.(F,OH)
AgPb.Sb.[S,o)
Ca'L!: '1111
[OrD)Qo
Mon.
121m
Orth.
?
Tet.
P3,2
Ca3ID,
Trig.
{3co}[Sh'Aletc,llecnjh P~
lSubs.d.Neoheline)
YTTROBETAFI(V,U,Ceh
Amorph.
TE - {Y)
(Ti,Nb,TahOe(OH) C..,pyrochlore)
(metamict)
YTTROTUNGSTI- (V,La,Ca)
(V,La,Cat
Mon.
TE -{Y)
(W,Fe,SI,AI,Tl)2o
P2,/m
(W,Fe,Si,AI,Tlh
(O,OH,H2O)g
[CO,OH,H20)gDI
YUSHKINITE
n(Mg,AI)~, .x
Hex.
V,.xS.n(Mg,AI)
P3m1 ?
[(OHhSt
(OHh
ZINCROSASITE
Orth.
(Zn,Cu)2C03(OHh (Zn,CuhO[ ~0H)2
{g}[Ctr03l e OJ
?
C;"Malachite)
CalDJZr' 1fI"T110J
ZIRCONOLITE Mon.
CaZrTI20r
[OrD)Qo
2M
C2Ie
R~
Trig.
Mon.
C2Im
K'otlPJ
{200}[ FeoS210al
KFe(SO.h
YAVAPAIITE
3co[ Cr'Pbe1OJCle
(O,OH,H20)e)
Mon.
P2Ia
CalCa2U(OHh
{1oo}[Sle'OH!(2")h
CaeSleO,7(OHh
SPACE
GROUP
XONOTLITE
STRUCTURAL
FORMULA
Olth.
?
CHEMICAl
FORMULA
Z=12
1}=94.900
Z=2
K(2e)Fe(2a)
S(41)01.1I(41)
OIlI(Sj)
~~~:) ...
u
Ca '.1I(2e)
CaP'_II(4Q)
EQUIVALNT
POSITIONS
o-11.3A
a=9.42A
b=12.33A
c=3.44A
a=12.445A
b=7.288A
c=11.487A
a=7.3A
b=7.3A
e-16 .9A
a=18.698A
b=6.492A
c=4.577A
a-12.02A
b=6.45A
c=10.01A
a~.20A
a=6.95A
b=8.64A
c=5.77A
Z=8
~",10a0
Z=1
Z=?
Z=8
n.II(8f)Tl III(4e)
(occ.v:)O,.vlI(8f)
~"100.3go Ca(8f)Zr(8f)
Z=4
Z= ?
1}=10456'
Z=2
a=8.152A
b=5.153A
c=7.877A
b=14.318A
e=11.662A
a=16.5A
1}=90"
b=7.33A
Z=2
c=7.03A
a=12 .140~
ApBqCrD.( conl)
XOCOMECATLITE CU3T90.(OH).
NAME
Table 114
Ca310,{3co}
[Sh'Ale'O,e[2Jecn,h
YOSHIOKAITE
Ca."Ca2U(OHh
{1oo}[Si e'oH!2.
XONOTLITE
STRUCTURE TYPE
REFERENCES
Str.Tab.,316;Pov.,766,541 ;
H()lzel,148;RRW,892;KIB,158.
Am.Mln.,1987,IZ,227(Abs.);
H()lzel,43.
Am.Mln.,1983,,262-276.
Mln.Mag.,1989,~,565-569;
Acta Cryst.,1981,m,306312;Mln.Mag.,1989,D,565569;Pov.,278.
Str.Tab.,191Ht)lzel 67.
Mln.Mag.,1971,H,261-285;
RRW,662-683;Pov.,573;Str.
Tab.,224;HOlzel,81.
Am.Mln.,966,Z1,646(Abs.);
H()lzel,26.
Pov.,766,616;Str.Tab.,590,
241;RRW,688;HtlIzel,1 00.
Am.Mln .,1964,~,440(Abs .) ;
Am.Mln.,1990 ,~,676-666 ;
1'l()lzeI5uppl.;Ene.Mln.Nam.,
338.
SR,m,308-309;Pov.,583;Str.
Tab.,272;RRW,680;Am.Mln.,
1972.57.1546-1549.
Am.Mln.,1974,.!!,1157-1159,
116Q-1165;RRV,681 ;SR,~,
163.
Am.Mln.,1959,~,1105-1114;
Zeit.Krist.,1981,.lM,271-272;
LF,214;SR,2Q,414-415;RRW,
679;Pov.,417;Str.Tab.,425;SR,
20.414-415.
Am.Mln.,1971 ,,1917-1933;
.j:>.
V.l
Tet.
P42/n
Trig.
R!m...
Na2Fe5TISIAe
NaCa~i401eF
(La,Cah(AI,Feh
(SI04h(OH)
(AI~3,S102.H2O)
(Na,Cah
(Mn,Mg,Fe)Fe2
(P04h
KAI3(S04h(OH)1l
Ca 3Be2S1301O(OHh
AENIGMATITE
AGRELLITE
ALLANITE - (La)
ALLOPHANE
ALLUAUDITE
ALUNITE
AMBLYGONITE
AMINOFFITE
AMMONIOALUNI- NH~h(S04h(OH)s NH 4)
TE
2co}( A13~tas(OH)s]
=Alunitel
(Na,Cah
{200}(AI3o~IOs(OH)s]
K'~UJ
Fe2oP31012]
{2co}( (Mn.Mg,Fet
CD
Mon.
(La,CahLlO1UJ
{3X>}(AI,FehoSI31012
(OH)]
Tric .
P"1...
Trig .
R!m...
Mon .
C2Ic
Amorph.
P21/m
Tric.
P'1
{lCXl}(SIS
Na2""Ca4~2
t020]
Olth.
P2 121 21
CaMgAs040 H
ADELITE
Tric .
P'1
c2iin
{lCXl}(SlsIOnl ex
CHEMICAL.
STRUCTURAL.
SPACE
FORMULA
FORMULA
GROUP
Ca~g,Fe)5Sls022 Car(Mg,Fe15(OHh Mon.
POSmoNS
EQUIVALENT
Z=4
Z=2
STRUCTURE TYPE
REFERENCES
Am.Mln.,1979,~,563-572;SR,
~,366;H~zel,236 .
Am .Min.,1971,.,427-446;Am .
Min., 1974,~,82Q-829;Pov.,
426-427;str.Tab.,421.
Cal_u(2e)A11(2a) Dist.deriv.
Am.Mln.,1971,,447-464;SR,
A1 11(2c)AIIII(2e) ... Call
m,332;RRW,11;l-0Izel,202;
{3:X>}[AhSbI012(OH)] LF,190.
ZOISITE
Am.Mln.,1976,1,379-390;Mln.
Abs., 76-3277;RRW, 13;Str.
Tab. 462Pov. 725'Htllzel 233
Am.Mln.,1971,.1955-1975;
a=12.004A fl=114 .4 (Na.Ca>t(4b)
(Na,Ca)u(4a)
Mln.Mag .1979,g,227-235;
b=12.533A Z=4
(Mn,Mg,Fe>t(4e)
RRW,13;Pov.,538;str.Tab.
c=6.404A
Fe(8f) PI(4c)
310;KIB,128.
P,(8f) o..V1(6fl
Acta Cryst.,1965,lll,249-252;
a=6.970A a~7.05A K(3a)OI.u(3a)
LF,311;RRW,15;Pov.,588;Str.
OIll.ivC9b) A1(9b)
c=17.271A 0.=5902'
Tab.,276;Am.Mln.,1980,.,933
SI.II(3a)(forR3m)
Z=3
ZR=1
lOl-fiu;(9b)
-956:Wvckoff.3.21 0-213 .
3:X>(Li ,Na)I.J~
Wyckoff,~,1'92-193;LF ,278;
a=5 .184A 0.=112"7' (Li,Na)(21)
Pov .,530;Str.Tab.,316;SR,~,
(F,OH)plQ4J
b-7.155A fl=97046' Al j(1 a) A111(1 g)
429;Acta Cryst.,1959,12,986AMBLYGONITE
c=5.040A
y=6753' P(21)
(F,OH)(2i) ...
994.
Z=2
Z=4
Cal(Bg)Call(4e)
Am .Mln.,1968,9,1416-1420;
a=9.865~
ca9 .930A
Be(Bg) SII(Bg)
SR,~,466-467;Pov.,447SI,,(41)...
448str.Tab. 399.
a=7.013A Z=3
Am.Mln .,1988,~,145-152.
c=17.885A
SlvlIl(21) .. .
Nal~I(2i)Cal.M21
...
Nal.II(2i)Fel(1 b)
Fell(1C}Felll.V1(21
0.=10456
fl=9652'
y=12519'
Z=2
a=7.759A 0.=89.88
b=18.946A fl=116.65'
c=6.986A
y=94.32"
Z=4
a=8.927A ~=114.77'
b=5.761A Z=2
c=10.152A
a=9.891A
b=18.200A
c=5.305A
a=7.47A
b=8.94A
c=5 .88A
a=10.406A
ba10 .813A
c=8.928A
UNITCELL DIMENSIONS
ApBqCrD.E x
(OHh
ACTINOLITE
NAME
Table 115
~
~
CHEMICAL
FORMULA
STRUCTURAL
FORMULA
Trlc.
P'1
ASTROPHYLLITE (K,Na>J(Fe,Mnh
TI2Sia(O,OH)31
AZOPROITE
Orth.
Pbam
Orth .
P212121
C8ZnAs04(OH)
AUSTINITE
Cs'-'Zn'<>U)'
I0
As 4(OH)
l=Desclolzite)
(Mg,Feh(Fe,Ti,Mg) (Mg,Fe)t(Fe,Ti,Mg)
((~) {g}(at'OJlTU ]
~B03
(=B1atterlte)
Mon.
P21/m
B~OAs04(OH)
ATELESTITE
(K,Nah
{2cO}[ (Fe,Mn)7o-n2o
Sial (O,OHh1)
Trig .
R3m
Orth.
P212121
Trig.
R3m
ARGENTOJAROSITE
AgFe3(S04h(OH)e Ag
2cO}(Fe3o~'oe(OH)e)
C=A1unltel
ARSENDESCLOI- PbZ nAs04(OH)
As
Pu' .".
04(OH)
ZITE
C=Descloizitel
ARSENOFLC(Ce,La)Ab(As04h
RENCITE - (ee)
(OH)e
Mon .
P2 1/c
Orth.
B22 12
Si2~
BaFe(Fe,Mn,Mg)
Orth .
Pnmn
Mon .
C2Jc
Trig .
R3m
SPACE
GROUP
Z=2
~=9452'
sFf=7.206A
a=61 "7'
z,,=1
POSIT1ON8
EQUIVALENT
s=7.01A
b=7.46A
o=11.03A
a=7.506A
b=9.046A
0=5.930A
a=9.26A
b=12.25A
0=3.01A
a=6.075A
b=9.538A
0=7.634A
a=7.029A
o=16.517A
Z=3
ll"'5.36A
tr=11.76A
0=21.08A
Fel.III(2i)
FeLVC1g) Ti(2i)
y=10313' Na(1c) ...
Z=2
Z=4
Z=4
Z=4
~=1Q9057'
~=9000'
8R=6.88A
a=6321 ,
ZR=1
a=858'
Z=4
a=5.439A
Z=4
b=9.509A
o=19.878A
(Ba,K)(4g)
(Fe,Mg),(2a)
(Fe ,Mg)u(2d)
(Fe,Mg)III(4e)
iFe Ma).,(4ft...
a=7.488A ~=11823' Ba(4e) Fe(4e)
(Fe,Mn,Mg)(4e)
b=13.785A Z=4
SI141(4e)
0=7.085A
a=14.16A Z=4
b=16.83A
c=5.18A
a=7.23A
Z=3
<:=16.43A
a=7.327A
o=17.50A
Z=3
s=5 .412.4.
b=9.434A
o=19.953A
~~CrD.Ex(con~)
(Cu,Fe)Fe3(P0 4h
(OHh
ANDREWSITE
ANDREMEYERITE
NAME
Table 116
STRUCTURE TYPE
Am.Mln ., 1971,~,360(Abs.);
Pov.,467;RRW,44-45;LF,183.
SR,~,473-474;Pov.,452;
Str. Tab.,4~1.
Am.Min. ,1988,n,1492-1493
CAbs.).
Acta Cryst.,1967,22,673-678 ;
Am .Min.,1983,1 ,28Q-283.
Str.Tab.,276;Pov.,588;RRW,
RRW,24;Str.Tab.,319;Pov .,543
Am.Mln. ,1988,1.M08-612;Am.
Mln .,1974,~,381 (Abs.).
SR,~,338.
Am .Min.,1985,1Q,1298-1308;
;
RRW,19;Pov.,588;Str.Tab.,
276 .
RRW,20;Str.Tab.,440;Pov.,441.
J .AppI .Cryst.,1973,~,490-491
REFERENCES
VI
SPACE
Olth.
Cman
(Na,KhBaTi2
(Sb07h
Ca4(AI,Be)4Si~26
BATISITE
BAVENITE
Cat(OHh
(3co}[AI2tsi'os]
[Au3Cu2Pb.nTeOil"
Ca2AI2SIOs(OHh
AU3Cu2Pb.nTe~
BICCHULITE
BILIBINSKITE
BEYERITE
Pb "'{2ao}[Fer
(As,ShIOs(OH)e]
(..Alunite)
(Ca,Pb)BI 202(COJ)2 (Ca,Pbt (g}[C"om
(200}[BI012
PbFe3(As04,S04h
(OH)s
BEUDANTITE
Cub.
Fm!m7
Cub.
143m
Tet.
14/mmm
Trig.
R!m
(Na,CahOO(Mg,Mnho Cub.
I a!d
NaCa2(Mg,Mnh
(As04h
BERZEUITE
AsJ1[0 121 *
CaBeAs04(OH)
BERGSLAGITE
Mg(C~)13
Mon.
P2 1/c
Trig .
3
R
(Ba,St)e'''''VJ
(Ca,Mn)l+l JMg0
(g}[Clr03<h113c
(...calcite)
Ca,o'BeAs'[04(OH
BENSTONITE
(Ba,SI?e(Ca,Mn)8
Mon.
C2Im
BENJAMINITE
(OHh
Olth.
Ima2
(Na ,KhBa
(3co}(TI2Si4'0141
Na2BaAI4Si401S
BANALSITE
Mon .
P2 1/a
Ca3Z~(SI20J)
Too.
P1
GROUP
BAGHDADITE
Ba,D'Be'P104(F,O)1
FORMULA
FORMULA
BaBeP04(F,0)
STRUCTURAL
CHEMICAL
REFERENCES
Ca(4e) Be(4e)
As{4e) 01-1v(4e)
(OH)(4e)
(Na,Ca)(24c)
Ca3AI2Sb[04] *
As(24d) O(96h) GROSSULAR
(Ma.MnH16a)
a=7.3151A arr=7.07A (Fe,A1)(9d)
c=17 .0355A (=6220' (As,S)(6c)
01(6c)...
Z=3
ZR=1
Bi(4e) Ca(2a)
a=3.79A
Z=2
c=21.81A
01(4d) 01l(16m)
CC4el (v.oce.)
Ca(8c) SI(12d)
a=8.825A Z=4
AI(12d) 0(240)
(OH)(8c)
a=4.10A
Z= 47
[CuI"
COPPER
HOIzel,1 .
Am .Mtn .,1979,~,652(Abs.);
m,302-303;SR,~,382.
Zelt .Krist.,1984,.1,73-80;Am.
Mln.,1985,1Q.436(Abs.).
1962,!l,585-598.
~1
(=11318'
SR,~,35-36;Pov.,238;HOIzel,
m,330.
SR,2Z,705;Pov .,365-366;Str.
Tab .,427;RRW,55.
HOlzel,202;Am.Mln.,1987
222(Abs.t
SR,!1A,431 ;Pov.,344-345;Str.
Tab .,481 ;RRW,48;LF,269.
.u .
Min.Mag.,1986,~,119-123;
1, 1547;SR,~,368;Pov.,554555.
Sov.Phys,Cryst.,1980,2.,28-
a~10.94A
STRUCTURE TYPE
38.
SI141(8c)Nal(4a)
Nall(4bl ...
Ca(18h)AI(8f)
Be(8g) ...
Ba(4b)TI~II(4b)
Ba'.1I(1a)
Be141(1 a)PI~I(1 a)
0~vlII(1 a)FI41(1 a)
POSITIONS
EQUIVALENT
~=103"32'
Z=2
Z=4
Z~4
a=4.8818A ~=90.16
b=7.809A
Z=4
c=10.127A
a=12 .355A Z=8
b=5.005A
c=19.39A
a-13.299A
b=4.070A
c=20.209A
a=18.280A
c=8.652A
Z=3
a=23.19~
b=13.85A
c=8.10A
a=10.40~
(=90.01
a=6.669A
b=16.814A ~=89.99
c=6.902A y=9O.32O
Z=2
a=10.42A ~=91.1
b=10 .16A Z~4
c=7 .36A
Z=4
a=8 .496~
b=9.983A
c=16.755A
ApBqCrD.EIt (cant.)
BABEFPHITE
NAME
Table 117
0\
(Ca,Ba)Ca 13Mg2
(SIO.)&
Na2CaMg(PO.h
BRAZJUANITE
BREDIGITE
BRIANITE
CAHNITE
BURKEITE
Mon.
C2Im
SPACE
GROUP
P2,/n
Mon.
Ca{Y3"Sb
Ta
[0'2 (OH)r
CSubs.deriv.Aoatlte)
C&2(B(OHMAs04
a=7 .0761.
b=9.220A
c=5.173A
a=7.11A
c=6 .20A
a=9.43~
c=6.81 A
14
Pb l(6f)Pbll (Bg)
Pblll(12h)...
...
K(2b)
(Mg,Fe)I(2c)
iMQ,Fe);,C4til...
Fe(4b) Bi(2a)
SI(4b) 01~d(4b)
01V_v(2a)
COH)l2a)
B1_VIII(4g)
Sbl(2b) Sb ll (4g)
EQUIVALENT
POSITIOHS
Z=2
Z=?
Z=2
Cal(2b)Call(2d)
B(2c)As(2a)
O '",(80)
K(2b) U(6f)
Sn(4c)
SIC24mL
a=11.233A ~=97.37 Na(4e)
A1 1~1I(4e)
b=10 .142A Z=4
P11I(4e):..
c=7 .097A
a=10.909A Z=2
(Ca,8a)(2a)
Mg 1_1I(2b)
b=18.34A
S _M4c) ...
c=6.739A
a=13 .36A ~=91 .2"
b=5.23A
Z=4
c=9.13A
~m
Olth.
Pmm2 ...
Z-1
Z=32
a=9.213A Z=4
b=12.229A
c=3 .001A
~..e4.
a=5.2A
b=9.oA
Z=4
c=18.99A
a=10.002A Z=2
c=14.263A
a=15 .29A
b=12.568A
c=6 .20oA
a=37 .384~
a=5.331A ~=99"18'
b=9.231A Z=2
c=10 .173A
a=5.21A
~=10040'
b=9.02A
Z=2
c=7.74A
Hex.
Mgup
(Ca,Ba),OICa,3,OIMg2U Olth.
P2nn
S181032l
Mon.
Na'~'
Hex .
P61mcc
Mon .
C2Ic
Olth.
Pbam
Pm~m
Cub.
Orth.
Pnnm
{300}(AbP210&(OH).1
{200lICSI.AIl.'o,nl" a)a
(AI ,Mg,FehO(O~
(Na,H 3O)'''1
(Mn,Mg)t<Mn,Sb)"
[ [OMg}[BI'03)'oT.,)
Bi l;,nI{200}[F62o~(OH) Mon.
I051 a
Cm
(200}[SI 2
K""(Mg,FehU(OH,F)
(200}[(SI3,Al)'o,ol(2.) C
STRUCTURAL
FORMULA
ApBqCrD.Ex (cont.)
Na.SO.(C03,SO.)
Ca2Y3(SI0.h(OH)
NaAb(PO.h(OH).
BRANNOCKITE
(Na,H30)
(A1,Mg,Feh(SI,Al)4
O,o(OHh
KLbSn2Sh20 30
BRAMMALLITE
BRITHOLITE -
Ni2F~(BO:l)
(OH)48
Ag9CU24P~Ifl2
~(BO:l)
BONACCORDITE
BOLEITE
BLATTERITE
(Mn,Mgh(Mn,Sb)
Fe2Bi(S10.h(0H)
BISMUTOFERRI-
TE
K(Mg,Feh(SIy.,I)
O'O(OH,F)2
CHEMICAL
FORMULA
BIOTITE
NAME
Table 118
u(F,OHh
STRUCTURE TYPE
REFERENCES
1958,g,656-670;LF,238.
423 ;SR.~,358;Am.Min .,
NaoSi21~~K,NaCl
Dlst.deriv.
Tab. 254RRW99.
Am.Mln.,1961,~,10771085 ;
SR,~.471-472;Pov.,470;Str.
Mln.Mag.,1979,g,341345;
H()Izel,125;Pov.,589-590;
Str.Tab. 279.
RRW,a9;LF,165;Pov.,389-390;
Str.Tab.,327.
~,400;Pov.,386;Str.Tab
.,
Am.Min.1976,!l1,74-87;SR,
K'''I~U(OH,F)2
RRW,84;Str.Tab.,441 ;Pov .,
(200}{(SI,A1).'olof) Q 445;Min.Mag., 1943,~,304307;LF,229.
MUSCOVITE-2M,
Am .Mln.,1988,11,595-600;
RRW,88;Am.Mln.1973,M,
1111-1115H()lzeI210.
Acta Cryst.,1974,1Wl,1311
1317;SR,!QA,242;RRW,88.
DIst.deriv .
Zelt .Krtst.,1996,61.1.440-448;
Mg2Mno
Am .Mln.,1989.H,1399(Abs.);
[ [Ob{g}{BtrO:i] l,oT., LF,181 .
PINAKIOLITE
J.SoI.St.Chem.,1973,11,86-92;
SR.D,6,195;Pov.,849;Str.Tab.,
167.
Am.Mln.,1976,!l1,502(Abs.);
H()lzel,111 .
CHAPMANITE
(OH){200}[S~'051"
K''''Mg3
(200}[(Sb,AI}I0101(2.) Q
PHLOGOPITE
Sb l;,nJ{200}(F620O:l
-..J
CHEMICAL
FORMULA
V
Mon.
P21/a
Olth.
P212,21
SPACE
GROUP
Mon.
Cm
?
?
Orth.
Pnam...
FeAbGe05(OHh
PbFe2(As04h(OH)
MnAI2SiPa(0H)4
Ca(Sc,Fe)SI30a
(OH)
Ba3Ce2(CO:ihF2
Ca~12(S104h(OH)4
Pb(Fe,Mn)V04
(OH)
Na3Ca2(S04h(OH)
CaAI2Si04(0H)4
CARMINfTE
CARPHOUTE
CASCANDITE
CEBAITE - lee)
CEBOLLfTE
CECHITE
CE8ANITE
CHANTALfTE
Tric.
C'1
Orth.
Ceca
Na3~Ca2"S3
Hex.
Ta
P6~m
[012(OH)r
(Subs.deriv.Apatite)
JAl2Sii04(OH).c)
L
G
Tet.
Ca
(...Retzlan)
141/a
Ca
.Fer02(OH)
{1oo}[Sbl~2
U(Sc
MnoAl20(OHh
(1oo}[SI 210a)
Orth.
Cccm
Tric.
C'1
P6im
CARBOIRfTE
(Subs.deriv .Apatite)
Na3P~(S04hCI
Nalp~p~t[O'2Clt" Hex.
0 4 (OH)
l=Descloizite\
{3x>}[Ca l-lCuL""Y 1
STRUCTURAL
FORMULA
a=96.0aa
~=101.52'
y=89.45G
Z=2
Z=2
~=90 .11G
Z=4
Z=2
Z=2
a=4.952A Z=4
c=23.275A
a=7.607A
b=9.441A
c=6.096A
a=9.446A
c=6.895A
a=9.791A a=98.91G
b=10.420A 13=102.63'
c=7.076A y=84.17G
Z=4
a=21.4256A 13=94.613'
b=5.0348A Z=4
c=13.2395A
a=13.718A Z=8
b=20.216A
c=5.132A
Z=4
a=16.591A Z=8
b=7.580A
c=12.285A
a=9.513A
b=5.569A
c=9.296A
b=9.24A
c=7.44A
a=9.846A
b=7.600A
c=4.766A
a=9.81A
c=7.14A
a=5 .90~
UNITCELL DIMENSIONS
~BqCrD.Ex(conl)
CARACOLITE
CALCYBEBORO- (Y,Cah(B,BehSi2'
SIUTE-(Y)
Oa(OHh
CALCIOVOLBOR CaCuV04(OH)
THITE
NAME
Table 119
REFERENCES
R,45A,406 .
Am.Mln.,1978,~,1282(Abs.);S
Mln.Mag.,1983,fl,59-63;Min.
Mag.,1981 ,~,269-273 ;LF ,
165' HOlze1131 .
Zeit. Krist.,1979,~,53-63;
609;LF ,212;H6Izel,220.
Am.Mln.,1982,~,599-603,604
1084-1090;Pov.,413;Str.Tab.,
415.
SR.~,369;SR,~,379;SR,
2Q,406-408;Am.Mln .,1989,~ ,
197-198;Pov .,513;str.Tab.,
324.
Min.Mag. ,199MQ,805-811 ;
312;Str.Tab.278;Pov 589;LF,
165.
Am .Mln.,1984,i,406(Abs.);
HOlzel,192.
SR,~,333-334;SR,~,311-
Cryst.Reports,1996 , ~.217221;Pov.,437-436;Am.Mln.,
1996.1,1516-1517.
Pov.,730,494-495;Str.Tab.,
513,322;RRW,101.
Am.Mln .,1985,1Q,214-221;
Acta Cryst.,1984,fHQ.454-461 ;
HOlzel102.
Mln.Mag .,1980,g.583-596;
Pov.,458;str\Tab.,514;RRW,
113HOlzel192.
Am.Mln., 1982,Z,1 074(Abs.);
HOlzel,153.
NalCal~
T1
[012(OH)r
CESANITE
TYPE
STRUCTURE
Ba'.Vl(2a)
Ce,.rv(2a)
FI.I~2a) ...
Ca(41) SII.I1I(41)
(Sc,Fe)(4l)...
...
Mn(8f) A1 1(8e)
AIII(8f) Si(161)
Pb l(4a) Pb ll(4f)
ASt(81) AStI(8g)
Fe(16m) ...
SI(4e) 0,.v(4e)
(y,Ca)(4c)
(B,Be)(4e)
Na(4f) (Na,Pb)(6h)
S(6h) ~.1I(6h)
0 111(121) CI(2b)
EQWVALENT
POSITIONS
00
K{Mg,FehFeSI,2
030
CUPb4(S04h (OH)e
(Ba,Na)(V.A1h
(SI,AI)40'0(OHh
CHAYE81TE
CHERNYKHITE
K2CuS04Cb
CuPbJ02CI 2(OHh
Lb(AI.Mg,Fe)eSis
022(OH,Fh
CHLOROTHIONI
TE
CHLOROXIPHITE
CLiNOHOLMQUI8TITE
Mon.
P2,/m
Mon.
P2Im ...
L12'O'(AI,Mg,Fe)eU
(OH,Fh
{la:l}[Slslom 2cx
Orth .
Pnma
PbJ'"o,Cu'''
1l0MOHh [Clhl'Q2,C'
K2LOJ{1a:l}[CuS04CI21
Mon.
C2Im
Trlc .
C'1
(Mn,Mg,znhuZn2As'
[04(OH,O)el
Mon.
C2Ic
(Fe,Mg.MntAitSi
[Oe(OH)21
(OHh
CHLOROPHOENI- (Mn.Mg,Zn)JZn2As
CITE
04(OH,O)e
(tricltntc}
CHLORITOID
(Fe,Mg,Mn)A1~iOe
Mon .
C2Im
CHLORITOID
(monoclinic)
o,
(Ce,La)4 ,uJ(Ti,Fe)eU
{g}(ShtOrh
(Ce,LaMTi,Fe)eOs
(SIP7n
CHEVKINITE (Ce)
Hex .
P6/mcc
Trlc.
P1...
Mon .
Cm
SPACE
OROUP
CHESTERMANITE Mg 2(Fe,Mg,AI,Sb)
02B03
STRUCTURAL
FORMULA
SbL.xl,
{2co}[ Fe2003(OH)]
(2colfSb'o.l e
y=100.4S"
Z=1
~=97.73"
0.=112.02"
Z=2
Z=2
~= 100040'
a=9.80A
b=17.83A
c=5.30A
Z=2
~=70"54'
a=13.58A ~=100"45'
b=5.82A
Z=2
c=11.21A
a=9.4818A ~=1 01.738"
b=5.4842A Z=8
c=18.1824A
a=9.46A
0.=97.05"
b=5.50A
~=101 .56"
c=9.15A
y=90.10"
Z=4
a=22.98A
~=106"O'
b=3.32A
Z=2
c=7.32A
a=7.732A Z=4
b=6.078A
c=16.292A
a=10.458A ~=97.79"
b=5.750A Z=2
c=6.693A
a=S.29A
~=95"41'
b=9.182A Z=4
c=20.023A
a-18.535A Z=16
b=12.273A
c=6.043A
a=S.19A
b=8.99A
c=7.70A
a=10.1S3A
c=14.368A
a=S.791A
b=7.940A
c=7.976A
ApBqCrD.E x (cont.)
(Ba.Na)'O<'(V.A1)2
Mon.
C2Ic
(OHh
(2coll(SI.AO. 10,nl(2I) e
Mg2U(Fe.Mg,AI,Sbt Orth.
[ [Oh{g}[Blr031MT.. ] Pnnm ...
CHENITE
Fe2Sb(SI04h(OH)
CHEMICAL
FORMULA
CHAPMANITE
NAME
Table 120
(OH)'~1(2e)
Mn,(2a)Mnll(4i)
Zn(41) ~s(4i)
O'.V1(41)
Cu(4c) KI~I(4c)
CII~I(4c) S(4c)
O,",(4c) O,;,(e<n
Pb lIII(2e)Cu(2a)
CI,~,(2e) 0(41)
...
MIO(4c)MIIO(4e)
MIII.,v(8f)
OI.V1IC8f) SI(80
SI(41) O~V11(41)
Fe(4b)Sb(2a)
(OH)(4b)SI(4b)
01~1(2a) ...
EQUIVALENT
POSITIONS
STRUCTURE TYPE
REFERENCES
152;str.Tab.167;RRW,128;
LF 158.
Mln.Mag.,1977,~,3S7361;
Pov. ,658-657;SR,~, 151-
SR,~,281282;str.Tab.,275;
SR,m,423-424;Pov.,514;str.
Tab.,321 ;RRW ,127-128.
Zelt.Krist.,1976,jM,228-237;
Am .Min.,1968,~,111 0-1119;
SR,~.384.
282-283; str.Tab.398.
Acta Crysl.,197S,m,780-784;
Pov .,428-429;Str.Tab.,381;LF,
326;RRW, 126;SR,m,380.
Am .Mln.1980,.534-539;
RRW,128-127;str.Tab.,381;
1974,~,12771285;SR,~,
RRW,124;Pov.,397;Am.Mln.,
Am.Mln.1973.9,966(Abs.);
Sov.Phys.Crysl.,1974,1i,7071;LF 229HOlzel,228.
Can .Mln.1988,~.911-916;
HOtze! suppl .;LF,181.
Tab.,376;Ht)lzel,191 .
Am.Mln.,1989,1!,1368-1373;
HOlzel SUDDI..
Mln .Mag.1986 ,~,129-13S;
Htllzel,122.
423;SR,~,358;Pov.,390
;Str.
Sov.Phys.Crysl1977,22,419-
DIst.deriv .
Am .Min .,1967,~.1S85-1586
(Mg,Feh[sJ(Mo,Feho (Abs.) ;Pov.,414415;Str.Tab.,
OHh{1a:l}[SlaI02212chx 419; RRW,135-136;LF,208.
ANTHOPHYLLITE
K2'O<'A1t(OH,Fh
{2co}[(Si,A1)4'0'0](2)0
MUSCOVITE-2M
DlsI .deriv .
Mg 2OMnO
[ [012{g}[B lr031MT ]
PINAKIOLITE
SIY""'{2co}[ Fe203
(OH)] {2co}[Si2'oef
CHAPMANITE
\0
Cs(Mg,AIh(A1,Si)4
010(OH,F)2
CHEMICAL
FORMULA
(AI,LI)~2(Si,AI)4
COOKEITE
Ag2Au3TISb10S1O
CRIDDlEITE
CRONSTEDTITE -3R
CRONSTEDTITE -6R
CRONSTEDTITE -8R
CROSSITE
~(0H)2
(Ns,Cah
(Fe,Mg,A05(Si,A1)8
~(OH)4
Fe2"Fe~+(Si,Feh
F62'+Fe"(Si,Feh
05(OH)4
Fe2'+FeJ" (Si,Feh
05(0H)4
J'
CRONSTEDTITE - Fe2" Fe (Si,Feh
-1M
05(OH)4
Ba(Ce,Lah(COJh
F2
CORDYLITE (Ce
010(OH)B
CaCuAs04(OH)
CONICHALCITE
COBAlTAUSTINI- CSCOAS04(OH)
TE
CllNTONITE
NAME
Table 121
Hex.
P6Jcm
Mon.
Cm
Mon.
A21m...
Hex .
P6J/mmc
Tric .
C"1
Orth.
P212121
Orth.
P212121
Mon.
C2Im
SPACE
GROUP
floolrlSI
...
(Fe,Mg~~)l.
200(F e21+)OFel+3)O
(OH)4)200[(SI FehlOsl
2oo[Fe21+/OFe(+3)O
lOH).l200llSi FehlO.1
2oo[F e2(+)OFe(+JC
lOH).12ooflSiFehlO.1
(Na,Cah,Ol
Trig .
R3?
Trig.
?
Trig .
?
Mon.
C2Im
Mon.
(OH)4]200[(Si,Feh'o51 CC
2oo[Fe21+.)OFe'+/O
2oo[Fe2l+'/OFe'+/O
I051
(OH)4]200[(SI,Feh
l..,Kaollnlte)
2oo[F62I+ JCFe(+3)O
I051
(OHl4j:2oo[(SI,Feh
Ca'-'Co""'''(OH)
[As104)
(=Desclolzite)
Ca'-'Cu'UUJJ (OH)
[AsI04]
l=Desciolzite)
U(OH)2
AI 2
{200}[(SI,A1)4'o10]2.1
{200}[(AI,LI)3Q(OH)a]
l...chlorite)
Ca'O<'(Mg,Alh
(OH,F>2
{200}[(AI,SI)4'(10)(2.1) C
STRUCTURAL
FORMULA
POSITIONS
EQUIVALENT
Z=?
[3=9722'
Z=?
Z=?
[3=10431 '
Z=2
Z=?
s=9.56A.
c=63.85A
a=9.847A [3=103.60
b=17.905A Z=2
c=5 .316A
a=5.49A
b=9.51A
c=14.29A
s=5.49A.
c=21 .29A
?
a=5 .49A
b=9.51A
c=7.32.4.
a=5.49A
c=14.17A
a=20.Q15A [3=92.01
b=8.075A
Z=2
c=7.831A
ApBqCrD.Ex (eont.)
REFERENCES
Str.Tab.,458;Am.Mln .,1962,~,
Am . Min.,1962,~,781-783;
Acts Cryst.,1963.tl!,1-8.
Acts Cryst .,1963,.tl!,1-8.
H()lzel,41 .
~,1359-1365;Poy .,514-515;
SR,3,198-200;Am.Mln.,1971,
Am .Min.,1986,71 ,1194-1197;
Pov.,733 ,441;Am.Min.,1988,
73,365-375;str.Tsb. ,440;RRW,
138;LF,231.
781-783.
CS2LO'(Mg,Fe)5U(OH) RRW,153;Pov.,734;LF,208;Str.
{IClO}[SIBIOnj 2...
Tab.,419.
TREMOLITE
STRUCTURE TYPE
UI
Mn2(Fe,Mg)sSis022 Mnr(Fe,M~)5U(OHh
{loo)[SislOnl .ex
(OHh
Na21Mg(S04)lOCh
CaBSI0 4(OH)
MnAleS14017(OHh
(Na,Ca,K)s(SlsAls)
024(CI,S04,C03h3
NaAIC03(OHh
(K,Na)Ca2ShOs
(F,OH)
Fe4TbSb 13(OH)
PbZnV04(OH)
DANNEMORITE
D'ANSITE
DATOLITE
DAVREUXITE
DAVYNE
DAWSONITE
DENISOVITE
DERBVLITE
DESCLOIZITE
(3X>)(PbLtlaPJznlODYV
04(OH)]
(=Descloizite)
Fe4"TbUSb""
I013(OH)] eM
Orth.
Pnma
( or
P2 12 ,2 1
P21/m
Mon.
Mon .
?
(K,Na),oJCa2u
(1oo)[SbIOs(F,OH)]
(g}IClr~
Orth.
Imma
Hex.
P8J
P21/m
Mon.
P21/c
Mon.
Cub.
143d
NaUAIU(OHh
Ca'o,
(200)[Btslto4(OH)]
Cub.
P43n
!Fe4S I
(3X>}[SbIBe31012]
Be3Fe4(SI0 4hS
DANALITE
Mon.
C2Im
(Tet.)
Tric.
?
FePb:lSn4S~(S14]~
FePb:lSn4S~S'4
CVLINDRITE
Mon .
C2Im...
SPACE
GROUP
AgCu1.BPb1.2B1SS10
STRUCTURAL
FORMULA
AgOCU,.Sopb1.2Bi4o
Bi"'lIS1o] #
CHEMICAL
FORMULA
y=93.87
Z=?
Z=2
~=108.08
Z=1
Z=2
b=6.057A
c=9 .416A
a=7.59~
a=30.92A
b=7.20A
c=18.27A
a:7.160A
b=14 .347A
c=4.970A
Mn(2e)AI,~1(2e)
SR,m,249;Am.Mln.,1976,
m,396(Abs.);Pov.,313;Str.
Tab .,192;RRW,169.
Ada Cryst.,1979,m,717720;RRW, 169;Pov.,494-495;
Str.Tab., 323;LF,325.
Z=4
Z=2
Z=20
~=104.61
RRW,166;Str.Tab.,242;Pov.,
821622.
SR ,~,235-236;SR,W,419 ;
Can.Min., 1990,~,341349.
Str.Tab.,482;Pov.,349;Buli.
Min.;1968,21,34-42;RRW,166;
LF 300.
Am.Mln., 1985,ZQ,1329(Abs.);
HtlIzel,220;LF,213.
Zn(4b) Pb(4e)
V(4e) 0 ,(6<1)
01l'1II(4e)OH(4e)
A1 111.1V4f)
Si l.M2e) ...
CI(2b) Ca(2b)
Na(6e) K(6c)
SI(8e) A1(6e)
O .,vl6c)
Na(4d) AI(4b)
C(4e) 0,(4e)
01l(8h) 0 11I(80
H(81)
~=95
a=6.759A
Z=4
b=5.585A
c=10 .425A
a=9.518A
b=5.753A
e=12.04A
a=12 .70A
e=5.33A
1221SR.26 .453.
Am .Mln., 1973,~,90g..914;SR.
m,554-555;RRW,164;Pov.,
437;Str.Tab.,383;AdaCryst.,
1972 .628,326-327 .
Am.Mln.,1984,i!,783-787,777782;str.Tab.,519;HtlIzel,190.
Am .Mln.,1985,ZQ,186-192;
Htllzel,241 ;LF.285;RRW,163;
Pov.,380;str.Tab.,484.
Str.Tab.,418-417;HtlIzel,214;
Pov .,734;RRW,164.
MlnAbs.,76-3298;HtlIzel,24;
RRW,160;Mln.Abs.89M11644.
a=90o
to
Htllzel,38:
~=92.38
Am .Min.,1980,~,206(Abs.);
REFERENCES
~=94 ?
IN8.4Clj
IAh
(3X>)[Sh
12l
SOOALITE
ca2,OJ(Mg,Fe1.s0(OH)
(1oo)[SisI022l .ex
TREMOLITE
STRUCTURE TYPE
Z=4
S(2a) Be(6<I)
SI(6e) Fe(8e)
O(24i)
EQUIVALENT
POSmONS
a=9.53A
~=102015'
b=18 .10A
Z=2
..
c=5.326A
a=15.9132A Z=4
CI(12a)Na,(24d)
Nall(48e)
Nalll(16cL
a=4.832A
~=90 .400 SI(4e) Ca(4e)
B(4e) 0Lv(4e)
b=7.608A Z=4
c=9.638A
a=8.218A
a=13.45A
b=4.02A
c=33.06A
a=11.73A
b=5.79A
e=5.81A
ApBqCrD.Ex (cont.)
CUPROPAVONITE
NAME
Table 122
Ul
......
3Xl[NaPAloFAs 0 4)
1(ll<INafMo4.5
{g}[S112O:lOl
A127B4S1120es(OHh
NaAIAs04F
KNa2Mg~.5Si12030
CuPb4S04(OH)a
Na2LIFeSla015
NaBeSiJ07(OH)
(Mn,Fe)A1P0 4
(OH,Oh
Ca:pbZn4(SI04)4
CaFe(AISI)Oa
BeAISi04(0H)
DUMORTIERrTE
DURANGITE
EIFELrTE
ELYITE
EMELEUSITE
EPIDIDYMITE
ERNSTrTE
ESPERrTE
ESSENEITE
EUCLASE
AluBe'Si [04(OH)]
Ca'D'Feu
{1oo}[(AI,Slhtoa] ""
Orth.
Pnma
Na,OIBe (OH)
{100}[SiJI~]
P21/a
Mon.
Mon.
C2Ic
P21/n
Mon.
Mon.
A2Ja...
Orth.
Acam
P21/a
Mon.
Hex.
P6/mce
Mon.
C2Ic
Orth.
Pmcn
NaiolLI Feu
I015l
{100}[SIe
{3o<>}[Pb"JCu As
04(OH)]
(=DescIoizlte)
PbCuAsO~(OH)
DUFTrTE
[~Kel
Orth.
P2 12121
Cub.
Pm3m...
(I~h]
NauCnFe,Cuh~'
SPACE
GROUP
Mon.
P2 1/c
STRUCTURAL
FORMULA
...
EQUIVALENT
POSITIONS
a=4.763A ~=1()()o15'
b=14.29A Z=4
c=4.618A
a=14.248A P=100026'
b=5.76M Z=2
c=7.309A
a=10.072A Z=8
b=17.337A
c=14.004A
a=12.74A
Z=8
b=13.63A
c=7.33A
a=13.32A P=90022'
b=10.497A Z=8
c=6.969A
a=17.628A p=900
b=8.270A
Z=12
c=30.52A
a=9.79A P=10515'
b=8.22A
Z=4
c=5.37A
AI(4e) Be(4e)
SI(4e) 01.v(4e)
(SI,A~(8f)01.1II(8f)
(Ca,Fe)(4e)
(Fe,A1)(4e)
Nal(8f) Nall(8e)
U(Sd) Fe(8f)
SI,.III(16o) ...
Na(Sd) Be(Sd) SII
III(Sd) ...
a=6.53A
P=11513' Af(4a) As(4e)
Na(4e) F(4e)
b=8.46A
Z=4
c=7.ooA
OI-II(afl
a=10.137A Z-2
c=14.223A
UNITCELL DIMENSIONS
~BqCrD.Ex(cont)
3Xl[ Ca'flCa,oJCr'O~
KeNa(Fe,CubS26
CI
CHEMICAL
FORMULA
Ca2CrO~(I~h
DJERFISHERITE
DIETZEITE
NAME
Table 123
REFERENCES
SR.~,305;LF,324;Wyckoff,
Zeit .Krist.,1988,1..61O(Abs.);
Pov.,514-515;Str.Tab.,322;
RRW 180.
Can.Min., 1993,~,313-319;
Pov.,630;str.Tab.,230;RRW,
174;Pov.,630.
Sov.Phys.,1979,2!,683-685;
Am .Mln" 1979.~, 776-779;SR,
~.298;Pov.,226;LF, 131.
Ca'D'Mg
{1oo}[SI2tOal""
DIOPSIDE
U
SR,2Z,579-580;Pov.,387;str.
Tab.,373;RRW.199;~zel, 188.
Pov .,358;Str.Tab.,384;RRW,
197.
Am.Mln .,1987,Z2,148-156;LF,
205;HOlzel,212.
Am.Mln.,1965,~.117Q-1178;
494Pov.448-449.
Am.Min .,1971 ,~,637(Abs.);
SR,~,478-480;SR ,2!,493-
Zelt.KI1st.,1978,lli.297-306;
SR ,~,371 ;Min.Mag .,1978,
42.31-34.
Am .Mln.1970,~,1541-1549;
Am.Mln .,1984,i,566(Abs.);
Am.Mln.,1981.,218(Abs.);
H6Izel,210Pov..379-380.
Am .Mln.,1972.Z,364-367;
RRW,188;HOIzel.122.
!,213-215;Pov.,392-393;str.
Tab .,384;;Am.Mln.,1986,11,
786-794 .
3Xl[CaPMgOFP 0 4) , SB,.11Q-111;LF,276 ;Pov.,
514;Str.Tab.322,75;RRW, 182.
ISOKITE
STRUCTURE TYPE
VI
N
(Na,Ca)Fe
(Fe,Mn,Mgh(P04h
(Fe ,Mg)A12SbOs
(OH)4
(Na,Ca,Mnh
(Fe,Mn,MghAi
(P04h
Na2Ca(Mn ,Feh
(P04)s
(La,Ce) AI3(P0 4h
(OH)s
(Nd,Ce)AI3(P04n
(OH)6
MneV(Si04h
(OOHlR
FERRO-ACTINOUTE
FERROALLUAUDITE
FERROCARPHO
LITE
FERROWYLUEITE
FLORENCITE -(C.)
FLORENCITE -(La)
FLORENCITE -(Nd)
FRANCISCANITE
FILLOWITE
K(Fe,Mgh(Si,Fe)4
010(OHh
FERRI-ANNITE
Trig .
R!m
Trig .
R!m
Trig.
R!m
Trig.
P3
AboP2
[(La,Ce)Os(OH)sl
AI3o P2
f(Nd Ce)Os(OH)e]
Trig .
R!
Mon.
P21/n
Ceca
ortn,
Mon.
121/a
Mon.
C2Im
Trie.
P-1
Mon .
P21/e
AI3P2~CeOs(OH)s)
(Fe,Mg)"A12"(OH)4
{1oo)[Si210sl
KNaFeSi4010
FENAKSITE
K' O<'(Fe,Mgh"(OHl,&,
(200}[(Si,Fe)4101al(
K2CU30(S04h
FEDOTOVITE
Olth.
Pbam
Ca2(Mg,MnhB407
(OH)6
Trig.
R!m
SPACE
GROUP
FEDOROVSKITE
STRUCTURAL
FORMULA
(Th,Pb)1-,A13
(P04,Si04h(OH)s
CHEMICAl
FORMULA
Z=4
a=8.96A
b=13.15A
c=8.15A
a=19 .06A
b=9.47A
c=14.18A
a=6.98A
b=8.24A
c=9.98A
EQUIVAlENT
POSITIONS
c=16.36A
Z=3
a=6.987A Z=3
c=16.248A
a=1
Z=3
c=1
Z=1
a=8.14~
c=4.804A
a=6.974~
Z=8
~=112 .36
Z=1
a=6.99A
e=16.70A
ApBqCrO.Ex (cont.)
EYELEITERSITE
NAME
Table 124
u(F,OHh
K'0<'Mg3
{200}[(Sb,AI)'o10) (2s~
PHLOGOPITE
C a2,u'(Mg,Fe)sU(0H)
t0221 2CX
{1oo}[Sia
TREMOLITE
STRUCTURE TYPE
REFERENCES
Am.Min.,1986,I1.1522-1526;
Hlllzel190.
144.
Am .Mln., 1981,,827-642;
RRW,214;KIB,1 07-108;Pov .,
536;Str.Tap.,311.
RRW,216;Str.Tab.,326;Pov.,
543;LF,311 ;Can.Min.,1980,18,
301311.
H6Izel ,155;Am.Mln.,1996,81,
1263-1269.
H6lzel, 155;Ene.Min .Nam.,104.
Mag.,1979,~,227-235;H()lzel,
Am .Min., 1974,~,280290;Min .
H6Izel,144;Str.Tab.,310;Pov.,
538.
SR,ZQ,406-408;LF,207;RRW,
211 ;H6Izel,214.
Am.Min.,1965,~,713-717;
Am.Min., 1982,Z,1179-1194;
LF,231 ;Aeta Cryst .,1964,11,
1369-1373H6lzeI228.
Zeit. Krist.,1971,m,273-300;
L:F,208;H6Izel,214 .
1960,~,252-253(Abs.) .
Am.Mln., 1990,~,240(Abs.);
H61zelsuppl..
Am.Min.,1974,.i,208(Abs.) ;
H6lzel, 15~;Am.Min., 1972,~,
98-105 .
Am .Min., 1977,~, 173(Abs.);
Holzel,115.
\oN
VI
8a2TIO(ShOr)
(Mn,Fe)Fe.(p04l3
(OH)5
PbFeAsO.(OH)
FRESNOITE
FRONDELITE
GABRIELSONITE
GADOLINITE -(C8)
P2,/a
Mon.
Olth .
P2,ma
Hex.
P3
Mon.
P2,/c
Mn2,OJ(SI.O,2h
(OHho
Na2(8e,Ll)(Zr,Znh
(PO.).
Na,5(SO.l5CIF.
8a2(Fe,Mn)(V0.h
(OH)
Ca5PbgMnSig 033
PbaO(~05hCI6
GAGEITE-2M
GAiNESITE
GAMAGARITE
GANOMALITE
GE8HARDITE
GALEITE
Mn2,OJ(Si.0,2h
(OHho
GAGEITE - 1Tc
Na:z{300}[(Zr,Znh
(8e,Ll)!f:i.'o'Rl
Mon.
P21/m
141/amd
Trig.
P31m
Tet.
Mon.
P2In
Mn210{1co}[Sla~7
(OHho]
Tric.
P'1
Mn21o{1co}[Si8 ~7
(OHho]
P2,/a
882FeY2SI20,0
(300}[PlYaIlPIFel"l'l'IAs
O.(OH)]
(Dist.der.Descloizite'
1OJ
(ce/La/Nd,Y)rFe
8e2 SI2[010]
(::oMelllite)
Olth.
822,2
Tet.
P4bm
8a2la J
200}( T1~[Sh'o7]
Olth.
Pbam...
SPACE
GROUP
Mg2"(Mn,Fe)"
[ [O]:z{gHBtr~tT.]
STRUCTURAL
FORMULA
Z=2
a=e.724A
b=11.20A
c=34.19A
P=85.2"
Z=2
c=13.955A
Z=3
a=9.15A
fl=112 .7"
b=6.17A
Z=2
c=7.88A
a=9.82A
Z=1
c=10.13A
a=12 .197~
a=13.89A Z=4
b=17.01A
c=5.21A
a=7.86A
Z=4
b=5.98A
c=8.62A
a=4.82A
p=90"28'
b=7.58A
Z=2
c=10.01A
a=10.00A
P=9031"
b=7.585A Z=2
c=4.768A
a=14.17A cx=76.S"
b=14.07A P=76.6"
c=9.84A
y=86.9"
Z=1
a=19.42A P=89"30'
b=19.42A Z=2
c=9.84A
a=6.587A Z=2
c=17.119A
a=8.518A
c=5.211A
a=9.18A
Z=4
b=12.555A
c=2.954A
ApBqCrD.Ex (cont.)
GADOLINITE -(Y)
Sh O,o
Mg2(Mn.Fe)02
(803)
CHEMICAL
FORMULA
FREDRIKSSONITE
NAME
Table 125
8e(4b) Zr(4b)
... (oce.v.)
CI1(1q) Clu(2b)
F 1.rv(3c)...
Y(4e) 8e(4e)
F(2a) SI(4e)
0;.vC4e)
Ba(4c)T1(2a)
SI(4c)01(2b)
01l(4C)01ll(Bd)
ONl2a)
EQUIVALENT
POSITIONS
Dlst.deriv.
(Mg.Feh, o{1co}[Sial
027(0H)2Ol
8ALANGEROITE
0{1CO}[Sia
(Mg,Feh1
027(OHhol
8ALANGEROITE
Dist.deriv .
Mg20MnO
[[0]:z{g}{at'0 3r-r..]
PINAKIOLITE
STRUCTURE TYPE
H5Izel,203;Pov .,401;str.Tab.,
396.
Am .Min.,1965,ZQ,215(Abs.);
H51zel,92.
Min.Mag . ,198S,~,579-582;
Pov.,497;str.Tab.339;HOIzel,
154.
Am.Min. ,1984,~,803-806;
Am.Mln .,1987,1.2,382-391;
HOlzel,230;Am.Min.,1969,M,
100>1017.
Am .Min.,1983,..1022-1028;
HOlze1142.
Mln.Mag.,1975.~,3S7361 ;
SR,~,341 ;Pov.,586,S84;str.
Tab.278.
Am .Min.,1987,12,382-391 ;
HOlzel,230;Am.Mln.1969,M,
100>1017.
~,948-953.
Pov.,446447;str.Tab.,383;
RRW.226 .
SOY. Phys.Cryst.,1960,~ ,300314;SR .2.a.470;Am.Mln.,1984.
Am.Min .,1978,~,188195;
443;RRW,222;Pov.,449;Am.
Min .,1965,.50,314-340;LF 189.
HOlzel,150;RRW.224;Pov.738
544;str.Tab.,319.
SR,~,432-433;SR,~.442
Zeit .Krist.,1969,m,438-448;
Am .Mln.,1986,Z1,227-232;
HOlzel.11.1 ;LF,181.
REFERENCES
VI
AgPbT~
Na9(103)(S04)4
HATCHITE
HECTORFLORESITE
HECTORITE
Ca2P~(As04hCI
Tric.
P'1
P~(UO:v(As04h
HAL.L1MONDITE
HEDYPHANE
Tric .
P'1
GRANDIDIERITE
[012CII,T.
P~"Cal~
u(Mg,LlhU
SltSI 1
(...Andalusite)
{300}~g,Fe)IOCYJAI30
-rr
(Ca,Na)eTi(Si2o,h
(F,OH,O)4
GOTZENITE
(Ca,Na)e
(F,OHO)4
1
{g}[SI 2O,h
(Sr,CahAl(P04h
(OH)
GOEDKENITE
Hex.
P6:l/m
Mon .
C2Im
P21/a
Mon .
Orth .
Pbnm
Tric.
P'1
P21/m
Mon .
(K,Na)(Fe,Al,Mgh
(Si,AlhOlO(OH)2
GLAUCONITE
Tric.
P'1
Cub.
P43n
SPACE
GROUP
GERDTREMMEU- (In,Fe)(Al,FehAs
TE
04(OH)5
!Zn4S I,
{300}[Si3ISe3tc 121
STRUCTURAL
FORMULA
Mon.
P21/c
CHEMICAL
FORMULA
Se~n4(SI04hS
a=900
13=101.05'
y=101.31
Z=1
Z=4
13=113.7
Z=2
a=98.78
(3=100.80'
y=78.73
Z=2
13",100
Z=2
13=102.68'
Z=1
Z=2
b=9.18A
c=10.oA
a=10.140A Z=2
c=7.185A
I3".ggo
Z=2?
a=5.25~
b=10.99A
c=5.75A
a=7.123A
a=100"34
b=10.469A 13=9448'
c=6.844A y=9116'
Z=2
a=9.22A
a=66025'
b=7.84A
13=6517'
c=8.06A
y=7454'
Z=2
a=18.775A 13=108.91'
b=6.9356A Z=4
c=14.239A
a=10.34~
a=8.45A
b=5.74A
c=7.26A
a=9.667A
b=5.731A
c=7.334A
a=5.25A
b=9.09A
c=10.03A
a=13.803A
b=7.910A
c=10.812A
a=5.169A
b=13.038A
c=4.931A
a=8.1493A
ApBqCrD.Ex (cont.)
GEORGIADESITE PbI6(As04)4CI14
(OH)e
GENTHEL.VITE
NAME
Table 126
Ca(4f) Pb(6h)
As(6h) 01-1I(6h)
CI(2b)
(pb, T1)1~1(21)
Ag(21)As'.1I(21)
SI-v(2i)
(Mg,Fe)(4c)
Ah(4a) AIII(4b)
AI III(4c) ...
Ca'.1II(2i)Na(1 b)
Ti(1 b) Sil~,(2J)
01_1)(2i)
Se(6d) Si(6c)
S(2a) Zn(8e)
0(241)
EQUIVALENT
POSITIONS
REFERENCES
Am .Min.,1985,ZQ,186-192;
RRW,233;Pov.,360;str.Tab.,
484;H()Izel,241 ;LF,285.
Min.Mag.,1983,ll,219-220;
H()Izel,157;Pov.,511;Str.Tab.,
329.
Am.Min.,1986,11.845(Abs.);
H6Izel suppl ..
[012(OH)I,T.
CESANITE
NalCal~
Am .Min.,1984,Oi,92Q.927;
RRW,264;LF,165;H6Izel,157.
H61zel,231 ;RRW,263;PoY.,446;
Str.Tab.,446;LF ,232.
Am .Min.,1989,74,1207-1214;
H61zel suppl..
Zelt.Krist.,1967 ,m,249-265;
SR,~,23O-231 ;Pov.,236;Str.
Tab .,142;RRW,261.
Dist.deriv.
POY.,442;Str.Tab.,437;RRW,
l(I12IAl2o(OH,Fh
239;H6Izel,239;LF,229.
{2<xl}[(Si,AI)4tc 10 B)c
MUSCOVlTE-2M 1.
Am.Min.,1975,Q,957-964;BlK,
160;H6Izel,154 .
STRUCTURE TYPE
!N a4CI]
1A
{300}[Sh I3tc 12]
SODALITE
Vl
Vl
I.
SPACE
Cub .
P43n
GROUP
Cub.
1a!d
Pl).;F8204(V04h
Ca~12
HEYITE
HIBSCHITE
Ca3uuAbU(OH)'2Si3
[0,21-
Mne(C03h(0H)7
(CI,OH)
(AI,Ta)r(Si,SbhB
015(0.OHh.25
CS2(Fe,Mg)B2Sb
0'0
HOLDAWAYITE
HOLTITE
HOMILITE
Olth.
Pnma
Mon.
C2Im
Mon.
P2,/a
Mon.
P2,/a
Mon.
P2,/c
(y,Ce)LDIBe SI
[04(OH)1
(=Datolite)
Be(yb,Y)Si0 4(OH) (yb,y)LDJBe SI
HINGGANITE -(Vb)
[04(OH)1
(=Datolite)
HODGKINSONITE Zn2MnSI04(OHh
Mn"Zn2 SI104(OHh!"
Si04),(OH)4h
Mon.
P2,/m
CaBeP04(F,OH)
HERDERITE
Mon .
P2,/n
{300}[ CuOF82(OHh
(g}[Pto4h I
CUFe2(P04h(OHh
HENTSCHEUTE
Tet.
14,/aOO
Ca2LDI{300H{g}[CulQ
Tric.
(OH)4J(looHB2'(OH)eD P'1
(300}[Sh'B~to'21
I Mn4S
STRUCTURAL
FORMULA
Ca3DD(Mn,AlhDSb'
(OH)'2[0'21-
Ca2Cu(B(OH)4h
(0H)4
CHEMICAL
FORMULA
B~Mn4(SI04hS
a=4.7881A
b=7.6757A
c=4 .7301A
a=9.888A
b=7.607A
c=4.740A
a=8.171A
b=5.316A
c=11 .761A
a=23.437 A
b=3.3137A
c=16.618A
a=4.691A
b=11.898A
c=20.383A
a=9.788A
b=7.821A
c=4.776A
Ca3uuAI2USb'(0H)'2
[0,21HIBSCHITE
Dist .derlv.
Ca3doAI2Sb'(0H),2
[0'21HIBSCHITE
{300}[ (Mg.Fe)oAl2o
(OHh{g}[P 0412 I
LAZULITE
INa4CI]
(300}[Si3'Ahto,21
SODALITE
STRUCTURE TYPE
Z=4
~=90.45D
(Yb,y)(4e)
Be(4e) SI(4e)
01-IV(4e)
DZn2
Mn(4e) ZnIJI(4e) Mn
Si104(0H)21
~=9515'
SI(4e) 01.vt(4e) HODGKINSONITE
Z=4
H I.II(4e)
~=111.15' Mnl.vt(41) CIII(41)
01.xlII(4i) CI1(2a)
Z=4
CIII(2c)(v.occ.)...
Z=4
AI1(4c) AIII.IV(ed)
SII(4c) SIII(8d)
(v.oce.L
P=90.81 Ca(4e) Fe(2a)
SI(4e) 8(4e)
Z=2
OIJvC4e)
~=90.17
Z=2
Z=2
EQUIVALENT
POSITIONS
Be(ed) SI(6c)
S(2a) 0(241)
Mn(8e)
a=5.78171\<1=109.811 Cu(1a) Ca(21)
b=7.9774A ~=91 .473 H1v l(21) B(2i)
c=5.8488A y=85.eaeo 0'.vt(2i)
Z=1
a=12.391\ Z=8
Cal(16c)Call(8b)
(Mn,Al)(18e)
c=11.91A
Si(18e)
O,JII(320)
a=6.984A
p=117 .68 Cu(2a) Fe(4e)
P(4e) 01.y(4e)
b=7.788A
Z=2
c=7 .286A
a=9.789A ~=90.02" Ca(4e) Be(4e)
P(4e) Q.w(4e)
b=7.661A Z=4
(OH)(4eJ
c=4.804A
a=8.910A ~=11153'
b=6.017A
Z=1
c=7.734A
a=12.358A Z=8
a=8.2941\
ApBqCrD.Ex (cont.)
HENRITERMIERI- Ca3(Mn,Alh
TE
( (SI04).(OH)4h
HENMIUTE
HELVITE
NAME
Table 127
REFERENCES
Min.Mag.,1989 ,~,457-463 ;
Am.Min.,1985,l.Q,873;Pov .,
741;str.Tab. ,369;RRW ,273274HOlzeI188.
Am .Mln.,1988,Ia,441-442;
Hl)Izel suppl..
273;~lzel ,155.
RRW,289;SR,MA.387-368;
Pov.,382;Str.Tab.,370 .
Am .Min. ,1989,~,1739(Abs.);
Am .Mln. ,1988,Z1,1234-1239;
Hl)Izel,113.
~,368;Pov.,360.
Am .Min.,1985,ZQ.186-192;Acts
Cl)'st.,19Z2,~, 114-117;SR,
Vl
0\
Ca2BsSi09(OH) s
BaCe(C0 3hF
HOWLITE
HUANGHOITE - (Ce)
300[
Ca2lOIBslf"Si 0 9
(OH)s]
Na "J(Fe,Mg,AI)12
(0,OH)1O
lO
{1oo}[Si a 17h
STRUCTURAL
FORMULA
ISO KITE
KCa 4(La,Ce,Thh
Si ,a0 4O
CaMg (P0 4)F
Fe(Pb,Ag)4Sn4S~
S1S
INCAITE
IRAQITE - (La)
Mon.
Fe(Pb,Ag)4Sn4S~
[S15I #
Na12Ca3Fe2Si,2036
IMANDRITE
3oO[CaPMgOFP 0 4]
(Subs.der.Titanite)
Tet.
P4/mcc
Mon.
C2Ie
Orth .
Pnnm ...
Trie.
P'1
Y2 'UI~g}[C" 03]
{g}[S i04]
Y2(Si0 4)(C0 3)
IIMORIITE - (Y)
Mon .
P2 ,/a
CaBeP0 4(OH)
HYDROXYL HERDERITE
STRUCTURE TYPE
3oO[CaPMgOFP 0 4]
ISOKITE
(Fe,Mg,Sn)(1 a) Mg2OMn
(1g)(1d)(1f)(2n) [[O:z) {gMBlr03]] ,oT
B(2m) 0 1_1I1 (2m) PINAKIOLITE
O,v_v(2n)
I_
Caj.II(4e) Si(4e)
B v(4e) H .v(4e)
01_xlv(4e)
Na(1a)
(Fe,Mg ,AI)I.vl(2i)
Sil_vl(2i) ...
Cu(2i) V1_1II(2i)
Fel_II(2Q...
EQUIVALENT
POSITIO NS
Ca(4e) Be(4e)
P(4e) 0 1_lv(4e)
(OH)(4 e)
a =116. 364 Y 1_1I(2 i) Si(2i)
13=92.556' C(2i) 01.vlI(2i)
y=95.506"
Z=2
a-7.426A
Z=1
b=10 .546A
e=10.331A
a=86 .23A
13=90.28
b=5 .79A
c=34 .98A
a=258 .7A
13'=90.28"
b=3 .66A
e=69.85A
a=7 .61A
Z=1
e=14.72A
a-6.52A
13=12128'
b=8.75A
Z=4
c=7 .51A
aR=7.00A
a= 61 39'
ZR=1
13=90.020
Z=4
a=7 .35A
e=17 .01A
Z=3
a=9.789A
b=7 .661A
e=4.804A
a=6.5495A
b=6 .6291A
e=6.4395A
Trig.
A3m
(H30 ){2oo}[Fe30S2
Oa(OH)a)]
(",Alunite)
Ca lOJBe'P'[04(OH)]
(=Datolite)
(H30 )Fe3(S0 4h
(OH) a
Mon.
P2Im
Trig .
R3m
Mon.
P2 ,/e
T rie.
P1...
T rie.
P'1
SPACE
GROUP
ApBqCrO.E x (cent.)
HYDRONIUM
JAROSITE
Fe,Mgh(Fe,Sn,Mg) (Fe,MghO(Fe,Sn,Mg)
[ [0 2] {g}[BlrOJl ]'oT
0 2(BOJ>
Na(Fe,Mg ,AI)12
(Sia0 17h(0,OH) 1O
HOWIEITE
HULSITE
CHEMICAL
FORMULA
HOWARDEVANSITE
NAME
Table 128
REFERENCES
Am .Min.,1975 ,60,486(Abs.).
K1S,79.
Am .Min.,1980 ,65,81O(Abs.).
Am .Min .,1988,ll,1138-1144;
Am .Min .,1970 ,55,716-728;
Pov . ,489-490 ;SR ,~,481 "483.
MinAbs. ,85M13834;Am .Min.,
1963,48,1179(Abs .);Pov .,616 ;
Str.Tab .,243;RRW,281.
Am .Min .,1976,61 ,116-122 ;Sov.
Phys .Cryst .,1975,20 ,89-90 ;
Pov .,467-468;Str.Tab. ,252;
LF 183.
Pov .,742 ,587-588;RRW,290291 ;Min.Abs.,162,15,364 .
Am .Min.,1968 ,73,181-196 ;
Holzel ,145.
Vl
-..J
NaCu(Mg,Znh
(AS04h
Na2Ca(Fe,Mg,Mnh
(P04)6
(Ca,KhFe" Fe""Sh
(O,OH)'4
(Ca,KhFe~Fe~
(00H)14
Ca2(SIAh)Os(OHh
Mg7(B~h(OH)4
JASMUNDITE
JOHIUERITE
JOHNSOMERVILLEITE
JULGOLDITE -(Fe2+)
JU~~OLDITE -(Fe
KAMAISHILITE
KARLITE
Trig.
R3m
NasIUIMnl"l (300}(TjO
{g} [Sla'o1a)
(AOlovozel1te)
NalO"1
(3cX>}(ZfS~IOa(OH)]
Na6MnTISle016
NsZrSi:P6(OH)
KAZAKOVITE
KELDYSHITE
Too.
P'1
Mon.
C2Jm
Mn5oS~oMn6At.Sh
Mn13A14S~SI202a
KATOPTRITE
[02af"'h
Cub.
la3d
(OH)'2
[012r
Ca3~AhuSh
Ca3A12
(Si04,(OH)4h
Mon.
(?)
Tet.
?
Olth.
P212,2,
Trig.
R (?)
Mon.
A2Jm
Mon.
C2Jc
Tet.
14m2
Trig.
R3m
1(1"'"01
0S2
:zoo}[Fe3 10a(OH)6)
. (=Alunlte)
Trlc.
P'1
Hex.
P'62c
SPACE
GROUP
Ba''''
(3cX>}[Ah0(P04h
OH)21
STRUCTURAL
FORMULA
Z=4 ?
Z=8
Z=4
Z=4
a=5.617A ~=101023'
b=23.o2A
Z=2
c=9.079A
a=10.18A aR=7.30A
c=13.06A
a=8815'
Z=3
ZR=1
a=920
a=9.0A
b=5.34A
~=116
c=6.96A
y=88
Z=2
c=8.770A
a=17.929A
b=17.600A
c=3.102A
a=12.358A
a=8 .850~
Si(Bg) S(2a)
Cal.II(8i) Call1(4f)
Ca,v(2c)....
Ba(1a) AI(2i)
P(21) 01.,v(2i)
(OH)(2i)
[0 12)HIBSCHITE
Min .,1958,~,387(Abs.);Pov . ,
1494-1500;Str,Tab.,377;Pov.390
Am.Min.,197MQ,161-162
(Abs.);Min.Abs.,8Q-2849; Htllzel,
207.
Mln.Abs.,79-21O4,217;Am.Mln .,
1962 ,~,1216(Abs .);Pov .,363364 ;Am .Mln .,1970,~,1 0721073(Abs .);Htllzel ,198.
Abs.,76-3602;Am.Mln .,1966,~,
Am .Mln.,1985,7Q,873(Abs.);
LF,148;Am.Mln.,1991,Z,11531164.
Am.Mln.,1977,2,396(Abs);Min.
H/llzeI241 .
Am .Mln1981,M,872877;
Htllzel,112.
Am.Mln.,1982,~,855(Abs.);
2158.
Enc.Mln.Nam .,150.
Tab . ,399;Pov.,404-405;SR,~,
344 ;Am .Min.,1971 ,~,2157-
KlB 158H61zeI143.
Min.Mag .1973,~,271281 ;Str.
Mirr.Mag. ,1980,~.833-836;
SR,m,369;RRW,309 ;LF,311 ;
Pov. ,588;str.Tab .276
Can.Min.,1973,12,135-136;SR,
Am.Min . ,1974,~,291295 ;
Pbll~II(121) ...
REFERENCES
Am.Min .,1981,M,852-858;Am.
Ca3~AI2USh(0H)'2
STRUCTURE TYPE
Pb,(4f)
EQUIVALENT
POSITIONS
c=33.33A
a=8.528~
ApBqCrD.Ex (cont.)
KATOITE
CIO.4
Ca,,02(Si04)4S
JAROSITE
Si3
KFe3(SO~2(OH)6
JAGOWERITE
CHEMICAL
FORMULA
(Pb,Na,Ca)g
(Fe,Mg,Mnh
(SI,Fe,Pbh704'
(CI,OH),
BaAI2(P0 4h(OHh
JAGOITE
NAME
Table 129
Vl
00
N8e(Ca,Mn)(Fe,T~
KINOSHITAUTE
KLEBELSBERGITE
KOASHVITE
Na4Mg~14Ch2
Tl1o. ?
P'1 ?
(K,Nah(Mn,Feh
(K,Nah~Mn,Feho
(TI,NbhSls(O,OHhl (T1,Nbh
{200}[Sl sl(O OHh1]
KUPLETSKITE
(OHhF s
Trio.
P1
Tl1c.
P'1
(Y,Yb)~I(Sl04h
(=Aenlgmatite)
KULIOKITE M
[0 101
Mon.
C2Im
Olth.
Cmcm
Hex.
(R'3"m P'3"m1)
Mon .
C2Ic
NaMg2CrSI3010
Na~Mg2uC(,Sb
MgtA1eU(Si,AI,B)s
h
[021(OH)l
Na40MggOAI4
[CI12(OH)22re"
Olth.
Pmnb
Olth.
Pca2 1
Mon .
C2Im
Olth.
Fddd
Olth.
Pbcn
SPACE
GROUP
Pbl-VII(8f)
V(8t)
0 1. 111 (4e) ...
Mg1(Sg) Mg lI(4c)
AII~I(8e) SI(Sg)...
Ch~I(8t)
Sb l.w(4a) S(4a)
01_x(4a) H 1.II(4a)
Pb(8d) Mn,(4b)
Mnll(4c) Si(Sd)
O,(4c) Oll.vlsd)
EQUIVALENT
POSITIONS
a=8.961A. Z=4
b=11.018A
c=9.984A
a=5.740A Z=8
b=9.983A
c=23.980A
a=5.345A ~=99.99
b=9.250A
Z=2
c=10.258A
a=5.786A. Z=4
b=11.274A
c=14 .887A
a=10.179A Z=4
b=20.899A
c=7.335A
a=3.052A
a=4.072A
c=10.88A c=3x10 .88A
Z=?
Z=?
a=12.882A f}=118.11
b=22.586A Z=4
c=11.279A
a=18.041A Z=4
b=13.748A
c=8.715A
a=9.91A
f}=104.8
b=18.11A
Z=2
c=5 .30A
ApBqCrD.Ex (cant.)
KRINOVITE
KOZULITE
Mg~le(Si,AI,B)~21
KORNERUPINE
(OH)
Pb 140 9(V04hCI 4
(OH) 22
KOMBATITE
KOENENITE
SIe0 1e
CU3PbTe04(OH)e
1071
(g}[Sh
P~""Mn PMn'02
KHINITE
STRUCTURAL
FORMULA
KENTROLITE
NAME
CHEMICAL
FORMULA
P~Mn2(SI2~)~
Table 130
Ca' ,uJNa2'"'(Mg,Fe)s
(OHh
2cx
(loo}[(Si,A1)sto221 .
RICHTERITE
STRUCTURE TYPE
REFERENCES
Str.Tab.,432,RRW,335;Pov.,
744,452;HOlzel,224.
Am .Mln.,1988,n,192(Abs.);
HOlzel,192.
Zelt .Krist.,1989,m,133-138 ;
Am.Mln. , 1989,~,578(Abs.);
Str.Tab.,400;RRW,334.
(Abs.) ;LF,210;RRW,332.
Am .Mln .,1970,~,1815-1818
Zelt .Krist.,1988,m,7-22;Pov.,
857;SR,n6,277-278;HOlzel,
53.
Am.Mln.,1994,12,55Q-554;Am .
Min.,1988,n,928(Abs.);
HOlze1158.
Am .Min.,1989 ,.M,842-655 ;Mln.
Mag.,1998,Q,483-491 ;SR,
45A.372 .33A.492 .
Am .Mln.,1975,Q,488-489
(Abs.);Am.Mln.,1995 ,2,833840'HOlzel 229'LF 231.
Am.Mln .,1980, ,931935;SR,
~,35Q-351 ;Am .Mln. ,1980,
490-505.
Mln.Abs. ,81-2388;Am.Min.,
1975,fm,487(Abs.);HOlzel,208 .
HOlzel,122.
Am.Min .,197M~,1018-1019 ;
Am.Min.,1991 ,:m,1389-1399;
Pov.,400;Str.Tab.,398,78-77;
SR 27.714SR.27.714-715
VI
\D
Na2CsAI4(SI04).
L1eAI1.Mn21042
(OH).2
KNaCuSI.O lO
Na2Tb03(SI20e)
LISETITE
LITHIOPHORITE
LITIDIONITE
LORENZENITE
Trig .
R3"m
L1euAI1."Mn~f
KNa ,u'Cu,uJ
Na2" 'T12u0 3
{1oo}[Si2I0 61
{1oo}[SI/0,ol
Olth.
Pbcn
Trlc.
P'1
Orth.
Pbc2,
Na2,o'Ca,oJ
ISi.to
{300}[AI 4
1e]
[O.2(OH).2] rl)o
Mon.
P21/m
{1oo}[CuoSto4(OH)21
Pb'~UJ
Mon.
C2Ic
CuPbSO.(OHh
Mon.
C2Jc
L1NARITE
Mon.
C2Jm
LEPIDOLITE - 1M
Mon.
P2,/c
3oO[(Mg ,F~OAI2o
(OHh{g}[ 0.12)
(Subs.d .BarOOsalite)
(Mg,Fe)A12(PO.h
(OHh
LAZULITE
Orth.
Pcsb
SPACE
GROUP
Mon.
C2Jc
Na4"'(Ca,Mnt
{2ao}[SleI01.(OHh)
STRUCTURAL
FORMULA
Z=4
(Mg,Fe)(2a)
AI(4e) P(4e)
(OH)(4e)
O,"vl4e)
K(2b) (AI,U)(4h)
U(2c) (SI,A1)(8j)
01(41) 01l.1II(8J)
(OH)(41) '
K(4e) (L1,A1>J(81)
(LI,AI)u(4e)
Na(4e) AI(4a)
P(4e) 0 1.11(81)
F(4e)
EQUIVALENT
POSITIONS
REFERENCES
SR,~,434-435;Pov .,5;Mln.
POV., 545.
Acta Cryst.,1959,~,695-697 ;
Am.Mln .,1972,~,1914(Abs.) :
Am.Mln.,1985,ZQ,849-855:
Can,Mln.,1989,21,211-217;
Abs. ,87M13984;Pov.,587:Zeit.
Krist . 1998,213,141-150.
Am .Mln. ,1986 ,Z1,1378-1383:
Am .Min.,1986,Z1,1372-1377;
Htllzel240.
Am .Mln .,1994,1.i,370-374;Am
Mln.,1982,1,817-821 ;SR,1,
268-267'Pov.,328-329LF,153 .
Am.Mln.,1975,Q,471-474:SR,
m,386-387;Htllzel,227.
Cryst .,1961,~,747-753 ;
SR,~,451-452:LF ,316;Mln.
Acta
SR,~,317:Mln.Abs.,78-1488:
Am .Mln .,1981,~,1221-1232.
1981,,1221-1232.
578;SR,~,346;Am.Mln.,
Acta Cryst.,1973,m,573-
3oO[(Mg,F~OAI2o
(OHh{g}[ 0412)
LAZULITE
STRUCTURE TYPE
Dlst .deriv.
K[12JMg3(F,OHh
{2ao}{(Si3,AOto10](2I)o
(SI,AOI~I(8f)
01.v(8f)
PHLOGOPITE
a=5.209A ~=99 .125 K(4e) (L1,A1>J(81) Dlst.deriv.
t<l 12)Mg3(F,OHh
(L1,AJ)u(4d)
b=9.053A
Z=4
{2ao}{(Si3,A01010](2I>C
(SI,AOI~I(8f)
c=20.185A
0 1.v(8f)
PHLOGOPITE
(OH,F)(8f)
a=9.81A
~=104 .7 Pb(2e) Cu(2a)
S(2e) 01.1I(2e)
b=5.65A
Z=2
0 11I(41)
c=4.70A
(OH)I~II(2e)
a=8.260A. Z=4
Nal.II(4a) Ca(4a)
b=17 .086A
(AI,SOI.VlII(4a)
c=9 .654A
01.)(VI(4a)
Mn(3a) ...
a=2.9247~ Z=?
LieuAI14"Mn~u
c=28 .169A
(for (A1,U)Mn02 [O.2(OH).21 rl)o
(OHi,)
LITHIOPHORITE
a=9.80A
a=114.12 K(2Q Na(2i)
b=8.01A
P=99.52" Cu(21) SII~21)
c=6.97A
y=105.59 0 1.x(21)
Z=2
Na(6d) TI(6d)
a=8.7128A Z=4
b=5.2327A
SI(6d) 0 1(40)
01l:v(6d)
c=14 .487A
Z=2
~=99 .28
Z=2
~=120"40'
~=9go35'
a=9.04A
b=5.22A
Z=4
c=20 .210A
a=5 .20A
b=9.01A
c=10 .09A
a=7.16A
b=7.26A
c=7 .24A
b=15.878A
c=9.058A
a=6.414A
~=115.47
b=8.207A Z=4
c=6.885A
a=10.213~
ApBqCrO.Ex (cont.)
3oO[(Na,L1)pAlo
(F,OH)P!Q.)
(Na,L1)A1PO.
(F,OH)
(OHh
CHEMICAL
FORMULA
Na.(Ca,Mn)S~l.
LACROIXITE
KVANEFJELDITE
NAME
Table 131
0\
Ca4(Si,A1h2024
(C0 3)
01e(OH)
(Mn,Ca)e(V,As)SI~
(OH)eCI2
(Mn,Fe)eSieOl~
MELANOTEKITE
Pb2Fe202(Si207)
Pb2,u'Fe"Fe 02
I
(g}(SI2OrI
i;'Kentrolite)
(~ariallte)
Car{g}(C"0 3)
(300}(SI,AI)4toah
(Mg,MnhOzn~As
(04(OH,O)&1
(Mg,Mn)~n2As04
(OH,O)&
MEIONITE
MEDAITE
MCGILUTE
MAWBYITE
MAGNESIUM-CHLOROPHOENICITE
MASUTOMILITE
MAGNESIOHULSITE
MAGNESIOCARPHOLITE
STRUCTURAl
FORMULA
(K,BahTI4U(Si,A1)6
i0 14(OH),2i
Mg2UFeU[[0f,
{g} [BtrOJl'" a'l
Na""{200}[Mn
(Mg,FehOP310 ,21
(Defect A1luaudite)
(Mg,Fe)(AI,FehSb (Mg,Fe)O(A1,Feh
0&(OH)4
.(OH)4{loo}(SbI061
(=Carphollte)
(Mg ,Feh
(Fe,Sn,Mg)02
(B03)
MAGHAGENDOR- Na(Mg,FehMn
FITE
(P04h
NAME
CHEMICAl
FORMULA
LOURENSWALSI- (K,BahTi4(S1,A1)&
TE
0,4(OH),2
LUDWIGITE
Mg2Fe02(B03)
Table 132
Orth .
Pbcn
Tat.
P42/nbc
P42/n
Tet.
P2,/n
Mon .
C2Im
Mon.
Mon .
C2Im
Mon .
Cm ...
Mon.
C2Im
Mon.
Orth .
Ceca
Mon .
Orth.
Pbam
SPACE
GROUP
Hex.
Z=1
Pbl~I(Bd) Fel(4b)
Fen(4c) SI(Bd)...
71RRW368.
Am .Mln.,1991,1,1389-1399;
Pov.,748,743 ,400;Str.Tab.,396
,76-17RRW ,389;SR,27,714.
Mln .,1963,~,854-867;H61zel,
Am.Min.,1972,~,179-796;Am.
Str.Tab.,4S4;Pov.,348;LF,284.
2026;SR ,~,347;RRW,388 ;
Acta Cryst.,1973,m,2024-
Am .Mln.,1989,M, 1317-1381 ;
H61zelsuppl ..
~=11434 '
Z=2
H6Izel,228.
RRW,374 ;Str.Tab.,321;H6Izel,
152.
H61zel,111.
Am.Mln.,1988,~,929(Abs .);
Mln.Mag .,1979,~,227235;
Am.Mln.,1917,~,594(Abs.) ;
a=6.961A
Z=4
b=11.018A
c=9.964A
c=13.37A
a=26.8~
REFERENCES
Min.Mag.,1987 ,~,4 1 7425 ;
H61ze1200.
Wyckoff,1964,2,521522;LF,
183;RRW,367;Pov.,467-468;
Str.Tab.,252,56;SR,11,353355.
~= 100.15
Mnl_vl(4e) V(4e)
Si l_v(4e)
01.XJx(4e) ...
Ca(8g) C(2a)
SIJ.ln(Bg)
OI.V1I(Bg)
...
STRUCTURE TYPE
Mg 1(2b)Mgn(2c) Mg2UFeU[[0f,
MglII(4h) Fe(4g) {g} (Btr031'" a"]
LUDWlGITE
EQUIVALENT
POSmoNS
Z=2
Z=8
Z=4
Z=1
~=95 .40
a=6.712A
b=28.948A Z=4
c=7.578A
a=12.194A Z=2
c=7.557A
a=5.253A
b=9.085A
c=10.107A
a=9.052A
b=6.217A
c=7.580A
a=13.714A
b=20 .079A
c=5 .105A
a=5.244A
c=20.49A
a=9.14A
b=12 .45A
c=3.osA
ApBqCrD.E x (cant.)
0\
STRUCTURAL
FORMULA
MINASGERAISITE CaBe2Y2S12010
LiAlPO~(OH,F)
Pb(Cu,Zn)(VO~)
MONTEBRASITE
MOITRAMITE
(Na,YMZn,Feh
1TI Nb)601a(F,OH)~
K l1<JAl2(OH,F)2
KA I2(SI,A1)4010
(200}(Si,AI)~~10)(21)c
(OH,F)2
MURATAITE
MUSCOVITE - 2M
10 (OHh
(K,Na)A12(SI,AI)~
CaT e02(C03)
MROSEITE
Tric.
P'1
Olth.
Pnma
(200}[(SI,AI)4~IO) .I )c
(K,Na)I1<JAI2O(0~2
car!'lMC"0312
{g}[Te2 0'll
Mon.
?
Cub.
F43m
Mon.
C2Ic
Pbca
onn,
Pbca
YB(OH)~C~
MOYDITEM
3oO[PblOOPJ(Cu ,Zn)lODYJ
V04(0H)
C=Descloizlte)
PbFe2(VO~h<OHh
MUSCOVITE - 2M 1
P21/c
Mon.
P21/a
Mon.
Trig.
R'3"m
MOUNANAITE
(OH)
Pb(U O V(Te03h
MOCTEZUMITE
.(Y)
Ab gS21(Na,Ca,K)l1<1
Oa(OH)e!
(=A1unlte)
CalJyt'YlJBe2 Sh'
(0 10)
(Na,Ca,K)Ab(SO~h
MINAMIITE
(OH)6
Olth.
Pbmm ...
Cu 4FePbBi[Se) ..
Cu~FePbBiSe
MIHARAITE
Olth.
Pbam
SPACE
GROUP
Tric.
P1...
Ca
0(OH)
(200}[Fe2
l l 1{g}(P'0'll2
SrCa(V030H)2
CHEMICAL
FORMULA
CaF&.z(PO~h(OH)
~=90"16'
a=11e039
Z=4
r-102"46'
Z=2
a"'10.854A Z=2
b=11.985A
c=3 .871A
a=6.981A
c=33.490A
Z=6
a=9.833A ~=90.46
b=7.562A
Z=2
c=4.702A
a=7.813A ~=93.71
b=7.061A
Z=4
c=13.775A
a=6.713A a=91.31
b=7.708A ~=117.931
c=7.0194A r-91.77
Z=4
a=7 .685A Z=4
b=9.301A
c=6.02A
a=5.55A
a=1111'
b=7.66A
~=112"7'
c=5.56A Z=1 "1"'9409'
a=9.089A Z=8
b=12 .244A
c=8.926A
a=6.988A Z=8
b=11.201A
c=10.566A
a=14.886A
Z=8?
a=5.1988A ~=95. 782"
b=9.0266A Z=4
c=20 .1058A
a=9.542A
b=10 .834A
c=6.374A
a=7.343A
b=8.382A
c=5.117A
ApBqCrD.E x (cont.)
METADELRIOITE
MELONJOSEPHI
TE
NAME
Table 133
en
(Na,y)(24f)
Nb)(48h) .. .
K(4e) Sll-u(Sf)
AI(Sf) 01.v(8f)
(OH)(8f)
Y(8c) B(8c)
C(8c) 01.vu(8c)
U(4e) Pb(4e)
Tel.II(4e)
OI.vlII(4e)
LI(2x2I)
AI 1(2x1a)
Al u(2x1b)
P(2x2i) ...
AI(18h) SI.u(6c)
(Na,Ca,K)1(3a)..
Fel(4e)Fell(4g)
Ca(4g) P1{4h)
P IIC4Q)...
EQUIVALENT
POSITIONS
SR,W,360;Am.Min.,1975,Q,
946(Abs.);H6Izel,94.
566;Str.Tab.,229;RRW,411 .
Am.Mln.,1990,1,992-1008;
RRW,415-416;Pov.,750,530531;Str.Tab.,555;LF,278.
Min.,1965,~,1158-1163;Pov .,
Am .Mln.,1993,1,835-839;Am.
Am.Mln.,1986,11,603-807;
H6Izel,194;Pov.,446-447.
Am .Mln.,1982,1,114-119;LF,
311;H6Izel,123.
H6Izel,20;KlS,176.
Am.Mln.,1980,~,784-788;
1975,6.0:946CAbs.).
Am .Min., 1970,~, 185-200;
RRW,396;Pov.,499-S00;
H61zel,88.
Am.Min.,1977,~,60-66;RRW,
391 ;SR,~,255-256;Am.Min .,
REFERENCES
{300}( (LI,Na)IOJAl O
(F,OH) pI04)
AMBLYGONITE
STRUCTURE TYPE
0\
N
CHEMICAl
FORMULA
Na2Ca(PO~)F
Nal1"{200HAI30S2
OB(OH)e!
(=Alunlte)
Nail"J{200}(Fe30S2
OB(OH)e!
(=AJunlte)
3oo(Na,LOlo1AJo
(OH ,F)ptO~1
NaAh(SO~h(OH)B
NaFe3(SO~h(OH)B
(Na,LOAIPO~
NATROALUNfTE
NATROJAROSfTE
NATROMONTEBRASITE
NaB(Fe,Mn)AI4SiB
026
FePb4(As04hCI~
NAUJAKASfTE
NEALfTE
NATRONAMBULI- (Na,Li)Mn~Si50,~
TE
(OH)
(OH,F)
CalPbel~"
Ca~Pbe(SI207hCI2
NASONfTE
U(OH,Fh
CsAI2(SI,A1)~010
(OH ,Fh
NANPINGfTE
Trig.
R3m ...
Trie.
P'1
Hex.
Olth.
Cmma ...
SPACE
GROUP
{300}( Nae(Fe,Mn)'OYI
ISia
{loo}(AI4 t02BII
(OH){1ooHSi5t01~l
(Na,Li)I~~JMnr' I
T1
(021Chr
(",Apatite)
SIB
Trie.
P'1
Mon .
C2Jm
Trie.
P1...
Trie.
P'1
Trig.
R"3"m
Trig .
R3m
Hex.
P6J!m
~=9749 .5'
aR=6.835A
<1=63023'
ZR=1
<1=112"2.5'
y=687.5'
Z=2
a=7.620A <1=92.81A
b=11.762A ~=94.55A
c=6.737A y=106.87A
Z=2
a=15.025A ~=113"40'
b=7.991A
Z=2
e=10.486A
a=6.53A
<1=96.4"
b=10.23A
~=89 .5
c=5.588A
y=97.8"
Z=1
a=6.98A
e=16.70A
Z=3
a=7.327A
c=16.634A
Z=3
a=5.18kX
b=7.11kX
c=5.03kX
<1=92"46'
a=7.621A
b=11.761A ~=955'
e=6.731A y=10652'
Z=2
a=10.24A aFr'10.42A
c=25.76A <1=58050 '
Z=15
ZR=5
a=5.362A ~=95 .no
b=8.86A
Z=4
c=21.42A
a=10.08A
Z=2
e=13.27A
a=10.644A Z=16
b=24.423A
c=7.098A
ApBqCrD.Ea (cont.)
Cs' '''AI2
Mon.
{2oo}(SI,Al)~1010f")c C2Je
CaMg~(As03hF~
(Li,Na)'-JMn/"1J
{1oo}(SI5t01~(OH)1
(",Bablngtonlte)
STRUCTURAL
FORMULA
NANLINGITE
NAGELSCHMIDTI Ca7(SiO~h(P0~h
TE
NAMBULITE
(Li,Na)Mn~Si50,~
(OH)
NACAPHITE
NAME
Table 134
Pb(12i) Cal(4f)
Ca,,(2e) Ca",(2d
CI,(2a) CI,,(2b)
SI(120 0,~,,(12i)
OrA6h)
M 1.v(2i) SII.v(21)
0 ,.xv(21)
EQUIVALENT
POSmoNS
3oo(Li,Na)'U'Alo
(F,OH)P'o~1
AMBLYGONITE
MUSCOVITE - 2M,
{200}(SI,AJ)~10101(2 1!"
Kl<JAhU(OH,Fh
STRUCTURE TYPE
REFERENCES
Mln.Abs.,76-1417;Am.Mln.,
1968,~, 1780(Abs.) ;SR,!1A,
391; Pov.,437;Str.Tab.,401.
Am.Mln .,1994,Zi,391 (Abs.);
Min. Abs. ,81-3243 ;HOlzel,155.
Am. Min.,1967,12,224(Abs.);
HOlzel,222.
MlnAbs.,n1496;RRW,428;
Str.Tab.,276;Pov.,588 ;Am.Mln.
1958, ~,1205-1210 .
RRW,429;Pov.,53Q-531 ;
HOlzel,148;Str.Tab.,556,316.
Str .Tab.,276;Pov.,587-588;
RRW ,428;HOIzel.123.
~ ,171-174 .
SR,m,340;pov.,401-402;Str.
Tab.,396;Ada Cryst.,1987,
Am .Mln.,1971,~,1174-1179;
Am .Mln.,1990,ll,708-709
(Abs.);HOlzel suppl..
222.
Am .Mln.,19n,2,1058-1059
(Abs.);HOlzel,91 .
HOlzeI193 Str.Tab.273.
Acta Cryst. ,1975,~ ,2422
Am .Min ,1978,~,425(Abs.);
Am .Mln.,1981,lm,218(Abs.);
Am .Mln.,~991 ,Z,305(Abs.);
HOlze1157.
0\
(Mn,FehA5:lSh2
036(OH)17
Ca(Ni ,Zn)As04
(OH)
(Fe,Zn)4Sn2
(AI,Fe)15030(OHh
(Fe,Zn)~n2
NELENITE
NICKELAUSTINITE
NIGERITE - 24R
NIGERITE - 6H
FORMULA
STRUCTURAL
H2Na(Zn,Mgh
(As04h
P~(Se04)(S04)
O'DANIELITE
OLSACHERITE
Bip'4[S71#
(",Covellite)
3oO[H2NA(Zn,Mgh
10
(As 4hl
CuP~(Pb,Bi)Bi~7 Cu P~""'~J(pb,Bi)l""'J
NORTHUPITE
NORRISHITE
NUFFIELDITE
i~2(OH,>,loch
(K,Nah(Fe,Mn)a
(K,Nah{200}
(Nb,T1hSia(O,OHh1 [(Fe,Mn)ao(Nb,T1h
l(O,OHh11
Sia
CswAstroohvllite)
K l1'JLiOMn202
KLiMn2S14012
{2co}[SI 4I0 101(2I>C
(Subs . deriv.
Phlooooite)
Na3lCJMgOCI
Na3Mg(C03hCI
tr0312
(g}[C
(Fe,ZnhSnt
(AI,Fe)12~
{3co}[CalllllPJ
Ni,Zn)I6byIAsI04(OH)1
. C=Descloizlte)
(Fe,Zn)4 Sn2u
(AI,Fe)15~
cchocccll
[030(OHhl
{g}[P'o414
Na511ll'UJCa41~JF
NIOBOPHYLLITE
(AI,Fe)12022(OHh
Na 5Ca4(P04)4F
CHEMICAL
FORMULA
NEFEDOVITE
NAME
Table 135
Olth.
P22 12
Mon .
C2Ic
Olth.
Pbnm
Cub.
Fd3
Mon.
C2Im ...
Too.
PL.
P~m1...
Trig.
R~m
Trig.
P2 1212 1
orth ,
Mon.
C2Im
Tric
P1...
SPACE
GROUP
a=113.1
13=94.5
y=103.1
Z=1 ?
13=9B.Oo
Z=2
Z=3
a=14 .3B7A
b=21.011A
c=4.046A
a=12.113A
b=12.445A
c=6.793A
a=B.42A
b=10 .96A
c=7.ooA
Z=4
/3=112.B7'
Z=4
Z=4
a=14.069A Z=16
a=5.293A
b=B.936A
c=10 .077A
a=5.391A
b=11.BBA
c=11 .eeA
a=5.72A
c=13 .B6A
a=5.401A a=134.9go
b=11 .647A 13=90.04
c=16 .4B4A y=B9.96
Z=2
a=23.240A 13=105.21'
b=13.41BA Z=2
c=7.3B2A
Z=4
A=7 .455~
b=B.955A
c=5.916A
a=5.730A 8R=1B.B26A
c=55.60A a=17.50Bo
Z=3
ZR=1
ApBqCrD.Ex (cont.)
Na(4Bf) C(32e)
CI(16c) O(96g)
MaC16d)
Cu(4c) SI.vlI(4c)
(Pb,BI)I.y(4c)
Sn(2c)
(AI,Feli(6h)
(AI,Fe)II.III(2c)
(AI,Fe)N(3d)
(AI,Fe)Y(3e) .:.')
(rtlomb.descr.
...
Ca(4a) Ni(4a)
As(4a) 01.y(4a)
EQUIVALENT
POSITIONS
I(IUtIOMn2"~
STRUCTURE TYPE
Am.Min.,1972,.Z,319;Pov.,254
Mln.Abs.,B9-165B;Am.Min.,
19B1,,1276 (Abs.);H6Izel,
144.
Am.Min.,1969,M,1519-1527;
Pov.,575;RRW,447.
Am.Min.,1974,~,633(Abs .) ;
SR,m,291;8B,2,Bo-B1 ;Pov.,
617 ;8tr.Tab.,242;RRW,442443 'H6Izel 101.
Zeit.Krist.,1973,m,343-365;
Am.Min.,19B9,:M,1360-1367;
H6IzeI5uppl.;LF,231.
Am.Mln.,1979,M,1255-1264;
RRW,436;Pov.,2B1-2B2;
H61ze165.
RRW,437-43B;Str.Tab.,432;
Pov .,452;H6Izel,224.
Tab.,1B6.
~,223;Pov.,2B1-2B2;str.
Am .Mln.,1979,M,1255-1264;
Am .Min.,1967,2,B64-B66;SR,
H6Izel,236 .
Min.Mag.,1984,~,271-275;
Am .Min.,1984,i,B12-B13
(Abs.);Mln.Abs.,B9M14119;
H61zel,157.
REFERENCES
0\
.,.
K(Fe,Mgh(AI,Feh
(Si,AI)120 3Q
OSUMILITE
CaZrBAlsO'6
NaCa 2Mn2(V04h
Ca(Mg,Fe)P04
(OH,F)
CU3PbTe04(OH)6
Cas(Si04h(C03)
Ca(Ce ,Lah(C0Jh
F2
MnlOS~~Si2024
PALENZONAITE
PANASQUEIRAITE
PARAKHINITE
PARASPURRITE
PARISITE - (Ce)
PARWELITE
Bbmm
onn,
Hex.
P3
SPACE
GROUP
1(l'Mg2(AI,Feh
{g}[(Si,AI),210301
uOJl3
{g}[C
[Ca(Ce ,Lah lrF2 D )T'
(,.,Bastnilsite-(Ce)
Pb'D'Cu31eu
[04(OH)6)
(,.,Khinite)
Cub.
I a3d
NauuCa2uUMn2"'13
(012).
CSubs.d.Grossular)
3oo[CaP(MQ,Fe)"
(OH,F)pI04)
Mon .
121m...
Trig .
R3
Mon .
P2,/a
P~
Hex.
Mon.
C2In
Hex.
P63
CauZfB"AisU[O,s]
Mon.
P2 1/m
Mon .
C2Ic
Hex.
P6/mcc
a-9.76A
b=19.32A
c=1o .ooA
/3=9554'
Z=4
a=10.473A /3-90.58
b=6.706A Z=8
c=27 .78A
a-7.091kX Z=6
c=27.93kX
STRUCTURE TYPE
CUI.III(3a) ..,
(OH)I~I(3a)
Pb(3a) Te(3a)
ISOKITE
{300}[Ca~gOFP'04)
Na""Ca2DOMn2"V3
[0 121.
PALENZONAITE
Mnl(Sd) Ca(8f)
MnIlYz(Sg)
Si,(4c) Si,,(8f)...
K(2a) (AI,Fe)(6r. KID'(Fe,Mg)GAI,Feh
(Fe ,Mg)(4c) .., {g}[(Si,Alh2 30)
OSUMIUTE
K(2a) Mg(4c)
KID'(Fe,Mg)GAI,Feh
(AI,Fe)(6f)
{g}[(Si,AI)12 30)
(Si AO(24m) ... OSUMIUTE
EQUIVALENT
POSITIONS
a-10.155A Z=2
c=14.284A
a=8.183A Z=1
c=4.756A
a=9.074A Z-4
b=19 .130A
c=6 .121A
a=10.155A Z=2
c=14 .284A
ApBqCrD.Ell (eont.)
I(lJ(Fe,Mg)?O(AI,Feh Hex.
{g}[(Si,AI) 12 0 30)
P6/mcc
STRUCTURAL
FORMULA
PAINITE
PADERAITE
OTTRELITE
ORIENTITE
Mn6(Fe,Sbh(Si04h
(0,OH)6
Ca2Mn3Si301O(OH)
CHEMICAL
FORMULA
OREBROITE
NAME
Table 136
242;SB,~,76-78;H()lzel,102.
RRW,465;Pov.616;Str.Tab.,
Am.Min.1977 ,62,1003-1005;
Holzel,192.
Min.,1978,~,1018-1019.
Pov.,379-380;Am.Mln.,1988,
73585-594.
SR,34A,388-389 ;RRW,453;
Pov .379-380;Am .Min.,1988 ,
73.585-594.
Min Abs., 79-2777;Pov.,752,
428-429;str.Tab.,382;LF,326;
RRW,453;H()/zel,192.
Can .Min .,1986,24,513-521 ;
Am.Min., 1987,~ ,224(Abs .) ;
Holzel,40.
Am .Min.,1976.61,88-94 ;Pov.,
280-281 ;Str.Tab .,384;SR,42A,
311;Min .Mag.,1986,50,267270 .
Am .Min.,1988,73,930(Abs.);
LF,148.
SR,~,388-389;RRW,453 ;
Am .Min. ,1986,I1,1522-1526 ;
H()lzel 190.
Am.Min.,1985 ,1Q,171-181;
RRW,449;Pov.,407;Min.Mag.,
1979.43325-331 .
REFERENCES
0'1
VI
NaCa2SbOaOH
PECTOLITE-M2abc
PELLYITE
KMg3(SIJAI)010
(F,OHh
Mg2Mn~(B03)
PbJ(WO~)OCb
PHLOGOPITE
PINAKIOLITE
PINALITE
Mg 2Mn
1l02l{g}[ Blr03W- r..
K',"JMg3u(F ,OHh
{2co}(Sb,A1)1010)(2I)c
CU3HgPbBIlSe5r
Mon.
Na,o'C a2u
(1co}[SbIOa(OH)]by
Ba,'U'caU(Fe,Mgh
Sis 0 17)
Olth.
Pnem
Tric.
P'1
Ca2,fJAlO(OHh
{2CO}(Si,A1)4'olo)
3co[{g)IASI0~)4
{g}(Bl s 02(OH)21)
Ca2AI(SI,A1)~010
PREISINGERITE
BI30(AsO~h(OH)
(OHh
PREHNITE
Hex.
P61mcc
KNa28JSi, 203Q
POUDRETTEITE
K,o'Na2u8J
I
{g}[SI12 OJQJ
Tric .
P1...
Trig.
R!m
Olth .
A2aa...
Mon .
C2Im
Mon .
C2Im
Olth .
Pnam...
Olth.
Cman
Tric.
P'1
SPACE
GROUP
~=9511 '
y=102"2S'
Z=2
K(2a) Mg 1(2d)
Mg ll(4h) .
(Si,AI)(8j) ...
MQI(2c) Mg ll(2d)
MglII(4e)
Mgw(Sj) ...
Ba(Sg) Ca(4b)
Fe(Se) SII(16h)
Slu(Sn...
Na(21) Cal.1I(2i)
Sil~ lI(2i) 01-lX(21)
EQUIVALENT
POSmoNS
~=92.2
...
a=4.848A Z=2
b=5.483A
c=18.488A
a=9.993A
a=87.82" Bil~lI(2Q AsI.II(2i)
b=7.404A
~=115.01 01.x(2i)
c=6 .937A y=111.07
Z=2
K(2a) Na(4c)
B(6f) SI(24m)
01(12e)
01l:1II(24m)
Ca(4e) AI(2a)
Si(4f) (SI,AI)(4g)
Z=4
Z=48
a=10 .239~ Z=2
c=13.485A
a=11 .Q73A
b=13 .088A
c=5.824A
a=7.3055A
c=33 .675A
Z=3
a=188 .06A
b=70 .10A
c=17.28A
a=7.99A
b=7.04A
c=7.o2A
a=90031,
ApBqCrD.Ex (cent.)
Na'O'Cat
{1co}(SbIOa(OH)by
(",Wollastonite)
STRUCTURAL
FORMULA
CU3HgPbBISe5
PETROVICITE
Ba2Ca(Fe,MghSls
0 17
NaCa2SbOa(OH)
CHEMICAL
FORMULA
PECTOLITE
NAME
Table 137
STRUCTURE TYPE
u(F,OHh
K1"'Mg3
{2co}( SI3,A1)'o10)(21)c
PHLOGOPITE
UMnU
Mg 2
1l021{g}(st'OJIJ'-ra,
PINAKIOLITE
Na,o'C a2u
{1co}(SI3IOa(OH)by
PECTOLITE
REFERENCES
Am.Mln., 1967,~,974-984;LF;
243 ;Can.Mln.,1987,2,707716Pov. 439-440SR~32A.488
Am .Mln.,1982,!ll.S33-840;Am.
Min.,1982,!ll,833(Abs.);
HOlzel,158.
Can.Mln .1985,~,659-888 ;
Am .Mln., 1988,~,443-453 ;LF,
311;Pov.588.
Am .Mln., 1983,, 1249-1250;
Can .Min. , 1988,~,45-50 ;
HOlzel,24;KlS,176.
Can.Mln .,1987,2,763-788;
HOlzei,210.
Am.Mln.,1973,9,889-900;LF,
231 ;RRW ,476;HOIzel,22S;SR,
31A.231 ;LF,231 .
Am .Min.,1974,..Q,9S5-1 004;
LF, 1S1;Pov .,487;SR,~,222224 ;SR,1.a,355-358;Wyckoff,2,
523-524.
Am.Mln.,1989,B,934-935;
HOlzel suppl ..
597-598(Abs.).
Am .Mln., 1977,.2,594-595
(Abs.);HOlzel,20;KlS,1S0.
Am .Min.,1976,1,67-73;SR,
RRW.48S;Pov.,41S;Str.Tab. ,
423;Am.Min., 1978,~,274-288.
Wyckoff,~,316-317 ;LF,213;
0\
0\
SPACE
Mn2CeAsO~(OHh
(Mn,Mgh
RETZIAN - (Ce)
RETZIAN - (La)
(K,Cs)Be~14
RHODIZITE
DllCD
As'
Olth.
Pbsn
Olth.
Pbsn
Olth.
Pbsn
Trig .
Ca2(Ce,Lah(C03)5
R3
F3
K(V ,Ai,Mgh(SI,Ai)4 Kl"l(V,Ai,MY,hU(OHh Mon.
{200}[(Si,Aih0,01(21)0 C2Im
01o(OHh
Ca2Mn2B407(OH)6
FeY4(Si207hF2
ROWEITE
ROWLANDITE -(Y)
ROSCOELITE
[Or(OH)6)
EQUIVALENT
POSITIONS
Z=1
a=7.131A
c=89.41A
a=5.28A
b=9.09A
c=10.25A
a=8.89A
b=5.08A
c=6.83A
(K,Cs)(1a) 01(4e)
Be(4e) B(12h)
AI(4e)' 0,,:111(121)
Ce(2a) As(2c)
Mn(41) OI~,(Sm)
Z=2
~=101.0"
Mnl(2a) Mnll(2b)
Mnlll(4g) Ca(SI)
B,.,,(4h)BIII(SIL.
a=5.18A
Z=2
c=12.61A
(after heating 500"C)
Z=2
a=5.690~
Z=2
Z=2
b=12.12A
c=4.S74A
a=7.318A
b=12.01A
c=4.869A
a=5.670~
a=5 .670A
b=12 .03A
c=4.863A
~=109.52' Cu(41)
a=31.96A
Z=4
(S,Se)'.23(4Q ...
b=4.12A
c=36.69A
a=7 .644A
Mn(4b) Pb(4c)
Z=4
V(4c) ...
b=9.50sA
c=6.1S2A
a=10 .09?A Z=1
c=4 .944A
a=9.057A Z=4
b=13.357A
c=8.289A
Amorph.
a=6.59A
a.=99"2'
(Metamiet) b=S.85A
~=104"8'
Tric.
c=5.53A
y=91"28'
P'1
(Heated 900 DC Z=1
onn,
Pbsm
Ca2L~JMn2uB2 ~u
Tric.
P'1
RONTGENITE -
-(eel
L
H3Ff.'Te4 " " CI "
[0'2
H3Fe2(Te03hCI
RODALQUILARITE
Amorph.
Tet .
P4?
(Ca ,Fe)(Fe,Aih
(P04h(OH,Fh
(K,Cs)Il'JBe4(8,Be)'2 Cub.
P43m
At.."[~8IJt
(Mn,Mgh"
(La ,Ce,Nd)8acb
l
As [O~(01'h41
Mn2"(Nd ,Ce,La)""""
ASI[0~(OH)4)
[O~(OH)~)
Mn2"Ce
RICHELLITE
(B ,Be)'2~8
iOHl.
Mn2(Nd,Ce,La)As
04(OH)4
RETZIAN (Nd)
(La,Ce,Nd)AsO~
Hex.
C6J2
Cu~na(Te03h
(OH)1a
Pnma
ortn.
QUETZALCOATLITE
PbMnVO~(OH)
GROUP
Mon .
C2Im
PYROBELONITE
Cu
[S15Seal
STRUCTURAL
FORMULA
Ptq.5~BI9.raJ
CuPtq.~BI9.3S'5Sea
CHEMICAL
FORMULA
ApBqCrD.E x (cont.)
PROUDITE
NAME
Table 138
Dist.deriv .
K[121AhD(OH,Fh
2oo}[(Si,Ai)4l010)(2I)o
MUSCOVITE-2M,
STRUCTURE TYPE
MlnAbs.,76-734;Pov .,758;Str.
Tab .,381;RRW,528.
528;SR,~,224 .
Am .Mln., 1e74,~,8D-65;RRW,
Buli .Min.,1968,i1,,28-33;SR,
m,393-394;Am.Mln. ,1968,~
2104-2105;HOlzel,93;Aeta
Cryst ,m,1551-1557.
RRW,523;Pov .,818;Str.Tab.,
242 ;HOlzel BUPPI..
RRW,526 ;Str.Tab.,437;LF,229;
HOlzel,228;Pov.,442.
Min.Mag.,19S6,~,163-172 ;
Am .Min.,1982,Z,641845;
HOlzel,151.
HOlzel93.
Am .Mln.,1967,.2,1803-1807;
RRW,499;SR,1,317;SR,jj!,
451 ;Pov .,494-495;Str.Tab.,
323.
63-65;SR,~,44-45.
Am .Min.,1976,M.,S39-S52;K1S,
REFERENCES
-.J
0\
INa4C11
IAb'o121
{3co}(Sb
(Fe ,Mg)Ab(P04h
(OHh
NaBSb05(OHh
PbJO(103)CI3
(Na,Ca)gFe
(ce,Lah(Si,Be)20
(O,OH)48
Na(Mn,CahSIPe
(OH)
Na4(SI~13)012CI
SCLARITE
SCORZALITE
SEARLESITE
SEEUGERITE
SEMENOVITE
-(Ce)
SODALITE
SERANDITE
(H3O,Ca)Ab
(S04,As04h(OH)e
BI30
(V04,AS04 ,P04h
(OH)
SCHLOSSMA
CHERITE
SCHUMACHERITE
Na
tSh
(200}(B 'o5(OHhl
{3co}[ (Fe,MgtAbo
(OHh(g}[p1 0412 1
(Mn,Fe),eoAs:fYJ
(OH)1n200}[Si12t0361
(Mn ,Fe),eAs3Si12
036(OH)17
Cub.
P43n
Olth.
C222,
Mon.
P2 1
Mon.
P2 1/c
Mon.
A2Ja
Trig.
R"3"m
Tric.
P'1
Trig .
P3m1
Trig .
P31m
SCHALLERITE
Na21S7[02eC1Fel"
Na21(S04hC1Fe
Mon .
Cc...
SPACE
GROUP
SCHAIRERITE
STRUCTURAL
FORMULA
Pb1409(As04hC14
CHEMICAL
FORMULA
EQUIVALENT
POSITIONS
Znl~II(8f)
STRUCTURE TYPE
Z=8
b=13.835A
c=9.942A
a=7.683A
a=90.53
b=6.889A ~=94.12"
c=6.747A r-102.75
Z=2
a=8.882A Z=2
CI(2a) AI(6c)
Na(8e) SI(ed)
0(241)
Sil~II(2i)
Na(2i) 01~x(2i)
(Mn,Ca)I _II(21)
Fel(2d) Fen(2c) .
(v.oce.) ..
...
INa4CII
IAb
(3co}[Sb '0 121
SODALITE
l U ' C a 2U
Na
{1a:l}[SbIOe(OH)lby
PECTOLITE
Znlv(4e) ...
~=120"35' P(4e) (OH)(4e) {3co}[ (Mg,FetAbO
t0
(Mg ,Fe)(2a)
Z=2
(0Hh{g}[p 4b 1
AI(4e) 0 1-1v(4e) LAZULITE
~=93.95 Na(2a) 01_vlI(2a)
SII~I(2a) B(2a)
Z=2
Z=4
r-111.5
Z=2
~=115.3
a=87.7
Z=?
a=13.879~ Z=2
a=16.110A
b=5.432A
c=15.041A
a=7.15A
b=7.31A
c=7.25A
a=7.9814A
b=6.0657A
c=4.9054A
a=7.964A
b=7.964A
c=27.288A
c=16.67A
a=10.05A
b=7.46A
c=6.90A
a=6.998~
UNITCELL DIMENSIONS
ApBqCrO.Ex (cont.)
SAHLINITE
NAME
Table 139
REFERENCES
274-288.
Acta Cryst.,1984,IHQ.6-13;LF,
285 ;Pov.,350;Str.Tab.,483;
SR,~,490;Croatia Chemica
Acta 1999.72,705-710.
m.414-415;Am.Mln.,1978,~
213;Pov.,758 ;SR,~,314;SR,
~,374-3'n);HOlzel,204 .
Pov.,438 ;RRW,549.
Am.Mln. ,1972,ll,327-328
(Abs.);RRW,550;HOIzel,95.
Zi,409-410;SR,~,413-414;
Am .Mln.,1976,ltl,123-129;SR,
544;SR,~,434-435.
Acta Cryst.,1959,.12,695-697 ;
LF,322;RRW,549;Pov.,339,
HOlzel suppl..
Am .Mln . ,1989,~,1355-1359 ;
Am .Min.,1986,Z1,231 (Abs.) ;
Pov. ;511-512;Str.Tab.,329;
HOlzel,157.
Min .Mag.,197MQ,131-139 ;
Am .Mln.,1971,,174-178 ;
Pov. 586 584Str.Tab. 278 .
Am .Mln.,1981 ,,1054-1062;
Acta Cryst.,1963 ,1(suppl.) ,
A16 ;Pov .,757,429,153 ;HOIzel,
235 .
Am .Min.,1980,,1069(Abs.);
HOIzel 125;Enc.Min.Nam. 269.
Am .Mln.,1985,ZQ,438(Abs.);
HOlzel,158.
00
0\
Ko.3(Na,CahThSle
020
Na2SrAI4S1401S
Na6(S04hCiF
Pb 1o(S04)OBCI2
(Mg,FehBeAl 4Si3
016
(Li,Ca)(A1,Li,Mg)5
Sie~(OH,F)4
Ca(Ce ,La)(C03hF
STRONALSITE
SULPHOHALITE
SUNDIUSITE
SURINAMITE
SWiNEFORDITE
SYNCHYSITE - (ee)
NaO.15Mg3S14010
(OH)4
F5
(Sr,Ba,Na)2A1C~
STEVENSITE
STENONITE
STENHUGGARITE CaFeSb~~
STEACYITE
STAUROLITE
Mon .
C2Im
Mon.
P21/a
Mon.
P21/b
SPACE
GROUP
Pb lOlO'SLOj
[ [0]12[Clh ](C2,2Q1nl
(",Nadorlte)
(Mg,FehuA1 4Be'Sb
[016f
NaeuS210sCIF]u
N80.15' "Mg3U~H)4
(200}[SI4101ol )c
(""Hectorlte)
Mon.
?
Mon.
C2Ic
Mon.
P2In
Mon .
C2...
Cub .
Fm3m
Olth.
I bam...
Mon .
Cc
Mon .
P21/m
~=109.30
Z=4
Z=2
~=100.07c
Z=4
Z=4
p=?
Z=0.33
P=9820'
Z=4
a=12.329A ~=102.68
b=7.110A Z=12
c=18.741A
a=24.87A
b=3.781A
e=11.881A
a=9.918A
b=11.384A
c=9.831A
?
a=5.447A
b=8.888A
c=13.14A
a=5.27A
b=9.12A
c=14.oA
a=8.415A
b=9.901A
c=16.729A
a=10.068A
a=18.144A Z=16
c=10.706A
...
Cal(4d) Call(8f)
Ce,(4e) Cell(81)
Be(4e) SI,.1II(4e)
0'.XVI(4e) ...
F(4a) Na(24e)
CI(4b) S(8e)
0(321)
Ca(16f) Sb(18f)
AsI.II(18f) Fe(18f)
0,.VlI(16ft
...
Ca,_II(46) CI(4e)
B11I1(4e) H,_1v(4e)
0,_vlII(4e)
EQUIVALENT
POSITIONS
STRUCTURE TYPE
a=7.583A Z=2
c=14.763A
a=10 .49A
b=8.705A
c=14.16A
a=7.877A
b=16.609A
c=5.665A
a=7.975A y=8614'
b=12.571A Z=4
c=7 .237A
ApBqCrD.Ex (cant.)
Kof(Na,CaUU'Th- Tet.
P4/mcc
Sie~]
(""Ekanlte)
Ca,o'Fe'''''YJ
Tet.
{300}[~ ISt>5by) ~]
141/a
[044(OH)4]c
Ca2,o'Ca3": (SI04h
(g}[CtrOJ!
Ca5(Si04h(C~)
SPURRITE
044(0H)4
Ca2,o'B2Bu
[04(OH)4C1]
STRUCTURAL
FORMULA
Ca2B304(OH)4CI
CHEMICAL
FORMULA
SOLONGOITE
NAME
Table 140
REFERENCES
O;Am.
Mln .,1976,1,193-199;HOlzel,
219.
Am .Min.,197M.Q.54Q-547;
HOlze1231 .
Can .Min.,1994 .~,865-871 ;
Str.Tab. ,242;Pov.,616;Hll lzel,
102.
Am .Mln.,1983.~,804-81
RRW 591592HOIzeI125.
Am.Min .,1980,.506-508 ;str.
Tab.,579;HOIzel,125.
SR,~,377 ;Pov.,586,584;
Mln.Mag.,1975~,131139;
Am .Mln.,1987 ,12,226(Abs.);
HOlze1240.
Am .Min .,1988,~.195(Abs.) ;
1972,~,1994-1999.
Min.Abs .,88M11003;Am.Mln.,
1983,~,472(Abs.);Acta Cryst.,
Tab.,378;RRW,575.
Can.Min .,1996.M,1051-1057;
Wyckoff,~,184-186;LF ,130;
POV., 388.
SR,~,469-470;Pov.,394;Str.
1975,Q,182-183(Abs.);Min.
Abs . 75-3060.
Acta Cryst.,1960,~,454-458 ;
357;SR.~,227-228;Am.Mln.,
\0
0\
Orth .
UFeP04(OH)
(Ca ,Mn)(Mg,Feh
(P04h(OH ,Fh
Cu~n~(As,SbhOe
(OH) 14
TAVORfTE
THADEUITE
THEISITE
(1ool
[SI 7017(O,OH,FhJ
(..T1nakslle)
K2l1UICa40(O,OH,Fh
TIRODITE
K2C84Si7017
(0,OH,F)4
TIRAGALLOITE
TOKKOITE
Mnt
ISb
(g}[As I012(OH
Mn~sSh012(OH)
TILLEYITE
Tric .
P'1
P21/n
Mon.
P21/a
Mon.
C a5o~9.}[SI2'Or]
(g}[C 0312
Ca5Sh07(C03h
TILASITE
Tet.
14/mmm
Mon.
Cc
p~IOJ(Sb,As)IOJ
1103.0HlIClj2 1(0201)1
3oo[Ca PMgOFAs 0 4)
P~OJ(Sb,As)(OH)
CI2
CaMgAs04 F
THORIKOSITE
Orth.
C222 1
Tric .
P'1
?
<1=67.48
13=67.720
y=81.98
Z=2
Z=4
13=114.1
Z=1
Z=2
Z=12
SI'~1(4e) CI~I(4e)
Ca(4a) Mg(4a)
As(4a) 0 '.1V(4a)
F(4a)
Ca,.v(4e)
P(8c) 01.M8c)
(Ca,Mn)(4b)
(Mg,FeM4b)
(Mg,Fe)u(8c)
(OH)(8c)
EQUIVALENT
POSITIONS
3oo[Ca PMgOFP 0 4]
ISOKITE
3oo}[(U,Na)IOJAjO
F,OH)P'o4]
A.MBLYGONITE
STRUCTURE TYPE
0 1.xl;,(4e)
Mnl.IV(4e)
As(4e) SI'~1I(4e)
0,.xlII(4e) H(4e)
ca2'0J(Mg,Fel~O(OH)
Mn(4h)
(1oo}[Siel0221 ex
(Mg.FeM2a)
(Mg,Fe)n(4g)
TREMOLITE
(Mg,Fe)III(4h)
SI,(81) SI;,(8I)'...
a=10.438A <1=89.920 K'.1I(21) Ca,~(2 1)
b=12 .511A 13=99.75 Sh.vlI(21) H(2i)
c=7 .112A
y=92.8QO 0, .xx(21)
Z=2
a=8.225A Z=2
b=7 .123A
c=14.97A
a=3.919A Z=1
c=12 .854A
a=S.S88A 13=12110'
b=8.944A Z=4
c=7 .570A
a=15 .108A 13=105.17
b=10.241A Z=4
c=7 .579A
a=6 .66A
13=95.7
b=19 .92A
Z=4
c=7 .S7A
a=9 .S0SA 13=102.S3
b=18.126A Z=2
c=5 .317A
a=S.412A
b=13.563A
c=8 .545A
Mon.
Ca12AhSi1e0 33
(OH)36
TACHARANITE
!'oo[(Ca,Mn)O
Mg,FehO
(P 04h(OH,Fhl
b=7.06A
c=9.12A
a=17.07A
b=3.65A
c=27.9A
a=5.138A
b=5 .307A
c=7.442A
3oo}[UlOJFeO
OH)p104]
a=4 .07~
Orth.
a=4.039A
b=6 .984A
c=54 .27A
UNITCELL DIMENSIONS
Ca(Y,Ce)(C03hF
Orth.
SPACE
OROUP
SYNCHYSITE (V)
STRUCTURAL
FORMULA
Ca(Nd,La)(C03hF
CHEMICAL
FORMULA
ApBqCrD.Ex (cant.)
SYNCHYSITE (Nd)
NAME
Table 141
REFERENCES
Zeit.Krist.,1989,m,195-204;
Am .Mln.,1988,~ , 196(Abs.);
HOlzel,220.
Pov .,7S1;Str.Tab.,417.
SR,~,324 ;SR.~,526-527;
HOlzel,152;Pov.,514;LF,276;
Str .Tab.322SR.38.327.
Zeit. Krist.,1970,m,288-306;
SR ,W,472;SR,l1,551 -553;
Pov.,402;Str.Tab.,391.
Acta Cryst. ,1979,m,2287
2291 ;Am.Mln.,1980,.,947
952;MlnAbs.,81-2383.
Am .Mln .,1972,~,188O-1884 ;
Am.Mln.,1985,,ZQ,845848;
HOlze157.
HOlzel,151.
Am .Min . ,1983,~,282(Abs.) ;
Am.Mln.,1982,Z,120-125;
HOlzel,152;Am .Mln.,1979,M,
359-361 ;KI8,S2.
9298HOlzel102RRW 596.
Mln.Mag.,197MQ,113-126;
Mln .Mag .,1961 ,~ ,745-753 ;
Pov.,760,435;Str.Tab.,580 ,424
MlnAbs.,85M/0191 ;HOIz el,
148; Pov.,530 ;LF,278 .
~,152158;Am.Mln., 1960,~,
RRW,596597;Am .Mln.,1966,
Min.Abs.,85M10850;H6Izel,102
Am .Mln.,1979,!H,658(Abs.).
-.I
Mon.
P21/e
(La,CehAI(SIO~h
(OH)
Hex.
?
Ca2(Mg,Fe)~Sle022 Ca2'"'(Mg,Fe}~U(OHh Mon .
{loo}[SieI0221 .cx
C2Im
(OHh
FeeTh(Zr,YhSI~2~
P21/e
(SIO~h<OH)
P21 /m ...
Mon.
SPACE
GROUP
Mon.
[013(OH)
C..oeroyllite)
(V, Fe)4"T;kAs
STRUCTURAL
FORMULA
(Ce,La,NdhAI
(OH)
CHEMICAL
FORMULA
(V,Fe)~TbAs013
Am .Mln.,1982 ,Z,1021-1028 ;
Pov. ,389;Str.Tab. ,380;HOIzel,
191.
HOlzel suppl.;Am.Mln.,1982,
Z,1021-1028 ;
~'.V1u(2d)
RE,_u(4e) A1(4e)
SI,.u(48) OH(4e)
0,.V1u(4e)
REFERENCES
Mln.Mag.,1979,g,469-471;
Am .Min.,1987,12,201208 .
M,.1II(4f) M,v{2d)
As(2d) 0,.V1(4f)
STRUCTURE TYPE
EQUVALENT
POSITIONS
UNITCEL1.
DIMENSIONS
ApBqCrD.E x (cont.)
Am.Mln., 1973,S,140-141;
HOlzel190'RRW 623 .
Ca(4h) SI,_u(8j) ca2'"'(Mg,Fe}sU(0H)2 Wyckoff,~,304-306 ;LF ,208;
Mg ,(4g) Mg u(4h) {loo}[Siel~21 .cx
Pov .,415;Str.Tab .,417.
Malll(2a) ...
TREMOLITE
K2,u'Na'u,
K2lUlNa'O,
TRIKALSILITE
Hex.
Pov. ,345-3-46;Str.Tab.,470;
K2NaAb(SI0">3
(300}[SI3IAl31012,2].ch1h RRW,626;LF,260.
{300}[Si3IAl31012(2)ch't P63?
(Subs.derlv.Kalsllite)
TRIKALSILlTE
Ca'~IM02
TRIMERITE
Ca(4e) 0,.)(u(4e) Ca'~JMn2
Mon .
CaBe3Mn2(SiO~h
Zeit .Krist., 19n,~,~5 ;SR ,
a=8.098A p=9()O
IShto'2)
Mn,_u(4e)
P21/n
~ ,324-325;Pov .,358;Str.
b=7.613A Z=4
{300}[Be3ISi3to'2)
{300}[Be3
SI,~u(4e)
Tab.,364;RRW,626.
TRIMERITE
c=14.065A
(-Beryllonite)
Be,.",(4e)
a=9.41A
Z=2
TRITOMITE - (Ce) Ca2(Ce,Lah(SI2B) Cat(Ce,Lah~(SI2B) Hex.
Pov .,762,389-390;RRW,828;
[OI:d"TI
?
c=6.848A
Str.Tab.,381;LF,165;Am.Mln.,
0 13
CSubs.d.Apatite)
1962,~,9-25.
TUNGUSITE
Trie.
Min.Mag ., 1995 ,~,535-543;
a=9.714A a=90.13 S I~)(1(21) Fe,.v(21)
Ca~Fe2SleOl~(OH)e
P'1
Am.Mln .,1967,~ ,927-928
b=9.721A P=98.3 Ca,.vu(2i) ...
(Abs.);Pov.,458;HOlzel,236.
c=22.09A 'f'120.0"
Z=?
UCHUCCHACUAI- AgMnP~SbsSI2
AgMnP~Sbs[SI21..
Olth.
a=12.67A
Z=2
Am.Min.,1985,zg,1332-1333
TE
Pmmm ... b=19.32A
(Abs.) ;HOlzel,43.
c=4.38A
UMBOZERITE
Amorph .
a=5.6A (after heating
Na3Sr~ThSle
Am .Mln.,1975,2 ,341(Abs.).
(metamlct) at 900"C)
(O,OHh~
Cub.
2OO[CaOMgOAI OF
USOVITE
Mon.
CaBa2MgAbF12
SR,~,413;Am.Mln.,1975,2,
a=13.565A P-9150'
Bal 2
2 12
C2Ie
739(Abs .);Pov .,667-668;Str.
b=5.200A
Z=4
Tab.,161.
c=14.577A
Na,OINa''
USSINGITE
Trie.
Na2AIShOe(OH)
a=7.256A a=90"45' Na,.u(2~ AI(2i)
Am.Mln.,1974,~ ,335-340;SR,
IAlto
P'1
!QA,289;Pov.,350;Str.Tab.,
{300}[Sh
b=7.666A P=9945' SI '~1I(21) O,~)(21)
e(OH)
485 ;RRW,643 .
e=8.683A y=122029' H(21)
Z=2
TRANQUILUTYJTE
TREMOLITE
TORNEBOHMITE
- (La)
TORNEBOHMITE
- (Ce)
TOMICHITE
NAME
Table 142
-..J
......
CU3Ba(V04h(OHh
CU10Fe4Sn(As,Sb)
S16
VESIGNIEITE
VINCIENNITE
CaAISI04(OH)
VUAGNATITE
Orth.
Pnma
AgO.3L'Jp~.3L'JBla.3L""J
[SllES12)
Ago3P~ 3Bia.3SllE
S12
WELINITE
Mn3(W,Mg)07(Si04) Mn3u(W,Mg)O.7vSi
[04,(OHh]
(O ,OHh
Hex.
P6:l
R~m
WEIBULLITE
Trig.
(Bi,Ca)AI 3
(P04,SI04h(OH)6
WAYLANDITE
[S5)
06(OH)e!
CuPbTI~S5
WALLISITE
Mon.
P21/a
Orth.
P2 12121
Orth.
C2ca
Tric.
P"1
{300}[Ca,oaPJAJltsOYJSi
04(OH)
l=Descloizite)
H93TI.AslSb:l P[S20]
Orth.
Pbam
...
Tet.
P4/mmm
Mon.
C2Im
Mon.
P21 /a
Mn LCI
{100}[Be1p 0 4(OH,F)
Cu PbL'TI'OI~I""J
Hg3TI~6Sb:lS2o
VRBAITE
VONSENITE
BeMnP04(OH,F)
VAYRYNENITE
{200}[Mn30P31012)
SPACE
GROUP
~=11459'
...
Be(4e) Mn(4e)
P(4e) ~.y(4e)
EQUIVALENT
POSITIONS
U F eU
STRUCTURE TYPE
Z=2
Z=2
~=116.42'
Z=4
~=102045 '
Z=4
a=9.463A Z=4
b=12.305A
c=3.0727A
c=10 .697A
a=10.697~
a=11.91A
b=12 .54A
c=6.46A
a=5.411A
b=14.49A
c=4 .730A
a=10.270A
b=5.911A
c=7.711A
ApBqCrO.Ex (cant.)
Mon.
C2Ic
Na~Ca~
STRUCTURAL
FORMULA
CUlO Fe4Sn'(As,Sb)
[S16]o (Subs. deriv.
SDhalerlte)
u
(Fe,MghFe02(B03 (Fe,Mgh"Fe
1l021{g}[Blt03)),T..
NaCaMn3(P04h
CHEMICAL
FORMULA
VARULITE
NAME
Table 143
REFERENCES
Am .Mln.,1963,!,216(Abs.);
Pov . 543 587Str.Tab. 326.
Am .Mln., 1980,~, 789-796;Am .
Mln.,1977,2,397(Abs.);
H()lzel 44SR.46A. 34Pov. 764.
SR,m,387;Am.Mln.,1986,Z1,
1522-1526;Pov.,287;Str.Tab .,
377'RRW 666 .
Mln.Mag .,1986,~.731-733;
Zeit.Krist.,1971,~,360-380
;
SR,~,9-10;Pov.,236;Str.
Am .Min.,1983,9,827-832;LF,
183;RRW,657;Pov.,764,468;
Str.Tab.,252;SR,422.
SR,2Z,577-580;KlB ,59-60;
Pov.,552;Str.Tab.,315 ;RRW,
650 .
Am.Mln .,1992,1Z,675(Abs .);
Mln.Abs .,78-897;Mln.Abs.,800753;Pov.495;Str.Tab.,325.
Am.Min .,1986,11.1280-1281;
G .0.ser.Geol.,1986,i,41 -53.
Str.Tab .,310;Pov.,763,538;
H()lzel,14!4.
tv
-...I
Ca~la012S04
(Mg ,AI)s02(Si04)4
(OHh
Bi(Fe,Alh(P04h
(OH) s
NaLiZrSiaO' 5
(Ti,Nb)~r20'4
YEATMANITE
YEELIMITE
YODERITE
ZAIRITE
ZEKTZERITE
ZIRCONOLITE -
-30
(Na ,K)1510JM920
(Na ,K)15Mg 2
t
(AI,Mg,Feh(Si,AI),2 (AI,Mg ,Feh
0 30
{Q}f(Si,AI);210301
Mn7ZnSS~'Si402S
YAGIITE
(Mg,AI)4 AI/'OY1Si 4
[O ,a(OHh)
(Na ,K)(Mg,Fe,AI)s
(Si,Al) s020(OH,F)4
WONESITE
Tric.
P'1
WILKINSONITE
Orth.
Acam
Trig .
R'3m
Orth .
Cmca
P2,/m
Cub .
?
Mon .
Tric.
P-1 ...
Hex.
P6/mcc
Mon . .
C2Im
Orth .
Pnmm
P~U02(C03h
WIDENMANNITE
Trig .
R3c
Ca1s(Mg,Feh
(H2,Ca)(P04)'4
Tric.
P-1
SPACE
GROUP
WHITLOCKITE
STRUCTURAL
FORMULA
(Mg,Fe)2AI,4Si4B4
0 37
CHEMICAL
FORMULA
EQUIVALENT
POSITIONS
b=14.1A
c=7 .3A
a=10 .1~
a=8 .035A
b=5.805A
c=7 .346A
a=7 .015A
c=16.365A
a=14 .330A
b=17 .354A
c=10 .164A
Z=8 ?
Z=8
...
Na(8e) Li(8d)
Zr(8e) 5i l.III(16g)
STRUCTURE TYPE
ApBqCrD.Ex (cont.)
WERDINGITE
NAME
Table 144
REFERENCES
680 .
Am.Min .,1981,66,100-105;Enc.
Min .Nam .,332 ;Holzel,231 ;LF,
231.
t;:l
ZUSSMANITE
K(Fe,Mg,Mn)13
(SI,A0 1B042(0H)14
K'O<'(Fe,Mg,Mn)13
I[042(OH)14)
(Si,A0 1B
DS1
AI 13S15020(OH,F)lB A1 13 5'
CI
[020(OH,F)lBCq
ZUNYITE
STRUCTURAL
FORMULA
Nae(Ca,Mn,Fe)Zr
SIe01B
CHEMICAL
FORMULA
ZIRSINALITE
NAME
Table 145
Trig .
R3'...
Cub.
F43m
Trig .
R3m ...
SPACE
GROUP
a=11.66A
c=28 .69A
Z=3
(Fe,Mg)II~II(18f)
SII~II(18f) ...
a~11 .69A
a=59 .8
~1
EQUIVALENT
POSITIONS
Ah(4d) A1 11(48h)
SII(4c) SIII(16e)
CI(4b) ...
(Fe,MgM3a)
a=10 .29A
aR=7.38A
c=13 .11A a=8828'
Z=3
Z~1
a=13 .8654A
Z=4
ApBqCrD.Ex (cant.)
STRUCTURE TYPE
REFERENCES
692;SR ,~,392-393.
Am .Mln.,1975,Q,489(Abs.);
Htslzel,208.
SPACE
GROUP
Mon.
C2Im
Trig.
R3m
KF e3(ShAI)010
(OH,Fh
ARCTITE
Mn~le050(C03)
ARMANGITE
Ca 3Be2(Ti.Sn)ASe
SI2020
Ca2(Fe.Mn)FeSi 5
014(0H)
Ba(Fe.MnhTi
(Sb 07)(O,OH,Fh
B84(Ti,Nb)eOle
(SI03)4C1
ASBECASITE
BABINGTONITE
BAFERTISITE
BAOTITE
(OH)4
Na3(Fe,Mg)4Fe'"
Si e022(OHh
ARFVEDSONITE
BaCI{3cO}[(Ti,Nb)eO
SI4to2el
Tet.
I 41/a
Ba{200}[(Fe,Mnherio Mon .
(O,OH,F)ng}[Sb10711 Cm
Ca,D,CaU(Fe,Mn)UFeU Tric .
10
P'1
{loo}[Si5 14(OH)
P~c1
Hex .
P~
Trig.
Na"U'Na2''(Fe.Mg)t Mon.
C2Im
FeO(OHl2
{loo}[Sls ~2.cx
Trig.
R3 ...
ANNITE
Hex.
P63
Mg 2AI(SIAJ)05
(OH)4
(OH)4
AMESITE -6R
Mg~I(SIAJ)05
AMESITE-2H
P21/m
Mon .
ALLANITE-M
Z=2
Z=2
~=115"
REFERENCES
(OH)I~I(3a)
(OH)III~v(6c)
...
AsI.III(6g) Mnl(2d)
Mnll.v(6g)...
Na"UINa2''(Fe .Mg)4
FeO(OHl2
'{l oo}[Sle02212.cx
ARFVEDSONITE
Pov.,289;Str.Tab.,227;RRW,
34SR.45A.320.
SR,W,381-382;Am.Mln.
1970.a.1818;Pov.390-391 ;
Str.Tab. 227 'RRW 39.
Zeit.Krist.,1972,lli,355-373;
Sov.Phys.Cryst.,1975,2Q.448451 ;Pov .,411-412;Str.Tab.,
426.
SR,2,268-269;Pov.,450.153;
Str.Tab.394 ;RRW,47;HOIzel.
200 .
Sov .Phys .Cryst.,1970.H.508514;Pov .,364-365;Str.Tab.,
404 'RRW 49SR.34~,382-383.
Am.Mln.,1979,~,748-757 ;
Mln.Abs.,89M14118;Am.Min.,
1982,lU,621(Abs.);HOIzel,156;
KIB 159.
SR.~,399-400;LF ,21O;RRW;
32-33;Pov.,416;Str.Tab.,419;
SR ,2,258;SR .12.266.
:SR.~,337.
Am .Mln. ,1973,~,889-900;LF,
443;Str.Tab.457.
Acta Cryst . ,1962.~,51O-511 .
SR ,2Q,434-435;Am .Mln.,1981 ,
152158;LF,190.
HOlzel,202;Am .Mln.,1966,~,
,185-195;SR,~,382;Pov . ,
I(l,"JMg3D(F,OHh
{2oo}[(SIJA~to10)(2I)c
PHLOGOPITE
Ca'~ 'U'(ce,La)'tO'U'
{3cO}[(AI,FehS131012
(OH)
ALLANITE-(Ce)
(SI,A~I(2a)
(SI,A~u(2b)
Ca(6f) Be(4d)
SI(4d) As(12g)
ITI Sn)(2a) ...
a=7.509A a=91.433" Cal_u(2i)
b=11.697A ~=93.886 Fel.u(2~
c=6 .719A y=104.255" SII.v(21) ...
Z=2
a=10.60A ~=119.5" Bal.II(2a)
Balll(4b)Fel~I(2a
b=13 .64A
Z=8
Felll(4b) .. .
c=12 .47A
a=19.99A Z=4
Ba(16f)
c=5 .908A
(Ti,Nb)I~I(16f)
SI(161) CI(4b) ...
a=13.491A
c=8.855A
Z=1
a=8.36A
Z=2
c=15 .30A
STRUCTURE TYPE
Calt01UJ(Ce,La)'tO.u,
Am.Min., 1971 ,~,447-464;LF ,
1012 190;Pov.,725;Str.Tab.,397;
{3cO}[(AI,FehSb
RRW,11.
(OH)
ALLANITE-(Ce)
(Mg,AJ)(6c)
...
EQUIVALENT
POSITIONS
c=42 .1A
Z=8 ?
a=5 .31~
a=5 .31A
c=14 .04A
a=10 .2A
b=5.8A
c=8 .9A
a=8 .927A
b=5 .761A
c=10 .150A
ApBqCrO.ExF y
Ca't01UI(Ce,La)'t01UJ
Mon .
{3cO}[(AI,FehoSb1012 P21/m
(OH
(Subs.d.Allanlte-(La)
STRUCTURAL
FORMULA
Ca(Ce,La)(AI,Feh
(Si0 4h(OH)
CHEMICAL
FORMULA
ALLANITE (Ce)
NAME
Table 146
VI
-.l
(Ba,Sr)(Mn.Fe,Mg)
AI2(P04h(OHh
Na2Sr2Ah(P04)Fg
(H30)K(U02)SI04
Na3(Fe,Mg,Mn)
(P04)(C03)
Na3Mg(P04)(C0J>
KJNa3Ca5S112030
(O.OH ,F)4
Ba(Y,Ce)aBeSi3024 Ba''''(y,Ce)a'-U'F2
I
F2
{200}[ShBeto241
BJAREBVlTE
Bfi5GGILDITE
BOLTWOODITE
BONSHTEDTITE
BRADLEYITE
CANASITE
CANCRINITE
CAPPELENITE
-M
(Ba.Sr)" "
{300}[(Mn.Fe,MghO
AI2P31012(OHhl
(..Kulanite)
BOBFERGUSONI- Na2Mn~eAI(P04)e 2oo).Nai8I7JMn5~eo Alo
TE
Pa0241
(LI,NahCaAI 4
(P04)4(OH,F)4
BERTOSSAITE
Trig.
P3
Mon.
Cm
P21/m
Mon.
P21/m
Mon.
Mon.
P2 1
Mon.
P21/c
P21/n
Mon.
P21/m
Mon.
Orth.
I aa2
Trig .
P!
NaSr3Ce(P04h(OH
Trig.
R3m
SPACE
OROUP
Trie.
P-1 ...
BELOVITE (ce)
PlY'"'{200}[CuoFe2S2
Oe(OH)e]
(Subs .d.Alunite)
Sr31/lCel'NaoP3
T1
[012(OH)r
(..Aoatite)
STRUCTURAL
FORMULA
CuPbFe2(S04)2
(OH)e
CHEMICAL
FORMULA
N87AIH2(C03)4F4
y=119.32O
Z=1
aR"'7.01A
(1,=61 049'
ZR=1
Z=2
~=97.33
(1,=92.50"
Na(2d) Ce(2d)
Sr(6g) OI-IV(6g)
(OHf(2C) P(s(J)
Sr(2d) Na(2d)
Sr(6g) P(6g) ...
POSITIONS
EQUIVALENT
a=10 .67A
c=4.680A
C=5.14A
a=12 .7~A
a=8.921A
b=6.631A
c=5.151A
a=8.85A
b=6.63A
c=5.16A
a=18.836A
b=7.244A
c=12 .636A
REFERENCES
Z=1
Z=1
Acta Cryst.,1987,M3sypol..
Z=2
~=111 .76
Z=2
Am .Mln.1983,~, 1038(Abs.);
H61zel,1 01;Kl B,179.
RRW,77;Str.Tab.,324;Pov.
666 ;H6Izel,54.
599-604 ; H6Izel.145.
Can.Mln. ,1986,~,605-614,
H61ze1124.
SR.2i,374;Pov.545-546 ;Str.
Tab .327;RRW,59;HOIzel.156;
LF,165.
Can .Mln.,1966,.668(Abs.);
Pov.,544-545;Str.Tab.324 ;
RRW 63HOIzeI154.
Am .Min.1974,i,567-572;SR,
Pov .588;RRW.57;Str.Tab.,
Am .Min.,1984,2,565(Abs.);
H6Izel.106.
RRW,84;HOIzel,101;Pov .729;
Str .Tab.,242.
STRUCTURE TYPE
~=90"25'
Z=2
~=90"25'
a=11 .48A
Z=4
b=15.73A
c=7.23A
a=8.930A
~=100 .15 (Ba,Sr)(2e)
(Mn ,Fe)(4f)
b=12 .073A Z=2
AI(4f) P,(2e)
c=4 .917A
P II(4e) ...
a=12.776A ~=97.21 X 1_1II(4e) XM2a)
Xv(2b) P 1_V1(4e)
b=12 .488A Z=4
MI.V1(4e)...
c=11 .035A
a=5 .24A
~=107.35'
b=10 .48A
Z=4
c=17 .66A
a=7.073A
~=10545' U(2a) K(2a)
SI(2a) O,.vl(2a)
b=7.064A
Z=2
H2O(2a)
c=6 .638A
a=7.20A
c=16 .94A
Z=3
a=9.62A
c=7.12A
a=6 .472A
b=6.735A
c=8.806A
ApBqCrO.ExF y (cont.)
BEAVERITE
BARENTSITE
NAME
Table 147
-.I
0\
Cal0"P3'012
tr03h(OHh
{g}[C
(...APatlte)
STRUCTURAL
FORMULA
r"
P~m
Hex.
SPACE
GROUP
NS3Ca(Si03)(P04)
BS4TIAb<P04)4
(O ,OH)e
(Sr,Cs,Bah(Ce,La)
P04(C03.0H,Fh
(K,NahLl(Mn,Znh
ZrSi 12030
(Fe,Mn)e(Fe,A1h
(Sie017)03(OH)s
(Na,Kh.7(Ba,Ca)4
Ti eSle02e(OH)14
CU4(U02l(Se03h
(OH)e
CaMgFe2AI2SiOl0
CURETONITE
DAQINGSHANITE -(Ce)
DARAPIOSITE
DEERITE
DELINDEITE
DERRIKSITE
DORRITE
CU4uU,u'8e2''''''
[Oe(OH)e)
(K,NaH"JLj
(Mn,znlieJzr
{g}(Si 1203Ol
(Fe,Mn)eu(Fe,Alhu0 3
(OHh{1co}[Sieta17l
Tric .
P1 ...
Olth.
Pn21m
Mon.
C2Im
P21/a
Mon.
Hex .
P6/mcc
Trig.
R3m ...
P21/n
Mon .
Mon.
P2Ic
~=90
a=89"
Z=2
Z=1
~=94.03
U(2a) CUI(4b)
...
CUII~II(2a)
~=107.45 SII.vl(4e)
M1.1X(4e)
Z=4
OI.xxv(4e)
287.
Am .Mln.,19n,2,99Q.998;
Pov .,418-4F;Str.Tab.,421;
RRW,166.
Min .Mag.,1987 ,~,417-425;
HOlzel,200;Am.Min.1988,H,
1493-1494.
Acta Cryst.1983 ,~,16051607;Bull.Min.,1971 ,~,534537;Am.Min.,1972,l,1912
1913(AbsJ:RRW 169.
Am.Mln.1988,~,144Q.1448;
HOlzel,218.
(Abs.);H()lzel,210;Wyckoff,~,
15S.
Am .Min.,1964,i,811 (Abs.);
MinAbs. ,86M11443;HOlzel,
102.
Am .Mln ,1976,M.,1053-1054
Mln .,1980,~,206(Abs.);H6Izel,
Am.Mln .,1994,Zi,545-549;Am.
(Abs .);~lzel,201 .
(Fe,Mg)(4h)
Si(8j) ...
~=100035' K(2d)
Z=2
Z=4
a=10.7861\
b=18.88A
c=9.564A
a=21.6171\
b=6.816A
c=5.383A
a=5.57A
b=19.0881\
c=5.9651\
REFERENCES
HOlzel,156;LF,165;KJB,104105.
RRW,110;HOlzel,144;Pov.,
509-510 ;Min.Mag., 1987,~,
281264;Hlllzel,144.
STRUCTURE TYPE
~=99
Z=0 .25
EQUIVALENT
POSITIONS
y=102023'
Z=2
a=7.3031\ ~=91 .93 Cal(2a) Call(2e)
Call1(4g)Nal~I(2e)
b=12.201A Z=8
Nalll-V(2f)NIIv1(2b)
c=14.715A
NavlI.~(40) ...
a=6.9nA ~=102.15 Ba(4e) P(4e)
Ah(2b) A1 11(2d)
b=12.5641\ Z=1
OI.v(4e) F(4e)
c=5.2231\
a=10.0S8A aR"'6.57A
c=9.2251\ a=99.87
Z=3
ZR"'1
a=10 .3~
Z-2
c=14.39A
a=5.411\
b=11.741\
c=21.16A
a=S.23A
b=9.0SI\
c=10.15A
a=11.48A
b=13.17A
c=6.87A
a=9.419A
c=6.886A
ApBqCrO.ExFy (eont.)
Mon .
Na(Ca,Pb)(Ca,Mn) Na~(C8,Pb)CD
P21/c
(Mn,Mgh(As04h
{200}[ (Ca.Mn)o
(Mn,MghO~I012)
",Alluaudite)
K(Mg,Fe)(Fe,AI)Si 4 l(I'lJ(Mg,Fe)(Fe,AI) Mon.
OHh{200}[Si41010)(2I)c C2Im
01o(OHh
Subs.d.Muscovite
'M1)
Tric.
CS3(Mn,Feh
P1 ...
(TI,NbhS1a024
(O,OH,Fh
Ca1O(P04h(COJh
(OHh
CHEMICAL
FORMULA
CLINOPHOSI
NAITE
CESIUM
KUPLETSKITE
CELADONITE
CARBONATEHYDROXYLAPATITE
CARYINITE
NAME
Table 148
-.l
-.l
FERROWINCHITE
FERROTYCHITE
FERROTSCHERMAKITE
FERRO
RICHTERITE
FERRO.
-HOLMQUISTITE
FERRO.
-GLAUCOPHANE
FERRO-GEDRITE
FERRO
-ECKERMANNITE
FERROCLlNOHOLMQUISTITE
ELLENBERGERITE
EUCHLORINE
ECKERMANNITE
NAME
Table 149
STRUCTURAL
FORMULA
GROUP
SPACE
Na3(Mg,Fe).AISia
022(OHh
NallUJNaiol(Mg,Fe)4 Mon.
Alo(OHh
C2Im
(loo}[SialO22f COl
CSubs.d.Richterite)
Hex.
MgaTiAiaSia02a
(OH)10
P63
Mon.
KNaCu30(S04h
C2Ic
Lh(Fe,Mg)JAhSla Lir(Fe,MghOAI2
Mon.
OHh{loo}[SialO2212.chx ?
022(OHh
Subs.d.Anthophym
e)
Na3(Fe,Mg).AlSia NallUINa2l0J(Fe,Mg)/ Mon.
AIO(OHh
C2Im
022(OHh
{loo}[SialO22l2.ex
(Subs.d.Richterite)
(Fe ,Mg)~2(SiaAJ2) Ah(Fe,Mg){(OHh
Olth.
{loo}[SlalAl202212.COl
Pnma
022(OHh
CSubs.d.Anthoohvll.)
Mon.
Na2(Fe,MghAl 2Sia Na210J(Fe,MghuAl2u
(OHh{loo}[Sial~212.ex C2Im
022(OHh
(Subs.d.Tremollte)
LhlOJ(Fe,MghAI2
Li2(Fe,Mg)JA!2Sia
Olth.
Pnma
022(OHh
(OHh
{100}[Sial02212chx
(Subs.d.Anthophylli
te)
callUJNa210J(Fe ,Mg~50 Mon.
Na2Ca(Fe,Mgh
Sia022(OHh
(OHh{loo}[SlalO221 'ex C2Im
(=Rlchterlte)
Ca210J(Fe,Mg)5o~OHh Mon.
Ca2(Fe,Mg)5
{loo}[SialAl2lOnI .COl
C2Im
(SiaAJ2)022(OHh
CSubs.d.Tremollte)
Cub.
Naa(Fe,Mg,Mnh
CC03)4CS04}
Fd~
Na,OJCaIO'(Fe,Mg)5u
Mon.
NaCa(Fe,Mg)5
C2Im
(OHh
(Si,Al)a022(OH)2
(loo}[(Si,AI) a'o2212.ex
iSubs.d.Tremollte)
CHEMICAL
FORMULA
Z=2
a=9.587.A. ~=103.47
b=17.832.A. Z=2
c=5.315.A.
?
a=12.255A Z=1
c=4.932.A.
?
b=17.89
c=5.284.A.
a=9 .76~=103.160
UNIT CELL
DIMENSIONS
ApBqCrD.ExFy (cont.)
EQUIVALENT
POSITIONS
REFERENCES
NalOJcaIOJ(Mp',Fe~5u
(OHh
Am.Min.,1982,~,622(Abs.) ;
Min.Aba. 81-2430'Hl:Ilzel 101.
Enc.Mln.Nam.,102;LF,208.
SR,~,342;LF,208;Enc.,Min.
Nam.,102.
ca210J<Mg ,Fe)5~OHh
Enc.Min.Nam.,100.
SR,~,371-372;Hl:Ilzel,217 ;
LF,208;SR,~495-497.
Enc.Min.Nam.,100;Pov.,425;
LF,208; Hl:Ilzel,218.
Enc.Mln.Nam.,100;
Hl:Ilzel,217; LF,210.
Am.Mln.,1988,ll,190191 ;
Hl:Ilzel 240.
RRW,198;Pov.,606;Str.Tab.,
524'Hl:Ilzel 136Enc.Mi.Na. 92
Hl:Ilzel,217;LF,211.
RRW,185;Pov.,416;Str.Tab.,
419;Hl:Ilzel,217;L.F,210.
(loo}[SlalAl2l0m .ex
TSCHERMAKITE
Ca"ulNa210J(Mg,Fe)50(OH)
{loo}[(SI,AI) a'om 2c '
RICHTERITE
GEDRITE
uAl2u
Nar<Mg,Feh
(OHh{loo}[Sial02212ex
GLAUCOPHANE
Li210J<Mq,FehOAbo (OHh
(l oo}[Sia 022l2.chx
HOLMQUISTITE
(loo}[SlalAl2~2e'ex
AI2(Mg,Fe)5(OHh
(OHh{loo}[SlalOnI .COl
ARFVERDSONITE
NallUINa210J(Fe ,Mg~4"Feo
Dlst.dertv.
LiiaJ(Fe,MghAI2
OHh{loo}[SlalO2212.chx
HOLMQUISTITE
OHh {loo}(Sia'o22I
ARFVEOSONITE
COl
STRUCTURE TYPE
NallUJNa2Iol(Fe ,M~)4"Feo
-...l
00
onn.
A1r(My,Fe>s(OHh
{I oo}[Si aAbtc22
Ca2Zn(As030Hh
(OHh
NaBa3B7Si201a
(OH)4
(Cu,FehPb
(As04,S04h
(C03,H 2O)O.7
(Mg,Fe)~12(SiaAI2)
On(OHh
GAITITE
GARRELSITE
GARTRELLITE
GEDRITE
HAGENDORFITE
GONYERITE
GLAUCOPHANE
GIRDITE
GERSTMANNITE
Tric.
P1
Ca4ShOaC03
(OH,Fh
cl1x
Pnma
Na2(Mg,Fe)sAl2Si8
022(OHh
Q
Nar(Mg,FehOAb
cx
(OHMloo}[Si8tcnf
CSubs.d.Tremolite)
(Mn ,Mg)sFe(SbFe) (Mn,MghUFeU(OHh
[{2CXl}[Sb1=etc,o)s{2OO}
O,o(OH)a
[(Mn,Mgho(OH)all
Subs.d.Clinochlore)
NaCaMn(Fe,Mnh NaCDCaCD{2CXl}
[Mno(Fe,Mnhop3IO'2)
(P04h
C",Alluaudite)
H2Pbs(Te03)(TeOa)
Mon .
C2Ic
onn,
Mon.
C2Im
Mon .
?
iSubs .d.Antoohvllite)
(Mn ,Mg)MgZnSi04 (Mn,Mg)"MgUZn Si
onn.
Bbcm
(OHh
[04(OHhf
f-
Mon .
[NalaIBsl~lrO,6(OH)4) C2Ic
Bar{300}
Tric.
P1 ...
Bm2,b ...
onn,
Mon .
C2Im
FUKALITE
iallSI?I(h), 1
(Ti,Nb~4oF308
CuPbs(As03h03C1
Mon .
B2b ...
SPACE
GROUP
FREEDITE
{300}[CasLOJNa3CD
STRUCTURAL
FORMULA
(Ca,Na)e(Ti,Nb)4
(Si207haF3
CHEMICAL
FORMULA
a=11 .92A
b=12 .59A
c=6 .52A
a-6.241A
b=5.686A
c=8 .719A
a=9.541A
b=17 .740A
c=5.295A
a=5.47A
b=9.46A
c=28.8A
(OH)(4c) ...
Ow(Bd)OvIVlI(4c)
(Mn,Mg)(8t)
Mg(8c) Zn(8e)
OI~I(8f) OIll(16g)
(OH)I(Bd)
(OH)II(80 SI(81)
Ba,(4e) Ball(8t)
Na(4d) Si(8t)
B 11II(8f)Bw(4e) .. .
...
Cal.n(8f) Silll(8f)
Nat.n(8t)Ti l. n(8t)
EQUIVALENT
POSmoNS
Z=4
~=11445 '
Z-4
Z=2
(Mg ,Fe)I(4g)
(Mg ,Fe)n(2a) ...
Z=1
~=9141'
a=98 .00
a=5.454A
b=7.664A ~=110.00
c=5.685A y=111.1
Z=1
a=18.531A
Z=4?
b=17 .741A
c=5.249A
a=8.185A Z=8
b=18.65A
c=6 .256A
a=10.212A y=97.22"
b=20.4SOA Z=4
c=10.198A
a=13 .578A ~=105.7
b=20.099A Z=4
c=7.465A
Z=2
a-5.48A
b=3.78A
c=23.42A
a=110040
a=5.90A
~=7()o50'
b=7.61A
c=5.57A
y=11925'
Z=1
a=14.639A ~=114.21
b=8.466A
Z=4
c=14.438A
ApBqCrD.ExFy (cont.)
FERSMANITE
NAME
Table 150
f-
Alr<Mg,Fe)sQ(OHh
{loo}[SialAl2tc 22 cl1x
GEDRITE
(Mn,Mg)"MgUZn SI
[04(OH)2!"
GERSTMANNITE
STRUCTURE TYPE
REFERENCES
~,227-235 .
Str.Tab.,31O;HOlzel,144;Pov.,
538;RRW,254;Min .Mag.,1979,
Mln.Mag.,' 979,43,456-457 ;
HOlzel,93;Am.Mln.,1980,65,
809(Abs.) .
Am .Min.,1968 ,53,1156-1173;
LF ,208 ;SR,~495-496;Pov.,
416;Str.Tab.,419;RRW,239.
Str.Tab .,452;LF,234;RRW,242
; Pov .,444;HOlzel,233.
132;SR,43A,313;HOlzel,189.
Am.Min.,1970,55,1945-1972;
HOlzel,218;LF,211;RRW ,232;
SR 35A 460-461 .
HOlzel suppl..
Am.Min.,1990,~,932(Abs.) ;
Min.Abs.,81-826,94;HOlzel ,
152;Am.Min.,1981 ,66,1274
(Abs.).
-.J
\0
(Mn,Mg,AI)16
(As04h(As03)
(OHh3
K(Zn,Mg,Mnh
(SbAl)O,o(OHh
HEMATOI.ITE
022(OHh
Hex.
P6ylmmc
Mon.
Ca 1fl{300}[ F030(OH
{g}[Sht07) )
P~Zn2Fe504
JAMESITE
JARLITE
Pb:\Ge02(S04h
(OHh
ITOITE
Na2(Sr,Na)14M92AI2
F64(OH ,H20)4
(As0 4)5
CaFe30(Sh07)
(OH)
ILVAITE
Pb:\,l<J{g}{(S 04h
(Geto2(0H)v )
(=Barite\
Mon.
C2Im
(K,H30)l"JAl2 a
(H20,OHh
{200}[SbIAlIO'O)(2B)c
(K,H30)Ah(SI~)
01O(H20,OHh
ILLITE
Mon.
C2Im
Tric.
P1
Olth.
Pnma
P2,/a
P2,/m
Mon.
Ca,lSb~
Cub.
14,32
Pnrna :
orth,
Mon.
C2Im
Ca,o(SI04h(S04h
(OH,CI ,F)2
oTB
[024(OH,CI,F)21
(subs .d.Apatite)
(OHh
(2ooll(ShAnto,nl(2B)c
i2,UJ(Mg ,FehuAhu
OHh{loo}[SleI022)2.chx
1(1l<J(Zn,Mg,MnhU
Trig.
(Mn,Mg,AI)'50~
As l3n] [O,,(0H)2lhhch R3
TI3oCr4~~Mg Fe2
[0'9 88['
he
(Subs.d.Magnetoplumblte)
Pnam
onn,
SPACE
GROUP
~=9452'
Z=4?
Ca,(4f) Call.
vlI(2e) S(2e)
(SI,S)(2e)SI(2e)
(v.oce:), ..
a=5.207A
b=9.020A
c=20.48A
8=9.476A ~=119.53
b=9.508A Z=1
c=6 .919A
a=8.275A
c=36 .60A
Z=3
8=5.340A
b=9.524A
c=10.25A
a=18.254A
b=17.636A
c=5.270A
a=12.879A
Z=8
EQUIVALENT
POSITIONS
STRUCTURE TYPE
(K,H30) 'l<JAl2a
(H20,OHh
{200}[SbIAlto ,0)(2B)c
ILLITE
Cal.m(Bd)
Mn(4c) Bel~,(4c)
Belll(Bd),..
Ba(2d) Cr,(12k)
Crll(2d) Fe(4e)
(Fe,Mg)(4f)
TI(41)...
aR"'13.07A (OH),.vlI(3b) ...
(Mn ,Mg,A1)'5U~
Asl3n][O" (OH)231 hhch
<1=55014'
Z,=1
HEMATOLITE
I(Il<JMg3(F,OHh
~=100.07
{200}[(Si3,AliO,o)(2.B)c
Z=2
PHLOGOPITE
12,OJ(Mg,FehUAhu
Li(Bd) AI(Bd)
Z=4
OHh{loo}[Sieto22)2.chx
(Mg,Fe>t(8d)
(Mg,Fe)u(4c) ... HOLMQUISTITE
a=9.763A
Z=4
b=13 .636A
c=13.830A
a=5.871A Z=2
c=23.ooA
ApBqCrO.EllF y (cant.)
HYDROXYLELLESTADITE
HOLMQUISTITE
LI2(Mg,Fe)~2Sie
BaMgTi3Cr4Fe40'9
HENDRICKSITE
STRUCTURAL
FORMULA
CII6Be4(Mn,Mg)Sle Cae,OJ{300}[(Mn,Mg)o
022(OHh
Be4ISleIQn(0H)2)
CHEMICAL
FORMULA
HAWTHORNEITE
HARSTIGITE
NAME
Table 151
REFERENCES
Am .Min. ,1984,lm,1196(Abs.);
HOIzel,54;Pov.,649;Str.Tab.,
161'RRW 309.
Zelt.Krist.,1983,m,267-283;
LF, 192;HOIzel,199;RRW,299;
Pov . 40Q.401Str.Tab. 390.
Am .Mln.,1960,~, 1313(Abs.);
RRW,300;Pov.,589;Str.Tab.,
274.
Am.Mln.,1981 ,~, 1275(Abs.);
HOIzel,154;Mln.Abs.,81-4434.
90-96 .
Am .Min.,1965,.2,411417;Enc.
Mln .Nam.,140 ;LF,229 ;Pov .,74:i!
Str.Tab.,441.
1328(Abs.);HOlzeI243.
Acta ClYst.,1980,~,16361639;LF,165;Am.Mln.,1971,.,
472;Am.Mln.,1959 ,~,1327-
RRW,281;Pov.,392 ;Str.Tab.,
Tab.,420;SR,~,390-391.
Pov. 514HOIzeI151.
Min .Abs.,85M13798;LF ,231;
Am .Mln.,1966,ll,1107-1123;
Pov. ,443;Str.Tab .,438.
Zeit.Kr1st.,1989,m,95101;LF,
211;RRW,278;Pov.,414;Str.
Am .Mln.,1978 ,~,150-159;
RRW,266-267;SR,~,265 ;
Zelt .Krist.,1986,1Z1,143-148,
149-151 ~Am .Mln., 1968,~,
1418-1420' Str.Tab. 400.
Am .Mln.,1989,M,868-675;Am.
Mln .,1987,12,633-636;HOlzel,
65.
00
KCU30(S04hCI
CaBiO(C03)F
KAMCHATKITE
KETTNERITE
Nllo.3MgeAl(6I,AI)a
20(OH)10
NaMnZn2(Tl,Fe)s
KULKEITE
LANDAUITE
LEUCOPHANE
LEADHILLITE
LAZURITE
P21/a
Olth.
P212121
NaCaBeSi20 eF
Na'O'Ca'O'
{200}[Si218eIOaF]
Mon.
Pb4(S04)(C~h
(0H)2
Cub.
P43n
P21/a
Mon.
Na2U(Mn,Cs,Fet
(Zr,Nb)oSi21
[07(O,Fhl
Na3Ca(SI~h)012S INs3CaSI
{300}[SI3IAl3to 121
LAVENITE
~=106
Z=4
~=108 .1
Z=2
a=7.401A
b=7.412A
c=9.990A
Z=4
a=9.09A ~=9029'
b=11.57A
Z=8
c=20.74A
a=12.06A
b=5.08A
c=10.81A
a=10.83A
b=9.98A
c=7.174A
a=9.105A
Z=2
Na(4a) Ca(4a)
Be(4a) SII.II(4a)
01.";'(4a) F(4a) '
AI(6d) SI(6e)
S(2a) Nal.III(8e)
(oce.v.) ...
INa4CII
tAl t0
{300}[Sh 3 121
SODALITE
Pov.,624;Str.Tsb .,279;RRW,
349; Mln.Mag .,1983,~,371375; Mln.Mag .,1985,~, 759761.
Can .Mln .1989,2Z,193-197;
Pov. ,447;Str.Tab.,429;RRW,
354.
MlnAbs.,83M11191 ;Pov.,399;
Str.Tsb.,392;RRW,347.
Ene.Min.Nam.,168;H6Izel,65;
Pov.,278;Am.Mln.,1966,~,
Z=2
1546(Abs.);Str.Tab.188.
Am .Mln.,1973,,466-470;Mln.
Mag.,1953,.3Q,39-45;Pov .,394;
Am .Mln.,1982,Z,218(Abs.);
HBlzel,231.
Am .Mln .,1990,ll,1210(Abs.);
H~lzel suppl..
Mln .Mag.,1992,~,411-416;
323;Pov.,623-624;Str.Tab.,
244 'SR 24.426.
H~lzeI122 .
Am .Mln. ,1958.~,(Abs.);RRW,
Mln.Mag.,1990 ,M,613-616;
Am .Min .,1990,ll,1210(Abs.);
?
K(2a) Cal.III(2a)
(AI,SOI.v{2a) ...
REFERENCES
Trig .
R!
~=97
K(4a) CUI.III(4a)
Sil~I(4a) CI(4a)
01~x(4a)
(Fe,Mg,AQ50(OHh
{1oo}[SislAl2ton12.cx
FERROPARGASITE
Dist.deriv.
Nal10}ca2[Sl
STRUCTURE TYPE
a=5.32A
b=9.20A
e=23.8eA
Mon.
P2 1
Na2(Mn,Ca,Fe)
(Zr,Nb)(SI2O,)
iO,Fh
EQUIVALENT
POSITIONS
CaHI(2t) Pb(2e)
(Mg,Fe)I.III(2e)
(Mg,Fe)1V.v{2t)
SII.III(4g) ...
Mon.
P21/m
(Trie.)
Mon .
Mon .
12
Tet.
P4/nmm
KCa3(AI,Slb011
(S04, C03)
{300}[(Fe,Mn,Mgh
A1 2o(P3101v(OHhl
(=BlarebYite)
Ball 1)
a=9.741A Z=4
b=12.858A
c=7.001A
a=3.79A
Z=2
c=13.59A
Olth.
Pna2 1
KCI{3ao}[CU3620 91
Z=2
~=10540'
a=9.88A
b=17.87A
c=5.277A
SPACE
GROUP
(Ca,Pb),'VJ(Ca,Pb)r Mon.
(Mg,Fe)50(OHh
P2Ia
{1oo}[SlsIB62to2212CX
STRUCTURAL
FORMULA
ApBqCrD.ExFy (cont.)
LATIUMITE
TI1~38
Ba(Fe,Mn,MghA12
(P04h(OHh
KULANITE
KLYUCHEVSKITE ~Cu3Fe02(S04)4
(Ca,Pbh(Mg,Feb
Si sBe2022(OHh
CHEMICAL
FORMULA
JOESMITHITE
NAME
Table 152
.....
00
CHEMICAL
FORMULA
STRUCTURAL
FORMULA
SPACE
GROUP
Pb4(S04)(C03h
(OHh
MACPHERSONITE
Lil
{loo}(SlsI01slmv
(Subs.d.Rhodonite)
Olth.
Pcab
Tric.
P'1
LI2(Mg ,Fe)~bSia
~2(OHh
Li210J(Mg,FehDAbD
(OH)2
I022l2c11ll
{loo}[Sia
(K,Na)Ca2
(Mg,Fe,Al)s(Si,Al)a
0 22(OHh
Ca2(Mn.Fe)FeSla
014(0H)
CaAb(S12Alti01Q
(OHh
NaCaMn3Sia014
(OH)
MAGNESIOSA
DANAGAITE
MANGAN
BABINGTONITE
MARGARITE
MARSTURITE
MAGNESIO
-GEDRITE
Mon.
C2Ic
Tric.
P1 ...
Nal-'Ca''''' Mn3''''''
(0H)(lco}(SISI014]
Tric.
P'1
Mon.
C2 ...
Mon.
C2Im
Olth.
Pnrna
Olth.
Pnrna
Mon.
P2Im ...
Call<JAl2U(OHh
{200HShIAl2to10) (2I )c
Ca2IfJ(Mn,Fe)OFeU
{loo}[Sls1014(OH)mv
(",Rhodonite)
(loo}(Si,Al)aI022) ex
(K,Na)"U'Ca2'o,
tom
(Mg,Fe)sAh(SisAlti AI2'0J(M~,FehU(OHh
2c11ll
02.2(OHh
{l oo}[Sl aAl2
Subs.d.Anthoohvlllte
Li2IoJ(Mg,FehUAI2u
MAGNESIO
Lh(Mg ,Fe)~2Sia
HOLMSQUISTITE 022(OHh
OHh{l oo}(Slato2.2)2.cI1ll
Subs.d.AnthoDhvl/ite)
MAGNESIONa2(MQ,FehFe2"" Na210J(Mg,FehuFei
-RIEBECKITE
(OHh{100}[Sla~2) ex
Sla022(OHh
MANGNESIOCLINeHOLMQUISTITE
LIMn2Ca2HSis01S
LITHIOMARSTURITE
oiflMn2DCa2DH
~=10411 '
y=111 .51
Z=2
Z=B
~=94.42"
11=85.410
Z=2
~=93.35
EQUIVALENT
POSITIONS
STRUCTURE TYPE
Z=2
NallUINa210J(Fe,Mgh
FeO(OHl2
{loo}[Sls02212 ex
ARFVEDSONITE
Dlst.deriv.
?
Li2[al(Mg,FehOAho
(OHh{loo}(SiaI022) 2.chX
HOLMQUISTITE
AI(Sd)
Alr(My,FehD(OHh
a=18.531~ Z=4
b=17.741A
(Si,AI)HI(8d) ... {l oo}(Sla Al210221 2.cI1ll
c=5.249A
GEDRITE
Li2,O'(Mg,FehUAlt
a=18.29A Z=2
(OHh{loo}[SlaI022)2. Chx
b=17.67A
c=5.28A
HOLMQUISTITE
Na2101(Mg,FehOAI2
a=9.79A
~=10251'
(OHh{100}[SlaI022)2.ex
b=18.12A Z=2
c=5.28A
GLAUCOPHANE
Ca"u'Na210'
a=9.964A ~=105.55
(Mg,Fe)aO(OHh
b=18.008A Z=2
(I oo}[(SI,Al)ato2212.ex
c=5.354A
RICHTERITE
11=9030'
a=6.BBA
b=11.80A ~=9330'
c=6.77A
y=10454'
Z=2
~=100048'
a=5.13A
b=B.92A '. Z=4
c=19.50A
I1=B5.26
a=7.70A
b=12.03A ~=94.10"
c=6.78A
y=111 .04
Z=2
b=23.10A
c=9.25A
a=9.80A
b=17.B3A
c=5.27A
a=10.37~
a=9.B14A
b=16.B51A
c=7.210A
a=7.652A
b=12.119A
c=B.B05A
ApBqCrO.EllF y (cont.)
NAME
Table 153
REFERENCES
H()lzel,222.
Str.Tab.,440;Pov.,441 ;Am.
Mln .,197M~, 186-189;LF,229;
RRW,382;SR,m,388.
(Abs.);H()lzel,222;Pov.,747,
411-412;Str.Tab.,426;LF,215.
Am.Min.,1984,!m.465-471 ;
LF,210;H()lzel,215.
RRW,373-374;LF,208;Pov.
747;Str.Tab.,419;H()Izel,217.
H()lzel,21B.
Am.Mln.,1970,~,1945-1972;
Am.Mln.,1967,2,1585-1586
(Abs.).
H()lzel,103;Am.Mln.,1985,ZQ,
874(Abs.).
H()lzel,216;LF,21O;Str.Tab.,
549.
Mln .Mag.,1984,~,277282;
MlnAbs.,B2M/3923;Pov.,363;
Str.Tab.,431;RRW,355;Am.
Mln.,1972,E,1B01-1822.
Am.Min.,1990,ll,409-414;
H()lzelsuppl..
00
N
KCa5Sie022(0H)F
(Ca,Na,Ce)'2
(Ti,ZrhSir02s(0H)e
F4
MISERITE
MOSANDRITE
Na1DJ(Na,Ca),D,
1Si210eFl
{2oo}[Be
iSubs.d.Melilitel
KCaS'DH'(OH,F)
{loo}[SleIOnl
(",Xonotlite)
STRUCTURAL
FORMULA
ORTHOERICSSONITE
1zoo[(Fe,MghoA/o(O,OH)e Orth.
?
Izoo[Si31A/10,ol~
(""Kaolinite)
Orth.
Pnrnn
(Fe,Mg)~(Si~)
ORTHOCHAMO
SITE
(Ba,Sr)(Fe,Ti)
(Mn,Fe)SiA
io OH1,
01o(O,OH)e
Mon.
A21m
Ca2(Mn,Mg)
(Mn,A/,FehSia01o
(OH)4
OKHOTSKITE
Trig.
R3 ...
(Na ,Cah(Y,Ce)12~
Orth .
Pcca
Orth .
Pcca
Mon.
Pa
Sie0vF14
Naa(Sr,Ca)(La,Ce)
(Zn,Mg)SitP17
NORDITE - (La)
(sr,ca)8p(Ce,Lat'Na 3
{200}[(Zn,Mg)Si e0171
(",Melilite)
(sr,ca)""(La,CetNa3
{200}[(Zn,Mg)Sie 0171
(..Melllite)
4'[O,7F]"'"
OKANOGANITE -
Na3(Sr,Ca)(Ce,La)
(Zn,Mg)SltP17
NORDITE -(Ce)
US1
Ca7uNb
Trig.
?
Mon.
C2Ic
Mon.
P2,/m
Mon .
?
b=9.293A
c=7.043A
a=20.37A
b=7.03A
c=5.34A
a=5 .335~
a=10.863A
b=10 .431A
c=7 .370A
a=14.27A
b=5.16A
c=19.45A
a=14 .27A
b=5.16A
c=19 .45A
a=10.72A
c=27.05A
Z=3
a=8.887A
b=6.000A
c=19.53A
a=8.88A
b=6.60A
c=10.16A
a=S.208A
b=8.995A
c=10.27SA
a=5.203A.
c=29.988A
Z=4
Z=?
afl'=10.94A
a.=58.7
z..=1
P=97.08
Z=4
Z=4
Z=4
1}=110.1
Z=2
Z=?
1}=1 0135'
Z=2?
1}=11so30'
Z=2
a=10.1ooA a.=9602S'
b=16.014A 1}=111"9'
c=7.377A y=76"34'
Z=2
a=18 .41A
1}=934'
b=S.64A
Z=4
c=7 .43A
Tric .
P'1
14
Tet.
SPACE
GROUP
ApBqCrO.ExF y (cant.)
-M
Ca7Nb(Sb07hOaF
NIOCALITE
MUKHINITE
Ca2AI2VSi3012(OH) CaFI{300}[V"AI2oSi3l
012(OH)]
(Subs.d.Zoisite)
I(ll<JA/2(OH,F)2
MUSCOVITE - 1M KAI2(S1~)01o
{200}[SialAII010](28)c
(OH,F)2
iSubs.d.Muscov.2M.)
1(l'"JAI2U(OH,F)2
MUSCOVITE - 3T KAI2(Sl~)01o
{200}[SI31A/10,ol(28)c
(OH,Fh
Na(Na,Ca)BeSi2
OeF
CHEMICAL
FORMULA
MELIPHANITE
NAME
Table 154
Ca(4e) SI,.1II(8f)
Nal(4a) Nall(8f)
La(4d) Sr(4d) ...
Ca(Bg) Be(Bg)
(Na,Ca)(Bg)
SI(2a) SII(2b) ...
EQUIVALENT
POSITIONS
REFERENCES
Min.,19S8,~,795-796(Abs.);
Str.Tab. ,394;HOIzel,199;Am.
417-418;Str.Tab.,42S;RRW,
409.
SR,~,409-410;Pov .,749,
SR ,~444-446.
Acta Cryst.,1967,~,26o-264;
Pov .,398;RRW,451;HOIzel,200.
Am.Mln. ,1971,~,2157(Abs.) ;
H6Izel,203.
H6Izel,194;MinAbs.,81/3244.
Am .Min.,1980,~,1138-1142 ;
Am .Mln.,1970,~,1167-1181 .
SR,~,477;Pov.,441 .
STRUCTURETYPE
(.;.)
00
STRUCTURAl
FORMULA
Pb l"J{200}[CUo
Trig.
R'3"m
SPACE
OROUP
callUjNa210'(Mg,Fe~50
ROSEMARYITE
RIEBECKITE
(OHh{1OO}[S1e'o,,) ex
Basic str.Arfvedson.
v
Na2(Fe" ,MghFe2 ' Na2'O'(Fe,Mg)3U
Fe20(OHh
Sle022(OHh
{100}[SleI02212.ex
(Subs .d.Tramolite)
(Na,Ca,Mn)(Mn,Fe (Na,Ca,Mn)CD
(Fe,Mg)A1(P04h
{200}[(Mn,Fet
(Fe,MgtAlop3to,21
(...Alluaudlte)
Na2Ca(Mg,Fe)5Sle
022(OHh
OIO(OHh
Na(Mg,A~3(SI,Ab)
RICHTERITE
PREISWERKITE
(Ca,Ce,Th)r"
(Mg,Feh(Ti,FehoOe
I
{g}[Si2 Orb
K "'U2UAIU(F,OHh
{200}[SI 4'O,al(26)c
(Subs.d.PhloaoDlte)
Na' " '(Mg,A1h U(OHh
{200}[SI,'A12b,o)(26)c
(Subs.d.PhlogoDlte)
(Ca,Ce,Th)4
(Mg,Feh(Ti,FehOe
(SI:P7h
POLYLITHIONITE KLbAISI40,O
(F,0H)2
PERRIERITE
Mon.
C2Ic?
Mon.
C2Im
Mon.
C2Im
Mon.
C2Im
Mon.
C2Im
P2,/a
Mon.
P2,/m
Mon.
Ba(Mn,FehFe2
(P04h(OHh
PERLOFFITE
Ba" "(Mn,FehuFe2u
I[O'2(OH)3)
P3
Tric.
P1 ...
Ba(Mg ,FehAl2
(P04h(0H)3
Mon.
C2Ic
PENIKISITE
Na l'"JAhO(OH)2
{2oo}[Sh'A1b,o)(2.6)c
Mon.
C2Ic
NaAI2(SI:A!)0,o
(OHh
(AI,Feho~'Oe(OH
(Subs .d.Alunlte)
CDAl
(Li,Nah(Sr,Ca)AI4 (L1,Nah'(Sr,Ca)
4o Orth.
P' [O,e(OH)4)
(P04)4(0H)4
I moo
(...Carminile)
CaCuAISI:Pe(OHh
Mon.
C2Im
CuPb(AI,Feh
(S04h(0H)e
CHEMICAL
FORMULA
Na(4e) AI(8t)
(Si,A~141(8t) ...
(L1,Na)(8~
(Cu,AI,Fe)(9d)
01(6c) 01i(18h)
Pb(3a) S(6c) ...
EQUIVALENT
POSITIONS
"F90
a.oo90
13..,100
Z=4
{200}[SI 3'A1b,o)(26)c
MUSCOVITE-1M
I(l"JAI2 (OH,Fh
STRUCTURE TYPE
REFERENCES
282-283;H6Izel,201.
Am .Min.,1974,~,1277-1285;
Pov.,397;Str.Tab.,398;SR,~,
Am.Mln. ,1977,2,1059(Abs.);
KlB, 159;H6Izel, 154.
KlB, 158;H6Izel,154.
Phys.Crvst. ,1977,~,554-556.
Am.Mln. , 1975,~,460-465;SR,
m,317-318;RRW,456;Pov.,
544-545;H6Izel,154.
MlnAbs.,88M/3484;Am.Mln.,
1960,~,599-611 ;Pov .,373;Str.
Tab .,404.
Am.Mln.,1984,lm,122-127;
Pov.,373;Str.Tab.,404;Sov,
Str.Tab.,277 ;RRW,452.
Mln .Abs.,81/1233;SR,~,350;
RRW,489;Pov.,754;Str.Tab.,
439 'LF 231 ;H6Izel 229 .
Am .Mln.,1993,l,1290-1298;
Na(2a)(SI,A1)(8j
LF,231;Am.Mln.,1980,,1134(Mg ,AI)I(2d)
(Mg,AI>n<4~ ...
1137H6Izel,229.
callU'Na210'(Mp',Fe~5
Am.Mln.,1974,.i,518-528;LF,
(0H),{1oo}[Sle0 22) ex 210 ;RRW,518;Pov.,415;Str.
Tab. 419'H6Izel 215.
RICHTERITE
Na2,U'(Fe,MghU
SR.~ ,306;LF,208;RRW,519;
Pov .,756;Str.Tab.,419;Am.Min .
Fe,o(OHh
{1oo}[Sie'o,,J'ex
, 1963,~,625-634.
RIEBECKITE
Min .Mag.,1979,43,227-235;
H6Izel ,144.
REI41(4e)
Mg(2d)
SiI41(4e) ...
P(4e) 01.111(8t)
OH(St)
Z=4
~=94.35
Z=4
~=100.81
ZR=1
Z=4
a=6149'
aFr'7.01A
Z=2
a=9.223A
13=100.39
b=12.422A Z=2
c=4 .995A
a=13.818A 13=113.85
b=5.677A
Z=2
c=11.787A
a=5.186A 13=100024'
b=8.968A Z=2
c=10.029A
a=5.228A 13=100.42
b=9.049A
Z=2
c=9 .819A
a=9.935A 13=1045'
b=18.063A Z=2
c=5.284A
a=9.811A
13=103.68'
b=18 .013A Z=2
c=5.326A
a=7.075A
c=17.248A
Z=3
a=11.556A
b=15.847A
c=7.315A
a=12.926A
b=11.496A
c=4.696A
a=5.128A
b=8.898A
c=19.287A
a= 11.380.1.
b=6.660A
c=9.653A
a=8.999A
b=12.069A
c=4.921A
ApBqCrD.E.Fy (cont.)
PARAGONITE
-2M
PAPAGOITE
PALERMOITE
OSARIZAWAITE
NAME
Table 155
CHEMICAl
FORMULA
Na4TiZ r204(C03)4
SADANAGAITE
Na3Mn(P04)(C0J>
SIDORENKITE
SODIUM-ANTHOPHYLUTE
SIDEROPHYLLITE K2(Fe,AI)e(SisAI3)
0 2o(OH)4
221''' '
Na,'U'(Mg,Fe)2'O'
orth.
?
(Mg,Fe)so~Hh
{loo}[SI/Ai
{Subs.d .Arfvedsonit.
(a}fCtrO~ll
Mon .
P21/m
Mon.
C2Im
Olth.
I ma2
Olth.
Pbnm
SEAMANITE
NaK(Ba ,K)
(300}[Ti20S141014]
(=Batisite)
K2 "J(Fe ,AI~6 (OH)4
{200}[Si sIAh Ow ] (2.6)0
(Subs.d.Phlogopite)
Na31"o,
(loo}[Mn{g}[P04)
Tet.
P4,/nnm
PbJO(I~)CI2(OH)
SCHWARTZEMBERGITE
SHCHERBAKOVI- NaK(Ba,K)Ti2
TE
(Si2Orh
Tet.
141m
(Ca,Na)eAI4Si6023
(P04,C0 3,S04,F,
CIOHH,Oh
SARCOLITE
Trie.
P'1
Mon.
C2Im
Na2Mnl0VSi 110 34
(OH) 4
cx
Mon .
C2Im ...
SANEROITE
SAMUELSONITE
Trie.
P'1
SPACE
GROUP
EQUIVAlENT
POSITIONS
a=7.811A
b=15.114A
e=6.691A
a=10 .55A
b=13 .92A
c=8.10A
a=5.328A
b=9.228A
c=10 .096A
a=8.997A
b=5.163A
c=6 .741A
a=3.97A
e=12.54A
a=10.12A
b=11.39A
c=7.27A
P=9016
Z=2
P=100010'
Z=2
Z=4
Z=4
Z=1
~=91 20'
STRUCTURE TYPE
Mnl(4e) Mn n(8d)
P(4e) B(4e) ..,
(Ca ,Na>t(1b)
P=9940' (Ca,Na)n(1g)
y=11150' (Ca,Na) lII.vn(2i)
Si l-IV(2i) ...
Z=2
a=10.196A P=94.14 Ti(4e) Nal-n(8f)
Zr(8f) C I. n(8f)
b=6.616A Z=4
01.V1n(8f)
e=17.958A
Cal 'UJNa2,OJ(Mg,Fe! s
a=10.00A
P=105.52"
I0
b=18.06A
Z=2
(OHh{l oo}[Sie 22) ""
RICHTERITE
c=5.355A
a=18.495A P=112.75' (Mn,Fe)I(4g)
(Mn ,Fe)u(4i)
b=6.805A Z=2
AI(4e) PI.v{4i) ...
c=14 .0ooA
~=92 . 70o
a=9.741A
b=9.974A
P=117.11
c=9.108A y=105.30o
Z=1
a-12.343A Z=4
c=15.463A
ApBqCrD.ExFy (eont.)
[014(F,OH)4)<Ih
STRUCTURAl
FORMULA
(Ca,Na)6"Ti~r"Si4
SABINAITE
NAME
Table 156
REFERENCES
H6lzel ,218.
MinAbs.,8113827;KIB,54-55;
Am .Min.,1979 ,M,1332 (Abs.).
H6lzel,229,LF,231;RRW,560;
Pov .,758;Str.Tab.,439.
Pov .,630;RRW.548;Str.Tab.,
230;Am .Min. ,1970,55,1814
CAbs.); H6Izel 95.
Am .Min.,1971,M,1527-1538 ;
SR,37A,275-276;Pov.,471;Str.
Tab. 255'RRW 549.
Pov .,365-366 ;RRW,557;
H6lzel ,221.
H6lzel ,215.
Am .Mln.,1977 ,62,229-245;Am .
Min.,1975,Q,957-964;HOlzel,
152 .
Am.Min.,1981,66,1277-1278
(Abs.);H6lzel,219.
H61zel,99.
Sov.Phys.Cryst.,1964,,406413;SR ,Z!i,254-255;Pov.,399;
Str.Tab .,394;H6Izel,200 ;RRW,
526.
Can.M in.,1996,34,811-815 ;
00
VI
1(l"'UUMg2uF2
(2co}[SI 41010] (2 )c
(Subs .d.Phloaoolte)
Na2,oJLl,u'H
O
{l co}[Ai {g}[P 04h
(Ca,Mn ,Feh"'AI"AI
(OH)!9}[SI41012]
(g}[B 0 3]
(..Ferro-axinite)
Pb 4(S04) (C03h
(OHh
Ca3(C8,Yh
(TI,A1,Fe)B4SI4022
KLiMg 2Si401aF2
HNa2LiAI(P04h
(OH)
(Ca,Mn,Fe~ hAbB
SUSANNITE
TADZHIKITE (Ce)
TAENIOLITE
TANCOITE
TINZENITE
Ca2(Mg,Fe)5
TSCHERMAKITE
(SieAh)~(0H)2
(NH 4,K)AI2(SbAI)
010(OHh
TOBELITE
SL.015(OH)
Mon.
Tric.
P'1
Orth.
Pbcb
Mon.
C2Im
Mon.
P2Ia
R~
Trig.
Orth.
Pnma
Hex.
P6/mcc
Mon.
C2Im
Mon.
P21/a
Hex.
P6/mcc
SPACE
GROUP
13=100.32'
Z=2
Wtl884'
13..a1"36'
Y"'7742'
Z=2
13=101 .31
Z=2
2=8
13=99.86
Z=2
13=10045'
Z=2
a=5.219A
b=8 .986A
c=10.447A
a=9.9A
13",105
b=18.oA
Z=2
c=5 .3A
c..a.96A
~9.16A
a=18 .944A
b=4.714A
c=10.302A
a=5 .231A
b=9.065A
c=10 .140A
a=6.948A.
b=14.089A
c=14 .065A
a",7.15A
M9 1(4c) Mgu(8d)
B(8d) S(4c)
F(4c) ...
K(2b) SI(8j)
(Li,M9M2c)
(L1,Mg)n(4h) ...
...
K(2a) SI(24m)
(Fe,Mn,M(4c)
Li(6f) Na"'112(8h)
(SI,AQ(8j)
Mg(4h) AI(4g)
(Mg,A1)(2d) ...
K(2a) Na(4d)
(Zr ,Fe,TQ(4c)
SI(24m) o.(12Q
OIt.III(24m) Li(6n
EQUIVAlNT
POSITIONS
a=10.009A Z=2
c=14 .006A
b=5.70A
c=11.10A
a=5.237A 13=972'
b';9.070A
Z=2
c=14 .285A
a=13 .~A
UNITCELL DIMENSIONS
~B~CrD.ExFy(con~)
car(Mg,Fe>S~0H)2 Mon.
{1co}[S~IAl2tomex
C2Im
(Subs .d.Tremollte)
Cot-ill
Mg3(B(OH)4h(S04) Mg3uB2'S[04(OH)s
(OH,Fh]
(OH ,Fh
SULFOBORITE
SUGILITE
SUDOITE
(Sr,Ce ,La)4L'"'Fe"
I07h
(TI,Zr)40a{g}[Sh
(Ti,Zr)40s(SI~7h
Subs .d.Chevklnlte)
0(OHh
M92(AI,Feh(SI~)
Mg2
[200[SbIAlI010]2.
01O(0H)S
{2co}[(AI,Feho(OH)all
(Subs.d.Cllnochlore)
KNa2Lb(Fe,Mn,A1h K,u'Na2"(Fe,Mn,A1hU
l
Sh 2030
Lb (g}[SI12~]
(Sr,Ce ,La)4Fe
STRONTIO-CHEVKINITE
K'U'Na"(Fe,Ti,Zr)"
(Li ,A1h 1{g}[SI12lQ3Ol
(..Mllar1te)
STRUCTURAL
FORMULA
KNa(Li,A1h
(Fe, Ti,Zr)Sh~30
CHEMICAl
FORMULA
SOGDIANITE
NAME
Table 157
{1co}[SlaIAl2b22] .ex
TSCHERMAKITE
Car(Mg ,Fe)5U~0H)
STRUCTURE TYPE
REFERENCES
Hl)lzel,215;LF,208 ,339;RRW,6
3D-631;Pov .,425-426 ;str.Tab.,
418 .
Hl)Jzel,228.
Am .Mln.,1983,~,850(Abs.) ;
Pov.,371-372;RRW,620 ;
Hl)Jzel,198.
Pov.,624;str.Tab.,279;Hl)lzel,
103.
MlnAbs.,85/4211 ;Am.Mln.,
1971,,1838-1839(Abs.);
Pov .,423;Hl)lzel,201.
Zelt.Krist.,1977 ,ll, 73-83;SR,
~,315-316;Pov .,430;RRW,
600;LF,231 .
Am.MIn. ,1984,i,215(Abs.);
Hl)Jzel,148;KlB,35-36.
(Abs.).
~ ,315;Am.Min. ,1977,.2,596
Am .Mln.,1988,n,595-600;SR,
RRW,590;Am.Min.,1967 ,~,
673-689 ;Am.Mln .,1963,~,
286-287SR.15.301-303.
Am .Mln.,1984,i,11921193
(Abs .);Hl)lzel,201.
00
0\
Na5(HC03h(C03)
WEGSCHEIOERITE
(Na,Ca ,Mn)(Mn,Fe
(Fe,Mg)A1(P04h
K(AI,Fe ,L1h(SI,A1)4
010(OH)F
(K,Nah(Mn,Fe)rZr2 (K,Nah
Sla027(OH,F)4
{200}[(Mn,Fe)rZr2o
SlelQ27(OH,F)4)
C..Astroohvlllte)
WYLLIEITE
ZINNWALOITE
ZIRCOPHVLLITE
Z=2
~ = 9S049'
(1=9155'
Z=2
~=109.36
...
Bal(6j) Bau(6m)
Mn(61) SI(120)
Na(Sg) CI(2a)
Be(2e) A1(2d)
SI(Sg) 0 HU(Sg)
EQUIVALENT
POSITIONS
Tric.
P"1 ...
...
Mon.
P2,/n
STRUCTURE TYPE
a=9.944A
~=10425'
b=17.951A Z=2
c=5.271A
y=10840'
Z=2
Ca(2a) Pb(6e)
a=8.560A Z=2
c=20.190A
AII~I(2b) ...
a=5.457A
b=7.151A
c=6.836A
a=10.04A
b=15.56A
c=3.466A
a=16.398A Z=3
c=7.200A
a=13.898A Z=8
a=8.583A
c=8.817A
Mon.
C2Im
Hex.
P31e
Trie.
P'1
Mon .
P2,fm
Hex .
P6/mmm
Cub.
Fd3
14
Tat.
SPACE
GROUP
ApBqCrO.ExFy (cont.)
K''''(AI,Fe,L1hO(OHt Mon.
{200}[(Si,A1)4'010)(2..
C2Im ...
(Subs.d.Phlogoplte)
NaCa(Mg,Fe)5
(SI,Al)aOn(OHh
NaLOJCalOJ(Mg,Fe)5
(OHh
{1oo}[(SI,A1)a'onf cx
(Subs.d.Tremollte)
Pb3l0J{200}[CaOA12
Shol~4(OH)a)
WINCHITE
WICKENBURGITE CaPMhSho024
(OH)e
Na(Ca,Mn)A1P04
(F,OH)3
VIITANIEMIITE
Na,DJ(Ca,Mn)"AtP
(04(F,OHhl
Ba4Mn2S14012
VERPLANCKITE
(OH,H~hCb
NaeMg2(C03)4S04 Naa,O'Mg2"
(g}[C tr03l4{g}[St041
TYCHITE
INa4C11
(3ao}[BetAltsI4t0 121
(Subs.d.Sodallte)
STRUCTURAL
FORMULA
Na4BeAISI4012CI
CHEMICAL
FORMULA
TUGTUPITE
NAME
Table 158
REFERENCES
H6Izel,224.
117-118 ;Am.Mln.,1974,9,
211 CAbs.)
Am .Mln.,1977,2 ,1158-1167;
LF,231 ;RRW,689;Pov.,443;Str
. Tab.,438;euro.J.Mln.,1996, ,
1241-1248.
RRW,677 ;SR,~,247;KIB,
Am.Mln .,1974,9,28Q.290;
Pov.,380;Str.Tab.,469;RRW,
669-670H6IzeI237.
Ene.Mln.Nam .,331;H6Izel,217;
RRW,672 ,518;Pov.,764,415.
00
-...l
Cs 4Mg840e(C03h
(OH)e
CU2P~(S04h(C03)
BORCARITE
CALEDONITE
EDENITE
DUGGANrrE
(SIrAl)~(OHh
NaCa2(Mg,Fe)s
PbFe3(S04)(P04)
(OH)e
AI:!(SbAl)010(OHh
.A b 33(OHl e
Pb:l(Zn,Cuh(TeQe>
(As0 4)(OHh
CORKITE
DONBASSITE
CS2AI3(SI20r)(Si04
(O,OHh
CLINOZOISITE
(OH)e
NaeBS3Tlr04
(SiPrl4{F,OH,Oh
BARYTOLAM
PROPHYLLITE
NallU'Cs210J(Mg,Fe)su
(OHh
{1oo}[SlrIAlt~i'cx
(Subs .d.Richterite)
Mon.
C2Im
Trig.
R3m
Mon.
C2
Hex.
P6/mmm
CalUJCslIU!
Mon.
{3ao}[Ab Si3to12(OH)] P2 1/m
(Subs.d.Zoislte)
Orth.
Pmn2 1
Mon.
C2Im
Mon.
C2 ...
Mon.
C2Ie
KLl 3Csr(TI,Zrh
(SI03) 12F2
BARATOVITE
8a3Na e"Tle
(F,OH,014
{200}m[5'; SblOrl4
Csi' ~U{g}[CU0312
{g}[8l 08(OH)e]
Mon.
P21/m
Mon.
Mon.
C2Im
SPAce
GROUP
Mon.
EQUIVALENT
POSITIONS
a=9.S5A
b=1S.01A
e=5.24A
c=5.20sA
s=S .47~
s=7.22A.
e=16.86A
s=S.S79A
b=5.5S3A
e=10.155A
s=20 .089A
b=7.14A
e=6.560A
13=10424'
Z=2
Z=1
Z=3
13=115.5
Z=2
Z=2
...
STRUCTURE TYPE
CS2,0'(Mg,Fe)4uAlu
(OHh
IAl'o:z212CX
.
{100}[SIr
MAGNESlo-HORN.
uAI U(OH)2
Cs 2,u'MY2 2
I022f cx
{loo}[SieAl2
'
ALUMINO-TSCHE.
Nal'CalOJMg4UFeU
(OHMloo}[SI81~212.CX
FERRIWlNCHiTE
NaPu'Ca2IOJ(Fe,Mg)e
(OHh
{loo}[SI/Alto2212.CX
EDENITE
Cal_II(2e)A1'_1I(2a Cs,u'CSIIUJ{3ao}[AbU
Ai lll(2e) SII~II(2e) Sb012(OH)
CLiNOZOISITE
Cu(4b) Pb,(2s)
Pbll.III(4b) S,(2a)
SII(4b) ...
s=s.70A
13=111.5
b=5.soA
Z=2
c=7 .S5A
a=16 .941A 13=112.5 K(4e) L11(4e)
L1 11(St) CSI_III(St)
b=9.746A
Z=4
Cs 1v(4b) ...
c=20.907A
a=19.96A
13=9630'
b=7.07A
Z=1
c=5 .43A
a=17 .840A 13=102.04 Ca(Sj) Mg(2s)
8,(4h) 8 11(41)
b=S.3SoA
Z=2
C(41) ...
c=4.445A
UNIT CELLDIMENSIONS
ApBqCrO.ExFyGz
ARSENTSUMEBI CuP~(AS04)(S04)
TE
(OH)
ALUMINO
W1NCHITE
K "'L13Cat(TI,ZrhU
t0
F2{g}[Sle 1812
uAl U(OHh
CS2'"'My2 2
{loo}[SleAl21~fcx
(Subs.d.Tremollte)
NsCsMg~ISI~22 NSlOJCSIO'Mg4UAIU
(OH)~loo}[Si8Iom2.CX
(OHh
CSubs.d.Tremolite)
STRUCTURAL
FORMULA
CS2,OJMY4
U A1U(OHh
CS2Mg~I(SlrAI)022
{1oo}[SIrA11022]2.ax
(OHh
(Subs.d.Tremolite)
CHEMICAL
FORMULA
ALUMINO
CS2Mg2AI2(SisAiv
TSCHERMAKITE 022(OHh
ALUMINO
MAGNESIO.
-HORNBLENDE
NAME
Tsble 159
HtlIzel,125;Am.Mln .,1991,Z,
1440CAbs.),
Pov .,425-426;Str.Tab.,41S;
RRW,1S5;LF,21 O.
Am.MIn.,1978,~,1016-1019;
405;Str.Tab.397;RRIJII,137;
Am.Mln.1986.711194-1197.
RRW,146-147;KlB,176;Pov.,
543 Str .Tab. 27SHtlIzel124.
HtlIzel,234;Str.Tab.,44S;Pov.,
443 Enc.Mln.Nam. 83.
Am.Mln.,1968,~,1S82189S:
SR,~,475-476:Pov.,404-
Tab . 279.
~,315-316;Pov.,5S9 ;Str.
1990;SR,~,376-377;SR ,
441 :Am.Min.,1965,~,2097
(Abs.);Pov.,474-475;Str.Tsb .,
250'RRW SD-S1.
Acta Cryst .,1973.m,19S8-
MlnAbs.,771501:SR,~,440
Am.Min., 1966,~,1549(Abs.);
Pov.,451-452;Str.Tsb.,394:
RRW 53;HtlIzel 200.
Mln.Mag.,1995,,,i,297-304;
~,368-369.
Am.Min., 1979,~,3S3-389;Am.
Min. ,1976,1,1 053(Abs.);SR ,
LF,20S.
Ene.Mln.Nam.,15;LF,20S;Can.
Min. ,1997 ,~,203-21S .
LF,20S211.
REFERENCES
00
00
BaFeMnp(Sb0 7)
(OH)
ERICSSONITE
FORNACITE
FERRO-PARGASITE
FERROKAERSUTITE
WINCHITE
FERRO~ERRI-
TSCHERMAKITE
FERRO~ERRI-
FERRO-EDENITE
FERROBARROI
SITE
FERRO
ALUMINOTSCHERMAKITE
FERRO-ALUMINOW1NCHITE
FERRI-wJNCHITE
Na''''Ab"Li"(OHa2
{200}(SI21A1210,ol .o)c
(Subs.d.Phlogopite)
FORMULA
STRUC1\lRAL
carMy3"Fet(OHh
2CX
{100}[SlsAl 2to221
CSubs.d.Tremolite)
NalOJCaIOIMg4Feu
NaCaMg4Fe'>+Sis
t022l2CX
022(OHh
(OHh{loo}[Sls
(Subs.d.Tremolite)
Ca21u'Fe3UAI2U(OHh
Ca2Fe;A12(SiBA! 2)
(100}(SleIAl2tOnI2cx
022(OHh
(Subs.d.Tremolite)
Na,u'Ca,01Fe4UAlu
NaCaFe~ISle022
(OHh(loo}[Sls'022l2.CX
(OHh
(Subs.d.Tremolite)
NaCa(Fe,Mg)5(OHh
NaCa(Fe,Mg)5
[SI7AI)02212.CX
(SI7A1)On(OHh
(Subs.d.Richterite)
Na"u'Ca2,oJ(Fe,Mg)su
NaCa2(Fe,Mg)5
(OHh(Sub.d.Rlchter.
(SI7A1)On(OHh
{100nSh'Aito n 12CX
Ca2,o'Fe5U(OHh
Ca2Fe3'"Fe2'>+
{100}(SlsIAI2102212CX
(SlsAb)022(OHh
(Subs.d.Tremolite)
NaCaFe/TFe""Sia Na,o'Ca,o'Fe5U(OHh
{100}[Sle102212.CX
022(OHh
CSubs.d.Tremolite)
NallUJCa210J(Fe,Mg}4U
NaCa2(Fe,Mg)4Ti
Tlo(O,OHh
(SiBA!2)(O,OHh4
{10011SIR1Ab1Onf cx
NaCa2(Fe,Mg,A1)5 NallU'Ca210J
(Fe,Mg,A05o(OHh
(SlsAI2)022(OHh
{100}[Si elAbto2i cx
(Subs.d.Richterite)
CuPIh(Cr04)
(AS04)(OH)
FERRICa2Mg3Fe2""
TSCHERMAKITE (SiBA!2)022(OHh
NaLiAb(SI2Ab)010
(OHh
CHEMICAL
FORMULA
EPHESITE
NAME
Table 160
A=10.00A
B=18.22A
c=5.31A
?
Mon.
C2Jm?
Mon.
P2,/c
Mon.
C2Jm
Mon.
C2Jm?
Mon.
C2Jm?
~=10530
Z=2?
a=8.101A ~=11000'
b=5.893A Z=4
c=17.547A
a=9.953A ~=10516'
b=18.152A Z=2
c=5.330A
Mon.
C2Jm?
Z=4
~=9530 '
Z=2
~=955 '
b=8.85A
c=19.30A
a-20.46A
b=7.03A
c=5.34A
?
a=5.1~
Mon.
?
Mon.
C2Jm?
Mon.
C2Jm
Mon.
C2Jm
Mon.
C2Jm
Mon.
C2Jm
Tric.
C2Jc ...
SPACE
GROUP
ApBqCrO.ExFyGz( cont.)
STRUCTURE TYPE
PblII(4e) Cu(4e)
Cr(4e) As(4e) ...
{100}[SlslAl2to221 .cx
TSCHERMAKITE
NaIO'CaIOJ(Mg,Fe)5U
10 cx
(OHh (100}[Sls 2i
WINCHITE
Na"u'Na2,oJ(Fe,Mg)4U
OHhFe O{ 100}(SIS102212.CX
PARGASITE
Na ,u'Ca2'o,
0(OHh
(Fe,Mg,A05
(100}[SislAl21022fcx
FERRO-PARGASITE
ca210J(Mg ,Fe)t~OHh
Ca210JMY3uFe2U(OHh
(100}(SisAl 2to2212.cx
FERRITSCHERMAK.
Na,u'Ca'o, Mg/Fe2u
(OHh (100}(Slst02212.CX
FERRI-W1NCHITE
Fel(4g) Fell(2a) ca 210'MY3uFe2u ~OHh
Ca(4h) AI(4h) ... {loo}[SisAbtonl .cx
FERRI-TSCHERMAK.
Na,u'Ca,oJMg 4uFe2U
(OHh {100}(Sist0 2i cx
FERRIW1NCHITE
NalU'CalOJ(Fe,Mg)sU
(OHh(l 00}[Si/AI1~212CX
FERROBARROISITE
. Na "UJcaIU'~,Fe)su
(OHh{100}(Si7Alt02212CX
EDENITE
EQUIVAU!NT
POSITIONS
REFERENCES
Zeit.Krist.,1967,lli,385-
,1980,65,996-1001.
H~lzel,215 ;LF,21 O.
LF,208.
H~lzel,216 ;LF,208 .
Str.Tab.,418;LF,210.
H~lzel ,215.
Enc.Min.Nam.,331;LF,208.
Mln.Mag.,1973 ,~,36-48 ;
LF,208.
Enc.Mln.Nam.,331;LF,208.
1696;RRW,192;Pov.,736;
Str.Tab.,440;LF,231 .
Am.Mln.,1971,~,2157(Abs
.);Pov.,398;Str.Tab.,394;
RRW.194-195HOIzel,200.
Enc.Min.Nsm.,99;LF,208.
\0
00
INa3CaS041
{3ao}[SI3tAJ3to l 21
(...sodalite)
Na3Ca(SI~13)012
(SO~
HAUYNE
(Pb,Sr)AJ3(504)
(P04)(OH)e
HINSDALITE
Trig.
Trig.
R'3m
Tric.
P'1
Tric.
P1 ...
Mon.
P2Ia
Cub.
P43n
Olth.
Abma
(Oe(OHMPb,Sr)[l~cIl R'3m
Pt>!l<J{2ao}(AJ3"As S
Oe(OH)e!
(Subs.d.Alunite)
AI30SP
(=Hidalgoite)
(Mn,Mg)eOZn3AS2 SI
(Mn,Mg)sZn3
(As04h(Si04)(0H)e (012(OH)et
PbAI3(S04)(As04)
(OH)e
HIDALGOITE
HOLDENITE
CaMgS(P04h(C03)
(OH)
HENEUITE
Na"u'Ca2,o'(Fe,Mg)sU Mon.
C2Im
(OHh
{1 ao}[SletAJ21022]2""
NaCa2(Fe.Mg)5
(SleA1v022(OHh
HASTINGSITE
P~m
Hex.
KNa22(S04)g(C03h
CI
HANKSITE
P21/a~
Cub.
Ca(Mn,Na.Li)eFe
AI2(P04MF,OHh
(C~(O.OHh
GRIPHITE
Hex.
Ca4Mn3-,.(8OJh
Mon.
C2
SPACE
GROUP
GAUDEFROVrrE
STRUCTURAL
FORMULA
Ca2MnOFeO(OHh
[(2ao}[Si2tzo2to 10]2.
{2ao}(Mn3o(OH)ell
(..chlorite)
Ca2Mn4FeZn2S12
01O(OH)e
CHEMICAL
FORMULA
Na"uJCa2'o,
(Fe,Mg.AOe "(OHh
(1ao}[SieIAJ2I022]2.Q(
FERRQ-PARGASI.
STRUCTURE TYPE
Pov.,513;H6Izel,124;str.Tab.,
278;RRW.273-274;LF.337.
311.
RRW,275;H6Izel.124;Pov.543;
Str.Tab.,278.
Am.Mln.,1988 .~ ,440(Abs.);
H6Izel,152:
SR,~ ,461-463.
H6Izel.139;RRW.267;PovS76;
Am .Min.,1970,~,11031114;
187;Can.Mln.,1989,2Z,173180.
Am.Min.,1977,~,89-99 ;RRW,
265;H6Izel.201.
262;SR,~.483-484;SB.166-
Min.Mag.,1977.~.43-50;SR,
!3.A.313;POV.i740,425;str.
Tab.,418;RRW,280;HOlzel.217,
LF.210SB.3.166-167.
Pov.,350;str.Tab.,483;RRW,
Soy.Phys.Cryst.,1975,22,8788;Am.Mln.1965,S.806-807
(Abs.);RRW.231 ;Pov.470;str.
Tab. 253SR.41A,288-289.
Am.Mln.1972.ll,289-272;SR.
~.349;Pov.,545;str.Tab
311'RRW248'K/B 101
Acta Cryst.,1973,a.799-801;
SR.~,303;Pov 589-590;Str.
Tab.,279;RRW,258;HOlzel.125.
Am.Min.1988 ,~ ,876-887;LF .
234;Am.Mln.1987.Z2.812-815;
HOIzel.235.
REFERENCES
Zn(1a) Pb,.y(21)
Crl.III(21) 51(21) ...
a=120"SO
/3=92"10'
y=55"84'
Z=1
a=6.3069A a=9S.013"
b=10.8386A /3=93.412'
c=8.6736Ay=1 01.039"
Z=2
a=7.04A
aR=6.97A
c=16.99A a=60"40'
Z=3
ZW=1
a=6.99A
aR=?A
a=89"'40
c=16.8A
Z=3
ZW=1
a=11 .99A Z=8
b=31.46A
c=8.697A
a=18.99A
b=4.71sA
c=10.30
a=9.497A
b=11 .443A
c=10.841A
K(2a) Nal(6g)
Nall(4f)Nalll(4e)
Nalv(6h)
Nav.v,(12n ...
a=9.8659A /3=10S.08' Na(4g) Ca(4h) 'I
(Fe.MgM2a)
b=18.0139A Z=2
(Fe.Mg)u(4h)
c=5.3545A
(Mo.Fe)III(4{j) ..,
a=9.12A
S(2a) AJ(6c)
Z=2
(Na,Ca)(8e)
SI(6<I) ;..
..
P(24d)0,.,y(24d)
(Mn.Na,Li)(24d)
a=12.222A Z=4
a=10.465A Z=2
c=21 .191A
Cal.II(6c) Mn(6c)
B(6c) C(2a) ...
EQUIVAU!NT
POSmONS
a=10.606A Z=2
c=5.879A
s=5.483A
b=9.39A
c=14.51A
UNITCELL DIMENSIONS
ApBqCro.exFyGz(cont.)
FRANKLINFURNACEITE
NAME
Table 161
\0
Na 3Mn3(Ti,Zr,Nbh
(SI207h02(OH,Fh
JANHAUGITE
Mon.
C2Im ...
LOTHARMEYERI CaZnMn
TE
(AS030 Hh(OHh
Mon .
C2Im
Orth.
Cmca
Trig .
R3m
Tric.
P1
Zn4Mn7(As04h
(Si04h(OH)e
KOLICITE
AhuSAs
[Oe(OH)e(Sr,Ce)[12
(=Hldalaoite)
Mn7Zn4AS2 812
[01e(OH)e)C
(",Holdenlte)
LAMPROPHYLLI (Na,Ca)(Na,Mnh
TE
(Sr ,BahTb(Sb0 7h
(O ,OH ,F)4
LOMONOSOVITE Na5Tb~(Sb07)
(P04)
(Sr,Ce)Ah(S04)
(AS04)(OH)6
KEMMLITZITE
1c1t
Tet.
P42 1c
Trie .
C1
KeAI4BSie020(OH)4 KeCIB(OH)4
CI
{3IXl1lSi.IAI}O",1
(K,Na)Li3Ca7Ti2
(Si03)12(OH,Fh
KALBORSITE
KATAYAMALITE
Trie .
P'1
Mon.
C2Im ...
P21/n
Mon.
Trie .
P1
SPACE
GROUP
Trie .
1'1
Na 2Mg4Mn12AS2Si1 Na2'D'Mg40Mn12oAS2
043(OH)e
Si 1/[043(OH)6F'
STRUCTURAL
FORMULA
a=11.310A a.=90.43
b=10.9ssA 13=90.02"
c=10 .317A r=90.16
Z=2
a=10.02A a.=104"30
b=9.54A
13=66
c=9 .89A
r=10830'
Z=8?
a=10.668A 13=107.82"
b=9.787A
Z=4
c=13.931A
a=10 .732A 13=953'
b=13 .847A Z=2
c=20 .817A
a=10.485A a.=107.11
b=11.065A 13=81 .17
e=9.654A
r=111.88
Z=1
a=9.851A Z=2
c=13 .060A
a=9.721A
a.-91 .43
b=16.923A 13=104.15'
c=19.942A r=89.94
Z=4
a=7.072A aR'"6.837A
c=16.51A
a.=61S1'
Z=3
z..=1
a=18.59A
Z=4
b=8.789A
c=12.04A
a=19.76A
/3=9630'
b=7.06A
Z=2
c=5 .40A
a=5.49A
a.=101
b=7.11A
/3=96
c=14 .50A
r=90
Z=2
a=9.066A 13=116.16
b=6.276A
Z=2
c=7 .408A
ApBqCrO.ExFyGz( cont.)
JOHNINNESITE
JINSHAJIANGITE Na5Ba4(Fe,Mnh5TI
SI15064(F,OH)e
CUPb10(Cr04)e
(Si0 4h(OHh
(B,SI,A1h
(SI,Be)1002eF
Ba2Ca2P~
CHEMICAL
FORMULA
IRANITE
HYALOTEKITE
NAME
Table 162
Zn(16g) As(8f)
Mn,(4a) Mnll(8d)
Mnlll(16g)...
Na(2i) As(21)
Sh.vl(2i) Mgl_II(2i
MglII(1g) ...
EQUIVALENT
POSITIONS
Bal,II(21) Ca(2i)
Pb',1I(2i) B(2I) ...
STRUCTURE TYPE
REFERENCES
Am.Min.,1985,1Q ,1334(Abs.);
Holzel ,177.
Mln.Abs.,79-2144;Pov.,746;
Str .Tab.,39S;RRW,363;H6lzel,
200.
Pov.,451;RRW,339;Hl)Izel,200;
Str.Tab.,394.
Am.Min.,1981 ,.,879(Abs.);
H61ze1227.
Am .Min., 1984,~,811 812 ;
H6Izel,208.
Mln.Abs.,87M12103;Am.Mln.,
1983 ,68,12161219;Hl)lzel,
200.
Am.Min.,1984,i,S67(Abs.);
Hl)lzel ,192.
Am.Min.,1982,lrl,1012.1020;
Pov.,417 ;RRW,287;HClIzel,226.
\0
Ca2Mna(Si04)
(Si2Or)(OH)a
CHEMICAL
FORMULA
Ca2(Mg,Fe)..AI
(SI7A1)022(OH,Fh
LiAI 4(Si2AIB)010
(OH)e
KNa 2Li(Mn,FehTb
Sl e024
MAGNESIO-HORNBLENDE
MANANDONITE
MANGAN
-NEPTUNITE
K"~JNa2uLiu(Mn,Fehu
Mon.
C2Im
CU7Te04(S04)s!<CI
NABOKOITE
NAGASHIMALITE Ba4(V.Ti)4B2Sie027
(O,OHhCI
Ba1oCa2MnTiSito
030(OH,CI,F)1o
(AS,P)04(OH)
Tet.
P4/ncc
Olth.
Pmmn
Tet.
P4/mmm
Mon.
P2 1/c
CuP~(MO.Cr)04
[0112(OH)Ie
(K,Nah.a)
Hex.
P3c1
Trig.
R3 ...
Mg40Mn9o~~itZn2SI2 Trig .
[017(OH)14t hch
R3c
Ti2Q{1oo}{Sl et0241
(~rfvedsonite)
Tric.
C1
(Ca,Na)I(4h)
(Na,Ca)n(41) ...
(Si ,AI)I~I(8j)
Na(4g) Fe(2a)
Z=2
a=13.937~
b=12 .122A
c=7 .116A
Z=4
a=9 .B4A
c=20.52A
a=16.38A
b=12.48A
c=10.01A
a=8 .457A Z=3
c=45 .970A
a=8 .22A
aR=68.7A
a=652'
c=20S.5A
Z=1B
ZR=6
K(2a) Zn(6f)
a=9 .777A. Z=1
c=33 .293A
AI(4d) Cal(4d)
Call_III(12g) ...
a=8.100A f}=109.17
b=5 .946A
Z=4
c=17 .65A
a=14.000A Z=1
c=5.625A
a=S.070A
b=8.776A
c=13.778A
a=9 .B6A
b=18.07A
c=5.333A
Ca2,uJ(Mg,FehuAlu
(OH,Fh
{loo}[Si7tAlt02212.cx
(Subs.d.Tremolite)
LiUAIU(OHh
tAl'et0
[200[Sh
101
Q(OH)ell
2oo[Ab
(..Chlorite)
f}=10529'
Z=2
a=9.BBOA f}=105.26
b=1B.012A Z=2
c=S.324A
f}=70054'
Z=?
EQUIVALENT
POSITIONS
a=9.80A
b=17 .B3A
c=s .30A
Mon.
P21/m
SPACE
GROUP
Lh,UJ(Mg,FehUAlt
Mon .
t02212chX P2Im ...
OHh{loo}[Sie
(Subs.d.Anthophyll.)
STRUCTURAL
FORMULA
ApBqCrO.ExFyGz(cont:)
(K.Nah-3Ca2eZn~l~ Ca2euAI~uZn~SLw'
SI4Q0112(OH)lS
MUIRITE
MOLYBDOFORNACITE
MINEHILLITE
MATHEWROGER Pbr(Fe,Cu)A1aGe
SITE
Si 12036(OH,H20)S
MCGOVERNITE
Mg4Mn~n~Sh
017(OH)14
NaCa2(Mg,FehFe
(SlsAl2)022(OHh
MAGNESIO-HASTINGSITE
KBa(Mg,Fe)s
(AI,Sc)Sis020F2
MAGNESIOCLINO Lh(Mg,Fe)aAI2Sie
HOLMQUISTITE
022(OHh
MAGBASITE
MACFALLITE
NAME
Table 163
MAGNESlo-HORN.
Ul
Dist .deriv.
J(Mg,Fe)aQAI Q
2
2chX
OHh{loo}[Sl e'o221
HOLMQUISTITE
Na 'UJCa2,UJ(Mg,Fe)4
Q(OH)2
AI
t02i cx
{loo}[Sie
'
PARGASITE
Ca2,uJ(Mg,Fe)4UAlu
{OH,Fh
2.CX
(loo}[Sir'A1'o221
STRUCTURE TYPE
REFERENCES
HOlze1122.
Am .Min.,1981 ,lm,638(Abs.);
HOlzel,206.
Am.Mln . ,1988,~,929(Abs.);
MinAbs.,81-23B7;Am.Min.,
19B5,.Q,314-340;Am.Min.
1965,50.150Q-1503RRW,42Z'
KIB ,17B;HOIzel,139.
Am .Min.,1987,Z2,1025(Abs.);
HOlze1237.
RRW,370;Pov.,394;Am .Min.,
19BO,,937-945;Am.Min.,
197B,3,15Q-159;Str.Tab.,377.
Am.Min.1995,Q,173-17B;Am.
Min.,19B4 .i,115Q-1155;
HOlzeI236.
HOlzel suppl,;RRW,379,433;
Pov. ,342-343;Str.Tab.,429.
183;HCllzel,21S;LF,20B,21O.
SR,~,433:Enc.Min.Nam .,
Zeit .KJist.,19B1,1,197-208;
HOlzel,217;LF,210.
(Abs.);HOIzel.217 .
Am.Mln.,1967,~,1S85-1586
Am .Mln .,1966,~,S3Q-531Abs.
Min.Mag. ,1979,~,325-331 .
\D
NlIo.~19(B03hSle
OLENITE
P21/m
(Se04)(OH)4
NaBe2(Mn,MghSn
Si 30 12(OH)
Ba4(Fe,Ti)4B2
(Sle027)02CI.
SVERIGEITE
TARAMELLITE
Orth .
Pmmn
Orth.
Imma
Trig.
Ram
P2,/m ...
SrAb(S04)(P04)
(OH)e
Mon.
(Sb~)(OHh
Mon.
P21
Mon.
?
Mn2Ab(Si04)
SVANBERGITE
SURSASSITE
P~Ah(SI,AI)4010
SURITE
(COJ)(OHh
Na(Mg,Fe)eA1
(SieAb)022(OHh
SODIUM
-GEDRITE
AboSP
[OB(OH)eSr)G'h
Mon.
CU2P~(SeOJ)
SCHMIEDERITE
Mon .
C2Ie
(OHhCI2
Ca,o(Sh~MSI04)
P21/n
Mon.
Trig.
R3m
Tet.
14
Mon.
C2Im
RUSTUMITE
NaI1U'(Mg,Feh'OJ
(Mg,Fe) 4oAlo(OHh
{1 oo}[SietAh~2 .coc
iSubs.d.Richterite)
Na,'UjNa2,U'Mg3 AbU
(OHh
{loo}[SI7IAlto22fCOC
iSubs.d.Arfvedson.l
Na2NaMn2Mg2
(AI,Feh(P04)e
.(Na,Cu)CI
~CU402(S04)4
SPACE
GROUP
Na2uLi0(Fe,Mg,Mnhu Mon.
oSIBt[024KJ
C2Ie
T1 2
STRUCTURAL
FORMULA
Z=2
~=1 04.11
Z=4
~=11526'
~=96 .1
Z=2
~=108.4
Z=2
K(4e) Li(4e)
Na(81) Ti(8f) ...
EQUIVAU;NT
POSmoNS
REFERENCES
Na"u'(Mg,Feh'U
,
(Mg,Fe)4oAlo(OHh
(loo}[SieIAl2tOn]2COC
SODIUM-GEDRITE
Pov.,373-374;Str.Tab.,404;
He>lzel 206 'RRW 603-604.
Am .Min.,1989,:M,1343-1350;
Am.Mln.,1985,,ZQ,1332;H6Izel,
247.
Min.,1987,~,201-211.
Am.MIn .. 1964,~,168-173;
Pov.,405;RRW,592;Str.Tab.,
397H6IzeI202.
SR,l1,40B-409;RRW,593-594;
Str.Tab.,277;Pov .,543;Can.
He>lzel 203.
Mln.Abs.,87-3984;Am.Min.,
1988,ll,199(Abs.);Pov.,577;
Str. Tab .,276;H6Izel122.
He>lzel,218.
Am .Min.,1965,~,21 O4(Abs.);
Am.Min .,1979,M,659(Abs.);
STRUCtuRE TYPE
AbuAsS
aR=6.89A Sr(3a) AI(4d)
0.=60038' (S,P)(6e) 01(6e) [OB(OH)e p!f12,cIh
01l(18h)
HIDALGOITE
lR=1
(OH)(18h)
Sn(4a)
a=10 .815~ Z=4
(Mn,Mg)(Sg)
b=13.273A
Na(4b) Be(81) ...
c=6.818A
B(41) Bal_II(2a)
a=12.150~ Z=2
b=13.946A
Balll(41)
(Fe,Tl)(Sg) ...
e=7.129A
a=5.22A
b=8.97A
e=16.3A
a=8.82A
b=5.84A
e=9.71A
a=6.96A
c=16.8A
Z=3
a=11.856A ~=114.45
b=12.411A Z=2
e=6.421A
a=7.62A
~=10420'
b=18.55A
Z=4
c=15.51A
a=9.922A ~=101.96
b=5.712A
Z=2
e=9.396A
?
a=15.803A Z=3?
c=7.086A
Z=2
a=13.6?A
e=4.94A
a=16.46A
b-12.50A
c=10.01A
a=9.665A
b=17.752A
c=5.303A
ApBqCrO.EllFyGz(cont.)
QINGHEIITE
PIYPITE
Na3Mg:Ah(Si7AI)
22(OHh
NYBOITE
01e(O,OH)4
KNa 2Li(Fe,Mg,Mn)
TI2SIe0 24
ULA
F
~=~AL
NEPTUNITE
NAME
Table 164
1.0
W
STRUCTURAL
FORMULA
SPAce
GROUP
NS2CS~rNb
WOHLERITE
ZIMBABWEITE
ZOISITE
Trig.
AI30SP
[Oe(OH)sCa(121f!'
WOODHOUSEITE CaAI3(S04)(P04)
(OH)e
(Ta,Nb,T~~401e
Na(P bNao.5Ko5h
R~m
Mon.
P21
(Sh07l2(O,F)4
Na2Ca4"Zr'.Nb 4
[014(O,F)4]cIh
(Subs.d.Lavenite)
P4/n
Tet.
(Mn ,Mg)14(B205h
(OH)e(Si,Mg)
(00H)4CI
WISERITE
~o
Tric.
P'1
CS2Mg4Be2FeSbSi
WELSHITE
(OH)
oSi
Mon.
CUP~(Cr04)(PO.c>
VAUQUELINITE
(OH)eCI
P21 /n
Tet.
P4/nmm
NaCa2AI4(C~)4
TUNISITE
Mon.
P2 1/m
CUP~(P04)(S04)
TSUMEBITE
(OH)
Mon.
Pn
Pb:lMn(As03h
(AS020 H)
Orth.
Pmmn
TRIGONITE
CIx<gH~Si8t~7]
Ba4(Ti,Fe,Mg)4B2
Sie02P2C1x
Bar(Ti,Fe,Mg)/~
CHEMICAL
FORMULA
a=16.23A
b=5.51A
c=10.16A
b=15 .287A
c=8.664A
s=12 .245~
a=B.993A
c=16 .386A
Z=3
Z=4
Z=4
Z~1
aR=6.7A
a=6204'
a=10.823A 13=109.0
b=10.244A Z=2
c=7 .290A
a=13.754A 13=9434'
b=5.80BA
Z=4
c=9.563A
a=106.o
a=10 .28A
b=10.B9A
13=96.3
c=8 .83A
.,=124.8
Z=2
a=20.19?A Z=2
c=3 .281A
ApBqCrOsExJ:yGz( cont.)
TITANTARAMELLITE
TINAKSITE
NAME
Table 165
REFERENCES
...
01.11I(16g) ...
Cal.II(4c) A1 1(8d) Ca2(/){300}[AhS1 310 12 Wyckoff,~ ,251253;Am.Min . ,
AI II(4c) Sil.III(4c) (OH)]
1968,53,1882-1898;LF,191 ;
SR,2.Q, 396-398;Pov.,404-405;
ZOISITE
Str.Tsb., 398.
(Ta ,Nb,T~(16g)
Na(4b) As(16g)
(Pb,Na,K)(8f)
Cal-lV(2a)
Si..,VC2a) ...
(Zr,Nb)I~I(2a)
1374-1376;Pov.,473;str.Tab.,
256 'RRW 672.
(Si Ma)(2a) ...
Nal.II(2a)
RRW,667;H()Izel ,218;Am.Mln.,
1979,M,244(Abs .).
Min.Mag.,1978,~,129-132;
258-259(Abs.);Pov. ,545;Str.
Tab. , 325;RRW,631 .
Am.Min.,1982,!U,418(Abs .);
Am .Mln. ,1969,54,1-13 ;Pov. ,
621 ;Str.Tab. 242 'RRW 634.
Zeit.Krist.,1968,m,433-443;
SR,m,405-406 ;Pov.,576;Str.
Tab.,300;RRW,649 .
Min.,1980,~,123-128.
Am .Min.,1984,2,358-373;Am.
365366 ;SR,~,394-395.
Acta Cryst.,1980,~,259-263 ;
RRW,619;Str.Tab.,421;Pov.,
Mnll~v(8g)
AbAs S
[Oe(OH)ePb(l2]r'
HIDALGOITE
STRUCTURE TYPE
B1_1I(8g) Mnl(4d)
...
...
CUI(2d) CUII(2b)
Pb l_II(4e) Cr(4e)
EQUIVALENT
POSITIONS
!<J~1(2i) Na(2i)
Cal_II(2i) TI(2~
\D
BITYITE
BARROISITE
LiCaAb(Si2BeAl)
01o(OHh
(SI7A1)On(OHh
NaCa(Mg,Fe)~2
ARSENOGOYAZI (Sr,Ca,Ba)Ab
TE
(As04)(As030 H)
(OH)e
ATlASOVITE
CUeFeBI04(S04)S
.KCI
BALIPHOLITE
LiBaMg2Ab(SbOeh
(OH)4F4
(Ca,Sr)A13(As0 4)
(AS030 H)(OH)e
ARSENOCRANDALLITE
CaL''Li"A12"~OH)
2oo}[SbIBeIAI 0 101(21)0
(,.,Phlogopite)
Na,u'Ca,u'(Mg,Fen
AhO(OH}2
{100}[Si7 A1lo22)2.cx
Mon.
C2Ie ...
Mon.
C2Im
Tet.
P4/ncc
Orth.
Ceca
Trig.
07(OH)(OH)e(Ca,Sr) R3m
=Crandalite)
Trig.
R3m ...
A13u~
om
KNa4Ca{Fe,Mn)14
AI(P04)12(OHh
ARROJADITE
(AS04)(Si04h
(Si301o)(OH)e
Mn'.1I(4f) AI,(4e)
AIII(4d)
(AI,Mg)(4e) ...
a=8.712A. Z=2
b=5.8108A
c=18.5214A
Orth,
Pnmm
Mn410lIJ{300}[A1s-x"
I0
Mg1.x"AS 4Sh!Q10
(SI 04h(OH)e)
(,.,Zoisite)
Mg1.xMn~l5-x
ARDENNITE
Mon.
C2Im
NallUINaI01Ca,OJFe3U
AI20(OH}2
1
2CX
{100}[SieAl2 0221
Na2CaFe;A12
(SisAh)022(OHh
ALUMINO-TARAMITE
Mon.
C2Im?
Na ,u'Na1U'Ca,Uj
(Fe,MghoAlo(OHh
{lOO}[SI7IAlI022)2.cx
(SI7AI)022(OHh
Na2Ca(Fe,Mg)~
(OHh
Z=2
~"'10645
Mon.
C2/m?
STRUCTURE TYPe
Na'0lCa,o'(Mg,FenU
AbO (OHh
{100}[Si7IAltc 22)2CX
BARROISITE
Car1Fe4"A1 U(OHh
(loo}[SIrIAltc 221 2CX
ALUMINO-FERO-H.
Na ,u'Na,u'CaLo1
(Fe,MQ)/A1(OH)2
{100}[SI7IAltc22l2.cx
ALUMINC-KATOP.
Na"U'NaL01CaLD,
(Mg,FenoFB2(OHh
(100}[SlelAI2102212.cx.
TARAMITE
Ca2LOJFe4UA1"(OHh
{100}[Si7IAII022l2.cx
EQUIVALENT
POSITIONS
Ca2Fe~I(Si7A1)022
c..5.33A
~18 .04A
a..,g.80A
SPACE
GROUP
Mon.
C2Im
ApBqCrD.ExFyGz.
STRUCTURAL
CHEMICAL
FORMULA
FORMULA
NaLO'CaLO'Mg3UAlt
NaCaMg;Ah(SI7AI)
022(OHh
(OHh
{100}[SI/AII0 22l2CX
ALUMINO-FERRO-HORNBLENDE
ALUMINO-KATOPHORITE
ALUMINO-BARROISITE
NAME
Table 166
REFERENCES
Pov.,448;Min.Abs.,88M12590;
LF,231; HOIzel,229;Str.Tab.,
440RRW75.
Am.Mln .,1983,~,130142 ;
Ene.Mln.Nam.,32;HOIzel,215;
Str.Tab.,507;Pov.,728;LF,208.
Am.Mln.,1986,l1,845-846
(Abs.);HOlzel,175;Ene.Min.
Nam.24.
Am.Min.,1988,U,927(Abs.);
HOlzeI122.
Min.Abs.,88M/1796;Am.Min.,
1976,1,338(Abs.); HOlzel,214.
310'KIB128-130 160.
Am.Mln.,1982,jU,854(Abs.);
Ene.Mln. Nam.,23;H6Izel,155.
Min .Mag.,1979,~,227235;
SR,~ ,403 ;Pov.,538;Str.Tab.,
Acta Cryst.,1968,~,845-855 ;
f\m .Mln.,1985,ZQ,171-181 ;
Pov.,406;Str.Tab.,400;RRW,
32;LF,191.
Am.Min.,1981 ,,1034-1 049;
Enc.Min.Nam.,15;LF,21O.
LF,210.
LF,208.
Enc.Min.Nam.,15;Deer,Howie
+ Zussman,2,267; LF,208.
'-0
Vl
Na7BaTi2NbSl~0'7
BORNEMANITE
ELBAITE
DUSSERTITE
DRUGMANITE
DRAVITE
DOLLASEITE (Ce)
DIXENITE
uP
R~m?
(Subs.d.Alunite)
Na(Li,AlhAle(B03h NaL"'~'(L1,AlhU AleU
(OH)4!{g}[Blf03l3
Si eO'8(OH)4
{g}[Sie O,ell
R~m
Trig.
Trig.
~(OH)(OH)el
(As030H)(OH)e
BaFe3(AsO~)
07(OH)(0H)21
(...Oatolite)
Ba(1J{2CO}[Fe3oAS2
Mon.
P2,/a
2ao[P~lOJ(Fe,Al)P2
P~(Fe,AI)(P04)
Trig.
R3m
(P0JOH)(OHh
Ca1"(Ce,La,Nd)'"
{3ao}[ Mg2AlSi 3tol'
(OH)F]
(Subs .d.EDidote)
NaMg;,Ale(B03hSl e Na'''''Mg3u AleU(OH)~
lr
0,8(OH)4
({g}[B 0313
{g}[SietO,ell
(OH)e
Ca(Ce,La,Nd)Mg 2
AISi 30,,(OH)F
Mon.
P2,/m
Trig.
R3
(As03l5(SiO~h
AI(P04),2(OHh
CuFeMn,~(As04)
R~m
Trig.
Mon.
A2Ja
AI3 2
[~(OH)(OH)eCll['2JI
(=Oussertite)
Trig.
R3m
Trig.
R3e
Trig.
R3m
Orth.
Ibmm ...
SPACE
GROUP
(Ce,La,Ca}I.11I
(18b) SIIII(6a)
(Fe,Mg)(6a)
Skll(18b) ...
...
Na(3a) B(9b}
Fe(9b) Al(18e)
EQUIVALENT
POSITIONS
aR=13.36 MI_11I(3a)
a=3548' Mlv-vII(9b)
CUI.II(3a)(v.oce.)
z..=1
Ca(2e) Ce(2e)
~=114 .31
Sil~II(2e) ...
Z=2
Z=4
~=105.60"
Z=4
a=11.11oA ~=9018'
b=7.976A
Z=2
c=4.844A
a=7.40A
aR=7.23A
c=17.48A
a=61 37'
Z=3
z..=1
a=15.838A
e=7.1032A
Z=3
a=15 .947A
c=7.194A
Z=3
a=8.233A
e=37.499A
Z=3
a=8.934A
b=5.72.1A
e=10.176A
a=7.005A
e=16.192A
Z=3
a=24.940A
b=10.131A
e=16.722A
a=16.11A
c=7.27A
Z=3
a=10.779A
e=38.061A
Z=6
a=5.48A
b=7.10A
c=48 .2A
a=15.869A
c=7.188A
Z=3
ApBqCrO.ExFyGz..(cont.)
KNa~Ca(Mn,Fe),4
(P030H)(OH)e
CaAI3(PO~)
CRANDALLITE
(OH)4~{g}[B '0313
{g}[Si eO,el
Na''''~IMg3g~Cr,Fe)eo
(OH)~I
(Si030H)(OHh
NaMg3(Cr,Fe)e
(B03hSl eO'8(OH)4
{3>0}[ (Ce,La,Ca)9ao
(Fe ,Mg)S i/027
CHROMDRAVITE
DICKINSONITE
tr0
[ {g}[B 313
{g}[SietO,elI
Na''''~IFe3gAleg(0,F)~
STRUCTURAL
FORMULA
(Fe,Mg)(SiO~)e
(Ce,La ,Ca)9
CERITE (Ce)
O,e(O ,F}~
NaFe;,Ale(8OJhSie
BUERGERITE
(PO~)(F,OH)
CHEMICAL
FORMULA
NAME
Table 167
REFERENCES
{g}[Sie0'81 I
ELBAITE
(OH)4~{g}[B 0 313
Na''''~'(Li,Al~3UAleU
{g}[Si eO,ell
ELBAITE
(OH)~~{g}[B 0 313
NaL"'~I(Li,Al~3oAle
(OH)4~{g}[B '0313
{g}[Si e O,el I
ELBAITE
NaL"'~'(Li,Al~3gAlec
RRW,93;Pov .,377;Str.Tab.,
408.
Am.Min.,198M,996-1 003;
{g}[Si eO,el I
ELBAITE
SR,m,340;RRW,187;Pov.,
377;Str.Tab.,407;H61zel,208.
Min.Mag.,1979,43,463-467 ;
Pov.,437-438;KIB,161 ;Am .
Mln.,1989 ,:M,951 (Abs.).
Pov.,513;Str.Tab.,326 ;RRW ,
182;H6Izel ,155 .
H6Izel,209;LF,195;RRW,179;
Str.Tab. ,4Q8;Pov.,735,377.
311;Pov.,543;Str.Tab.,325;Am.
Min.,1980,65,953-956.
Am.Mln .,1981,66,1034-1049 ;
Pov.,735,538;Str.Tab.,311;
Am. Mln .,1965 .~,1847-1669;
H61ze1154.
Am.Mln., 1981,66,1263-1273;
Pov.,390;Zeit.Krist.,1968,ill,
309-318;Str.Tab.,377.
Am .Min.,1988,73,836-842;
H6Izel,202;LF,190.
Am.Mln.,1974,~,41-47;LF ,
Pov.,389;Str.Tab. ,380;RRW,
115.
Am.Min .,1984,!m,210(Abs.);
LF,195;HOlzel,209.
Am.Mln.,1958 ,~,46D-475;
Acta Cryst.,
Am.Mln.,1976,1,338(Abs.};
HOlzel,193.
Na'''''(LI,Al~3gAleU
(OH}~~{g}[B 0 313
STRUCTURE TYPE
\0
0\
Ca/PFe2UAI4U(OHh
{gHB2ISle10 30)
Ca2FeAI2(B030H)
(SI03)4
Na'DJCa'D'FesU(OHh Mon.
{loo}[Sir'A1I022)2.ex
C2Im?
(Subs.der.Tremolite)
Trig.
(Ca.Na)(Fe,Mg,Tih (Ca ,Na)'''''~J
(Fe.Mg,TIhoAiso
R3m
Ale(BOJhSleOle
(OH)4
(OH)4~{gHB"03h
iallSls'O;~l1
BaAI3(P04)
AbuP?~Or(OH)(OH)s Mon.
Ba(121
(P0 30H)(OH)e
Cm
(Dlst.d.Dussertite)
SrAb(PO~)
A~uP210r(OH)(OH)e Trig.
12
R~m
(P0 30H)(OH)e
S 1
(=Dussertite)
FERRO-AXINITE
FERRO-FERRIBARROISITE
GOYAZITE
GORCEIXITE
FERUVITE
FERROALUMINO-BARROISITE
FERRI-TARAMITE
Na"UJNa,oJCa,OIFesU
(OHh
{loo}[SlrIAlI02212CX
iSubs.d.Rlchterite)
Na"u'Na'DlCa,D'FesU
Na2CaFe3"Fe2~(OHh
(Si~h)OZ2(OHh
{loo}[SlsIAhto22f""
(Subs.d.Rlchterite)
NaCaFeJAb(SirA1) Na'D'Ca'D'Fe3 Abu
(OHh
0 22(OHh
NaCaFe3" Fe2'"
(SIrAl)0 22(OHh
Na2CaFe/-Fe'"
(SirAI)022(OHh
{looHSlrIAl~)2ex
Mon.
C2Im?
a=12.216A ~=125.4
b=7.033A Z=2
c=7.046A
a=7.013A
c=16.650A
Z=3
a=16.012A
c=7.245A
Z=3
a=8.953A a=102041 ,
b=9.202A ~=9Sog'
c=7.165A y=SSS'
Z=2
?
Mon.
C2Im
a=16.2QA
c=7.47A
Z=3
?
Tric.
P'1
EQUIVAUlNT
POSITIONS
Ca(3a) AI(1Sc)
Si(1Sc) ...
Mon.
C2Im?
Trig.
R3m
FERRIKATOPHORITE
{g}[Sis
o-n
(Na,K)'''''~I~~3uFesu
(OH)4~{gHB 0313
(Na,K)Mg3Fes
(B03hSi e01s(OH)4
Mon.
C2Im
Trig.
R"!m
Mon.
P21/m
SPACE
GROUP
FERRIDRAVITE
Na,01CalOlMg3UFe2
(OHh
IOnl2CX
{loo}[Sir'A1
iSI3tOgi2{g}rsjg()27i~i
cat{300}[FeoAl2o
SI3012(OH)
(Subs.d.Zoisite)
NalSuCaeuF83u
(OH.CIM2al}[Zr30{g}
STRUCTURAL
FORMULA
NaCaMg3Fe2'>+
(SirAI)OZ2(OHh
(OH,CI)~
(SI~9h(SI9~rh
NaleCaeFeJZr3
(SiO~)(O.OHh
Ca2FeAh(SI2Or)
CHEMICAL
FORMULA
ApBqCrO.ExFyGz..(cont.)
FERRI.
-BARROISITE
EUDIAl-YTE
EPIDOTE
,.AME
Table 16S
e-n
Na,DJCa,o'FesU(OHh
{loo}[SirIAlI022)2.ex
FERRO BARROS.
o
Na'~~'(li'~3 Als
(OH)4~{gHB 'OJh
{g}[Sis
ELBAITE
Pov.,543;Str.Tab.325;RRW,
244;I<IB,153;HBlzel,174.
Mln.Mag . ,19S3.~,221-227;
543;Str.Tab.326;LF,311.
SR,~,322-323;Am.Mln .
1958 .~.688-694;KIB,49;Pov .,
Can.Mln.19S9,2I,199-203;
HBlzelsuppl.;LF,195.
Am.Mln.197S.~,1023-1052 ;
LF,20S.
Na,u'Ca,u'(Mg.FehU
Aho (OHh
{loo}[SIr'Alto22)2""
BARROISITE
Na'''''~J(Li.A1~3 U AisU
Am.Mln.,1979,~.945-948 ;
(OHh~{gHB 0 313
HBlze1 ,209.
{g}[Sls 01al)
ELBAITE
Na"u'Na,u'CalD1FesU Am.Min.1978 .~, 1023-1 052;
(OHh
LF,210;HBlzel,216.
{l oo}[SlrIAlto 22)2CX
FERRIKATOPHO.
Nat,u1Na,D1Ca'UlFesU SR,~ ,306 ;Enc.Min .Nam . ,99
LF,210.
(OHh
{loo}[Sir'A1t0 22)2ex
FERRI-KATOPHO.
NaIOICa,oJ(Mg.Fehu Am .Mln . ,1978,~ ,1023-1052 ;
Abo (OHh
LF,20S.
{loo}[Sir'A11022f ex
BARROISITE
Ca4""Fe2UAI4U(OHh HBlzel,19S;RRW,211;LF,197;
{g}[B2ISleto3O)
Str.Tab.,405.
FERROAXINITE
190;Pov.405;Str.Tab.,397;SR,
39A,341 .
SOY.Phys.Cryst.,1971 ,1.7074;SR.m,332-334;RRW,199;
Pov.369-370;Str.Tab.,403.
Enc.Mln.Nam.,9S;LF.20S.
ca~J{300}[FeoA12
SI3 12(OH)
EPIDOTE
REFERENCES
STRUCTURE TYPE
-...)
'"
Sbto 12(OH))
CSubs.d.Eaidotel
(Si04)(O,OHh
Zn3FeMn2~S501e
KRAISSLITE
LUSUNGITE
L1DDICOATITE
KEGELITE
NaL1U'Ca2'Q'(Mg,FehU Mon.
TiO(OHh
C2Im
{1oo}(SleIAl2102212.Cll
(Subs.d.Rlchterite)
Mon.
PbeAI4Sle0 2o(S04)2
(C03l4(OH)e
A21m?
Hex .
P6J22
(Sr,Pb)F9J(P04)
(P03 0H)(OH)e
(Li,AlhCaAle(B0 3h Ca''''~I(Li,AlhuAleu
Trig.
(O,OH,F)4({gHBlr03b R3m
Sie01e(O,OH,F)4
t0
{g}[Si e 1ell
(Si04)e(OH)1e
NaCs 2(Mg,Fe)4Tl
(SieAb)022(OH)2
P1
rne,
KAERSUTITE
{300~a4L lUllllNa2Ca
Tb[ 04{g}{S'o4b
{g}(Shto7b I
Na2B84CaTb04
(SIP7h(S04h
INNELITE
Trig .
P31m
Mg12(P030 H,P0 4)
(P04)5(OH ,O)e
HOLTEDAHLITE
03F~
Tric,
P'1
HIORTDAHLITE II (Na,Ca)4Cae
(y,NahZr2(Si207)4
Hex.
P6/mmm
Mon.
C2Ic
Trig .
R!m
Mon.
P21/m
SPACE
BROUP
Tric .
P'1
(B03l4(Si04)4
(HoO CI)"
Fe3(Mg,Mnh4Zn1e
CS04MC03l2(OH)e1
Na2Ca3B50e(S04h {2ooMNal'lrlca31~1
(OHhCI
.
~[~ S2101e(OHhCII
Ca12Mg~I(C03)4
STRUCTURAL
FORMULA
Cal~IPbl"Jj{3oo}(Ab
CHEMICAL
FORMULA
CaPbAI3(SI20 7)
a=7.04A
c=16.SoA
Z=3
aR=6.92A
a=6112'
z,,=1
a=21.04A
/3=91 .0
b=15 .55A
Z=3
c=S.986A
a=S.22A.
c=43 .SsA
Z=2
a=15.88?A
c=7 .135A
Z=3
a=900
/3=95
1"'99
Z=1
a=9.8920A /3=105.3So
b=1S.064A Z=2
c=5 .3116A
a-11 .203A
c=4.977A
Z=1
a=14 .76A
b=7.14A
c=5 .3SA
a=S.95SA
/3=114.4
b=5.665A
Z=2
c=10.304A
a=1S.131A
c=33.46A
Z=2
a=9 .17A
Z=1
c=30.21A
a=10 .21A
/3=93.5
b=7.84A
Z=4
c=1S.79A
a=11.0119Aa=109.35
b=10 .940A /3=109.S7
c=7.3534A 1"'83.434'
Z=4
ApBqCrO.EllFyGz. (cont.)
HIORTDAHLITE I Na4CaeZr2(Nb,Mn,
TI,Fe,Mg,A1h
(SI20 7)4 03F5
HEIDORNITE
HAUCKITE
HARKERITE
HANCOCKITE
NAME
Table 169
Ca(4h)
(Si,AI)141(Sj)
(Mg,Feli(4h)
(Mg,Fe)II(4g) ...
BaI4.,(1a)
Nal.II(1a)
n .III(1a) ....
Na(8f) Ca,(4e)
Call(8f) BI41(Sf)
BIII(4e) ...
C8(2e) Pb(2e)
AII(2a) A111(2b)
AIII;(2e) ..
MQI(3b) MgII(3e)
MglII(2c)
Ca,~;~6hl ...
EQUIVALENT
POSITIONS
REFERENCES
(Abs .).Pov.,543;Str.Tab.326;
RRW,36S;KIB,15S.
Am.Mln . ,1959,~,906-907
MinAbs.82M10143;H6Izel,
209 ;LF,195.
(g}[Sle 01ell
ELBAITE
Am.Mln.,1977,~,1121-1124;
(0H)4~{gHB 0 313
Am .Mln . ,197S,~,938-940;
(Abs.);Am.Mln.,19S0,.,S09S10CAbs.I:KlB 152.
Sov .Phys.Cryst .,1971 ,1, 65-
~nc.Min.Nam .,131.
69-1968;Pov.,488--4S9;Str.
Tab ., 264;RRW,284.
MlnAbs.,88M12906;H6Izel,
199;Pov .,741,399 ;Str .Tab.,
533; RRW,275.
SR,~,504-506;Min .Abs . ,
m ,332;pov.,740.405 ;Str.Tab.
397;RRW,25S .
Am.Mln.,1977,2,263-272;SR,
!M,228-229;Pov .407-408;
Str. Tab. 384'RRW 259.
Am.Mln .,19S0..,192-195;
H61zel135.
Am .Mln .,1971,~,447-464;SR ,
Nal"'~J(Li,A163 AleU
0
Na ,u'Car(Mg,Feh
Tio(OHh
{1oo}[SleIAbIOnI2.Cll
KAERSUTITE
STRUCTURE TYPE
\0
00
STRUCTURAL
FORMULA
Mon.
P21/a
Na3Ca3(Ce,La)Nb
(SiZ07hoF3
NaCaz(Mg ,Fe)~1
NACARENIOBSITE -(Ce)
PARGASITE
PHIUPSBORNITE PbAb(As04)
(As030 H)(OH)a
(SiaAlz)Ozz(OHh
(OH) 12]
(=Oussertite)
AI30~~(OH)
Trig.
R3m ...
Na',u'Caz,o'(Mg,Fe)4U Mon.
Alo(OH)2
C2Im
{1oo}[SiatAlzto2icx
a=10.58A
b=23.00A
c=5.35A
a=18.89A
b=7.22A
c=11 .31A
a=7.161A
b=9.190A
c=8.978A
Mon.
A21m
13=112.43'
Z=2
13=102"
Z=2
EQUNALENT
POSITIONS
a=7.11A aR'"7.01A
c=17.05A a=60.94
z.,=1
Z=3
a=88.26
13=81.80
y=77.26
Z=2
a=18.901A 13=101.290
b=5.683A Z=2
c=7.462A
a=9.834A 13=105.04 Ca(4i) A1(2a)
(Si,AOI~I(8J) ...
b=18.01A Z=2
c=5.297A
a=8.933A a=102.S9O
b=9.15SA 13=98.28
c=7.121A y=88.09O
Z=2
?
Mon.
C2Im?
Tric.
P'1
NazCaMg.Feo,
(Si7AI)Ozz(OHh
MAGNESIO-FERRI-KATOPHORITE
Mon.
C2Im?
Trig.
P1...
Mon.
C2Im?
Mon.
C2Im?
SPACE
GROUP
Mon.
C2 ...
Na',u'Na,o'Ca'O'Mg4U
AIO(OHh
Ozz(OHh
{1oo}[Si71AlIOzzI2CX
CSubs.d.Richterttel
Nal1U'Na,OlCa,O'Mg3o
NazCaMg;Alz
A1zO(OH}z
(SieAlz)Ozz(OHh
zcx
{1oo}[SiaAl/022l
(=Tamartte)
CazMgAlz(B030H) Ca4.uMg~U Ai4U(OHh
{g}[Bz1Sia 030)
(S103)4
CHEMICAL
FORMULA
NazCaMg~I(Si7AI)
ApBqCrO.ExFyGz...(cont.)
Na',u'Na,o'Ca'O'Mg 4U
FeO(OHlz
{1oo}[Si7A110zzlzCX
Subs.d.Arfvedsonltel
Na ,u'Na,o'Ca'O'Mg3U
NazCaMg3Fez~
MAGNESIO-FERRIFez(OHh
(SieAlz)OdOHh
-TARAMITE
{1oo}[Sia1Alztozz)2.cx
Subs.d.Arfvedsonitel
MAGNESIUM
KzNazMgzFesTi2Sia Kz'f'Naz lf'
ASTROPHYLLITE OZ4(0,OH,Fh
{200}[Mg 2oFesorboSia1
O,.(O,OH.Fhl
MAMMOTHITE
CU4PbeAISbOz
(S04hCI 4(OH)la
MAGNESIO-AXINITE
MAGNESIOALUMINO
-TARAMITE
MAGNESIOALUMINO-KATOPHORITE
NAME
Table 170
STRUCTURE TYPE
Am.Min.,1976,1,503-504
(Abs.);H6Izel,198;Enc.Mln;
Nam.,182.
LF,210.
LF,210;HOlzel,216.
Am.Min . ,1978,~,1023-1052;
REFERENCES
Na"u'Caz,o'(Mg,Fe)4
M(OHh
{1oo}[Sia1Alz10n)z.cx
PARGASITE
Ca4"PFezOAi40(OHh
{g}[SzISia103QI
FERRO-AXINITE
Am.Min.,1982,1,859(Abs.);
H6Izel,175.
Am.Min.,1989,:M,1097-1105;
H6Izel,216;Pov.,425;Str.Tab.,
418;LF,210.
Am.Min.,1990,Z,708(Abs.);
H6Izel,199;Enc.Min.Nam.,209.
Am.Min.,1988,Z1,229-230
(Abs.);H6Izel,188;Am.Min.,
1988:L1 1548(Abs.l.
Am.Min.,1972,57,989-992;
H6Izel,198;Enc.Mln.Nam.,188.
Nal 'U'Na'OICaIO'
Am .Min .,1978 ,~,1 0231052;
Mg4FeO(OHh
LF,210;H6izel,216.
{1oo}[SialAlztozzlzcx
MAGNESlo-A1.K.
Na',u'Na,o'Ca'o,
Am.Min.,1978,63,1023-1052;
(Mg,Feh~e zo(OHh LF,210.
{1oo}[SialAlztozzf'cx
TARAMITE
Am.Min.,1975,Q,737(Abs.);
H6Izel,224;Enc.Min.Nam.,184.
Na ,u'Na,o'Ca,O'Mg4U
AI"(OHh
{1oo}[Si/A1tozzlzCX
MAGNESlo-AL.-K.
NallUINalOICa'lll
(Mg,Feh~e zo(OHh
{1oo}[SlalAlztozzlz.cx
TARAMITE
Ca4""FezUAI4(OHh
{g}[BztSi ato3QI
FERRO-AXINITE
\D
\D
Ca2{Mn,Fe)Ah
(SIA){SI04)
(O,OH)2
PbAI3(P04)
(P0 30H){OH)a
PIEMONTITE
NaFe~le(B03h
SCHORL
Na2Ca{Mg,FehFe2
(SleAI2)022{OHh
KNagBaeCa2MneTie
BI2S13!P123(OHh
He{Ca,Pb)2{Cu,Zn)
TARAMITE
TIENSHANITE
TLAPALLITE
Mon.
P21
Trig.
R!m
P21/m
Mon .
Olth .
P22121
SPACE
GROUP
{C~h
tr03l2
Nd2'~JNa2ayiugi
{g}[C
Na2Nd2Ti02{SI04)
tr03l2
TUNDRITE (Nd)
{g}[C
Na2Ce2TI02SI04
(C03h
o,
Ce2L~JNa2ayloSi0 6
iSubs.d .Arfvedsonlt.
{loo}[SIaIAl2t~212.""
Na' 'U'Na,D'Ca'D,
{Mg,Feh~e2o{OHh
(Na,Ca)r{Na,Ca)t
Mn"Ti"Zr"(F,0Hh
I
{g}[SI2 OJI
Tric.
1
Tric.
P-1
Mon.
1
P6/m
Hex .
Mon.
C2Im
Mon.
1
Mon.
P2Ic ...
EQUIVALENT
POSITIONS
~ ..106
Z=2
Z=2
~=93.18
Z=2
~=10243 '
~=90036'
TI{2e) Mn(2f)
Nal{2e) Nau{2f)
Nalll{4g) ...
...
Pbl_LV<2a)
Znl_u(2a)
SII_III(2a) ...
Na(3a) F.e(9b)
AII(9b) Al u{18c)
Nal{1b) Nau{1 h)
Nalll(2i) Ti(2i)
y=100001 ' Cel_II{2i) ...
Z=2
a =10130'
~=70052'
a=1017'
Z=4
a=7.54A
b=13.98A ~=70025'
c=5.02A y=10130'
Z=1
a=11.97A
b=9.11A
c=15.66A
a=7.560A
b=13.957A
c=5.040A
a=16.722A Z=1 1
c=10.434A
a=7.074A
b=5.4087A
c=40.606A
a..9.9A
bRo18.34A
c..5.34A
a=5.53A
b=7.10A
c=18.30A
c=7.148A
Z=3
a=15.96~A
a=11.362A ~=108.16
b=5.266A
Z=2
c=12.655A
Ca{4c) SII_u{4c)
a=12.297A Z=2
b=14.660A
PI_u{4c) ...
c=7.245A
a=8.878A
~=115 .40 Cal_u{2e) AH2a)
Al u{2b)
b=5.692A
Z=2
(Mn,Fe){2e) ...
c=10.201A
a=7.018'&' Z=3
c=16.784A
ApBqCrO.EllFyGz...(cont.)
Na,gTO'Fe3UAleU{OH)4 Trig.
{g}[Btr03h{g}[SleIOlel R3m
Ca2L""UJ{300}[{Mn,Fe)O
AI20Si31011 (O,OH)21
(..Eoidote) .
AI3uPf,107{OH){0H)a
pt)l12 I
(=Dusseltlte)
STRUCTURAL
FORMULA
TUNDRITE - (ee)
reo,
Na14Ca2Tb Mn04
(Sb 07MP04)4
SOBOLEVITE
S04{TeO~4
{Na,CahMnTiZr
(SI207h02(F,0Hh
SEIDOZERITE
SleOle(OH)4
Zn2Pb4(SI0 4)
(Sb07){S04)
QUEITITE
PLUMBOGUMMITE
Nal1{Na ,CahCa2
Ce(SI03MP04)4
CHEMICAL
FORMULA
PHOSINAITE
NAME
Table 171
{loo}[SleIAl2
TARAMITE
tcnf'cx
(Mg,Feh~e2o{0H)2
Na 'U'NalD'CalDj
'
{g}[Sl e01ell
ELBAITE
(OH)4~{g}[B r~h
Na'gT~'{LI,Al).3 UAleU
STRUCTURE TYPE
REFERENCES
H~lzel,193.
380;Pov.,454-455;Str.Tab.,
380.
Am.Min. ,1968,.1,1780(Abs.);
405;SR,~,418;SR,&,379-
Sov.Phys.ClYst.,1976,21,399-
H~lzel,93.
MlnAbs.,79-2103;Am .Mln.,
1968,.1,1426{Abs.);Pov.,378;
Str.Tab. 408 'RRW 617.
Mln.Mag., 1978,~.183-186 ;
Pov.,761 ,425-426;Enc.Mln.
Nam .,297.
Am .Min . ,1984,~,813{Abs.);
Am .Mln.,1989,:M,422-431 ;SR,
m,395;LF,195;RRW,545546;Pov.,757 ;Str.Tab .,408.
SR,~,392.
Am .Mln.,1980,~,407(Abs.) ;
Zelt .Krist.,1980,ill,287-299;
Am .Mln . ,1969,~,71o-717;Pov.
o
o
......
Ba2TiMn2(Si04h
(S04,P0 4)(OH,CI)
YOSHIMURAITE
Tric.
P'1
Mon .
C2Im
CuPb4O(S04h
(COJ)(OH ,CQ2
Tric.
P1 ...
WHERRYITE
Na5TiNb2(Si207hO
F2 .2Na3P0 4
VUONNEMITE
Tet.
P4/ncc
Trig .
R3m
SPACE
GROUP
Mon .
P2Ic ...
Ca 1SFe(Mg,AI)eAI4
(SI04)1O(SI20 7)4
(OH)10
VESUVIANITE
MgO(OH)4[{gHBtr03h
{g}[Slet01all
CSubs.d.Elbalte)
Ca1sltlllSJ{300}[Feo
(Mg.A1)eoAi/(OH)1o
(g}[SitO~101
t07141
{g}[Sb
STRUCTURAL
FORMULA
y=90.57
Z=1
~=95.33
a=92.63
a=7.00A
b=14.71A
c=5.39A
...
REFERENCES
(Abs.) ;HOlzel,203;RRW,682;
Pov. ,453;str.Tab.,396.
y=95.3
Z=2
~=90.~
. Ca n . M l n . , 1 994 ,~ , 373-380 ;
HOlzel suppl..
Am.Mln.,1990,~,405-408;
Am .Min.,1984,i,569(Abs.);
Am .Mln., 1974,~,875(Abs.) ;
HOlzel,200.
1059-1070;
LF,193 ;RRW,652;Pov .404;Str.
Tab .,399.
Can .Mln.,1996,~,
Deer,Howie+Zussman,j,,
559; HOlzel,209.
a=93.5
l~or
r.~U~{~O,),
810 OH
lr03h
A15
STRUCTURE TYPE
Cal"'~I(Mg,Feh
Mgo(OHhHgHB
(g}[Si elQ1sl1
UVITE
Ca1S(tII8J{300}[Feo
Cal(4c)
Call.III(16k)
(Mg,A1)eA1 4O(OH)10
Caw(8i) (oce.v.) {g}[SitO~1ol
{g}[Sbt07141
VESUVIANITE
EQUIVALENT
POSITIONS
a=5.501A
b=7.162A
c=14.440A
c=11.719A
Z=2
a=15.734~
a=15.96A
c=7 .18A
Z=3
ApBqCrD.EllFyGz(eont.)
Ca(Mg,Fe);JA1 5Mg
(B03hS le01e(OH)4
CHEMICAL
FORMULA
UVITE
NAME
Table 172
......
o
......
104
ApBce
Table27S
CLOSE-PACKED
STRUCTURE TYPE
MONTICELUTE
Ca"MgSI1Ot
Pbnm
(Subs.deriv.Forsterite)
POPULATION
FERRISCKLERITE Li...(Fe.Mn)"p'[O.r
K1RCSHTEINITE caFeSJ'[O.f
lITHIOPHILITE lI"(Mn.,;~rP'(O.t
NATROPHllITE Na"Mn
SICKlERITE lI"~itP'o.
SINHALITE MgAfB
TRIPHYlITE lI"Fe 0~1'
DERIVATIVES
[Of
o.t
TIVANfTE
TN'[03(OH)t
P21/c
NADORfTE
pttBJstfBln02lICIII(C2Cl)f
Bmmb ...
ANDALUSITE
AIOAl[5JSilOsoFl by
Pnnm Nol.1 T. 22S)
AlKINfTE
CU1pt?218j16+ 1isJl
Pnma
BOURNONfTE
ptfllllcu'stP'i~
Pn21m
FREIESLEBENITE
PERITE Pb'"'Bf"Uo.JICljI'-..
KANONAITE (Mn,Al)
(A1.MnY"SqO.oJ~"
Ag[~lpbOStP'JISh#
P21/a
CHAIN
SIWMANfTE AI"{100HSi'AJ'o~ Pbnm (Vol.1,Tabie 22S)
ARMALCOLITE (Mg,Fe)(~ {too}[Tl"05l Bbmm(Subs.d.Pseudobrookite) (Vol.1,Table 22S)
FRAMEWORK
BERYLLONITE Na[eI9J{300}[Be'P'O~] P21/n
KALSIUTE 1(l61{300}[S1~AI'ol)cd,.t P6:l (Inser.subs.deriv.Tridymite)_Deriv.: KAlIOPHllITE
1(l00{300HsfAfo.~ P6,,22
105
ApBCD (cont.)
Table28S
MINERALSTENTATIVELYClASSIFIED
BANDYLITE cu"BI[(OH)~CI) P4/n
BASTNlsITE-(C8) {gHCtr~ [(C8,La)[3+~,D]""'" P"62c
BASTNlsITE-(La) {gHctr~ [(la,C8)[3+8)(F,OH),D]"T.. P"62c
BASTNlsrrE-(Y) 1SHctr~ [(Y,Ce)~,Drr-- P"62c
CALCIBORITE ea'DJ{1ClO~trB'o41 Peen (Vol.1,Tabie 22S)
CHRISTITE T1J:i9'AsP"1S;t P2 In
EUCRYPTrTE U AJ'str.O~O.5]~1 olb'! R!
.(Subs.deriv.Phenakile)
GAGARINITE-(Y) NaoeaI6p,3clyl9jF,cgtTa P3
GARAVELLITE FeoStP"IBitr[S]l Olth. s.g;
GYSINrTE- (NeI) (Nd,pbilO](OH ,H20){g)[C OJi Pmcn
(...Andorite)
HYDROXYLBASTNAsITE-(C8)
{g)[ctr~ [(ce,La)Ill 1(OH,F)]"T.. P"62c(",Bastnlisite-(Ce
HYDROXYLBASTNlsITE-(Nd)
{g}[ctr~ [(Nd,Ce,La)[IIJ(OH),F)],Ta, P"62c (",Bastnlisite(Ce
MINERALSNOT YEl' CLASSIFJED
BUCHWALDITE NaCaOP'o~ Pmn21
COLQUIRlrTE UCaAJF6 P31c ..
KURANAKHITE PbMnTeo6 Olth. s.g.?
eMONETlTE CaPOJ(OH) P"1
PANETHITE (Na,Ca,K)(Mg,Fe.Mn)PO~ P21/n
PANUNZITE (K.Na)AJSiO~ P6:l
Table29S
CLOSE-PACKED
STRUCTURE TYPE
UBERITE
ISi
~'Be t [041"
Pn
(Subs. deriv. Wurtzite?)
ELPASOUTE
POPULATION
DERNATIVES
MNa"[K~6f
Pa3
(Subs. deriv. Perovskile)
STANNITE
CU2'Fe'sn'[S41c
142m
(Subs. deriv. Sohalerite)
SWEDENBORGITE
SbBe~I[Na~f"
~mc
BRAUNITE
Mn~nl'lgf[012Dl:lo
14 1/a
NoI.1,T.22S)
FERROKESTERITE CU2(Fe,ln)Sn1S).o 14
BRIARTITE C'1(Fe~rG~1s.r
KSTERITE CU2'~n,Fe)'Sn'IS.r I 4
CERNYITE CU2 Cd'Sn'Sb'
HocARTITE ~(Fe,ln) Sn',[S).c
SAKURAJITE CU2 (Zn,Fe)'(ln,Sn)'s.r Pm3m (VoI.1 ,T.22S)
KURAMITE CU2 u'snl~~ti(VOI.1,T .22S)
PIRQUITASITE Ao.tzr, sn 81..'
106
Table 30S
ApBqCD (cont.)
GROUP
Pop.: ANKERITE CB..(Fe.Mg,Mn)""{g}{cO'...,,
KUTNOHORITE CB"(Mg.Mn,Fe)"{g}[c-ro.""
MINRECORDITE CB""Zn"'{g}[Co.)"''"h
NORDENSKIOLDINE CaOOSo"{g}[B"o.""
Dertv.: BARYTOCALCITE Ba'"lcB::".!v}[(c"o.)"" P2,
NORSETHITE Ba""Mg""{g~c
R32.
TUSIONITE Mn""Sn"'{g}[B o..."e P2
0."'"
CHAIN
SHEET
PYROPHYLLrrE-2M A1o(OH){2aoHSi2'osl(2h)c C21c
FRAMEWORK
ALBI1'E
P1
BENITOITE BaI8J{3Xl}(Ti{gHSl3'ogD P"6c2 - LEUCITE ~6J{3Xl}(AfSl21061 I 4 1/a
Nalal{3XlHSi3tAl'oal(2.by)& C"1
ANORTHOCLASE (Na,K)f8J{3Xl}(ShIAI 10a](2by)&
(..Nepheline)
107
Table 31S
ApBqCD (cont.)
MINERALS TENTATIVELY CLASSIFIED
lrOJh
ALSTONITE Bal9lca l9J{gHC
Pmcn?
(Subs.d.Aragonite)
AMMONIOLEUCITE (NH4,K){3cOHSi2'AJlOsI 14,/a (Zeolite)
ANDORITE A9(6]PttS]Slbl3J1,SsI /I Bbmm (",Fizelyite)
BRABANTITE CaI9lnf1P2 [Osl P21
(Subs.dertv.Monazite)
BRAUNITE II Cacb(Mn,Fe)14oSi'[0241(2TS)h I 41/acd
t;lUSTAMITE CaoMno{too}[SI2tosl P"1
(Subs. dertv. WOllastonite~
CUPRORIVAITE Ca[81Cu[ {200HSi4'o101 P4/ncc
(=Gillespite)
DOLEROPHANITE {3cO}[CUoCu(5/ly] S'o4] C2Im
EITELITE Na2[6]Mg{g}[ClrOJhc R3 (",Dolomite)
EWALDITE Ba19](Ca,Y,Na,K){g}[Clr0 3h P6:lmc
FERROBUSTAMITE Cao(Fe,Ca,Mn)o{1ooHSi2'osl A"1
(Subs.dertv.Wollastonite)
GILLESPITE BaI6]Fe8q{200t[Si4'0101 P/4ncc
GITTINSITE Ca"Zl'{allSi2Or] C2
GLADITE Cu'ptflBiJ11[Sjg/l Pbnm
GUSTAVITE AgPbBi:lS]l P21/c (~ndorite)
HAMBERGITE 3cO{Be~ 'BlrOJ(OH)1 Pbca
HARADAITE sr11I\ll"{too}[Si2OrI Amam
HEMUSITE CUstsn'Mo [SlsC Cub. s.g.?
(Subs.dertv.Sphalerite)
KAMIOKITE FeoFe'MOJO[OP]ch P6:lmc (Vol.1,T.22S)
KIDDCREEKITE CUsWSnlSsf Cub. s.g.?
(Subs.dertv.Sphalerite)
KRUPKAITE Cu'ptf5lBilJ[Sls/I Pmc21
MAGNIOTRJPLlTE (Mg,Fe,MnhP[04(F,0H)1 I 21a
NATROBISTANTITE (Na,Cs)cbBfl'(Ta,Nb,Sb)ll
[(0,OH)'2DzlClB Fd3m (Subs.d.Pyrochlore)
NELTNERITE CacbMns)6]Si'[0,2D4ICls I 41/acd
(",Braunite)
ORTHOBRANNERITE If'Tb''l0s(OH)1 P2122
PARALSTONITE BaI10lCa[SJ{gJ{Clr03h P321 (",Dolomite)
PEKOITE Cu'ptflBill[7][S,SellS/l P21am
PETALITE 3cO{ UlAJ' {200}[Si4lO,oll P2Ia
PINNOITE MgO{gH~to(OH)sl P~ ...
PLUMBOBETAFITE
(Pb,U,Ca)cboctJ(Ti,Nbh[6][Os(OH,F)DlOo
Fd'3m (=Defectd. ~rochlore;after heating)
RINNEITE !<JNaoFe [Cijs R3c
RUTHERFORDINE :zoor {gllU I6]O,l {g}[ClrOJlI Pmmn
SIMONITE Tl[7+2JHQ I3+3~~J[SIl' P21/n
TEEPLEITE Na2B1(OH)4Cij P4/nmm
TEUUROHAUCHECORNITE Ni9BiTe[Ssl P4/mmm
(",Auchecomite)
TRIPLITE (Mn,Fe,Mg,cahoPJ04(F,OH)1 l2Ia
VANDENBRANDEITE 2oo[CU 4nJU[7by!o2(OH)4] P"1
VIRGILITE {3cO}[ShlAl'Li'osTV.] P~22
(Inser. subs. dertv.Quartz)
WAGNERITE (MJ.,FehOpl[o~ P21/c
WEBERITE Na2 MgoAJ[F7D] I mm2 ...
WODGINITE MnO(Sn,Ta)ora2o[0]ah C2Ic
WOLFEITE (Fe,MnhoP104(0H)] P21/a
YAVAPAJITE 1(16ap]{200}[Feo~tos] C2Im
YUSHKINITE n(Mg,AJ)"V1,xl[(OHhst P3m1 ?
ZWIESELITE (Fe,MnhoP[04(F,OH)] 121m
108
Table328
CLOSE-PACKED
STRUCTURE TYPE
BARYLITE
B~18i/[B8O]t
Pnma...
ANTLERITE
CU38t[O~(OH)~f
Pnma
NORBERGITE
Mg3OSitO~(OH.Fht
Pbmm
STARINGITE
(Fe.Mnt(Sn.Ti}9(Ta,Nbho[~~t
P4Vmnm
(Subs.dem.Talliolite)
SIMPSONITE
AI~(Ta.Nbho[013(F,OH)t
P3
TOPAZ
AI2ogitO~(F ,OH)2f'
Pbnm
PYROCHLORE
(Na.CahcbNblto6(OH,F)DIClo
Fd3m
POPULATION
DERNATNES
BISMUTOMICROLITE
(BI,Cal"'o""(Ta.Nb),!IlOo(OHlO]""
Fd3m
CESSTIBANTITE (Cs.Nal"'Sb"lJ,'"
ALFORSITE Ba."P.'O,,c!J"
BELLITE (Pb,Agl"(Sr,As.SI)"o,,cr
BRITHOLITE (Cel (Ce.cal"(Si,P), O,,(OH.F)rT
CARBONATE FLUORAPATITE ca."P.,o,,(Co.,F)r T
CHLORAPATITE Ca."P.'O,,c!J"T.
CHLORELLESTADITE ca.'(SI ~s ,P),,!O,,c!J"T'
FLUORAPATITE Ca."P.'!O'2Fr
FLOURELLESTADITE C85'(Si.S.P),,!O,~F.OH.Cl)rT'
HYDROXYLAPATITE ca."P.,!O,~OHlr
PYROMORPHITE Pbo"P.'!O'2C!J"
VANADINITE Pbo'V.'!O,,c!J"T.
SVABITE Ca."As.'!O,,FJ'T.
JOHNBAUMITE Ca"As.'!O,,(OHlrT
MORELANDITE (Ba.Ca,Pbl"(As.P),'!O,,c!J"T.
TURNEAUREITE Ca." (As,P),'!O,,c!J"T.
FERMORITE (CaSrk~S~h~o,~OHlrh
Ta.~O,AI'"
DIABOLEITE
p~[8JcuoqnOHMClhl(Q2a1)l
P4mm
APATITE
C8sI'p3tIOt2(F,OH,Cl)rT8
P6:l/m
109
Table 335
GROUP
STRUCTURE TYPE
HUNTITE
CaPM(b(g}[C1r03l4
R32
FLUOBORfTE
c Ts1
M(J3"[(F,OH)3f{J}[BIr03l
P6.1m
MALACHITE
c
ClQ'1IOHh<oHcIr03l TSj
PUa
DERIVATIVES
POPULATION
SHEET
MEULfTE
(Ca,Nah[8]{200}[(AI,Mgi(Si,Alh'O,I
P421m
JEFFREYITE (Ca,Na);"o'(2ooK(Be,Al)
Sii(O ,OHlr)
cm,
FRAMEWORK
MARIALITE N84~r4)f300H(5i,AI)121~41 I 4/m
NARSARSUKITE Na}8]{300}[(Ti,Fet5i41(O,F)11l I jJm
PARACELSIAN Ba[8]{300}[Si21AJ2'os](2b')')s P21/a,
Pop.: SLAWSONITE
(Sr,Cafl{300KSb'AJ,'OIf"'lO P2,/a
110
Table 34S
MINERALS TENTATIVELY ClASSIFIED
AERUGITE Ni8.5As~'(016) R'3m (VoI.1.T.22S)
APUANITE FIl5Sb4'[O,:zS] P4mbc
BARTONITE Fe20~~CI,S)"[~Kef I 41mmm
BARYSILITE Pbg[3 Mn{g}[Si2
R3c
BRENKITE [{g}[CIr03.l{3:0}[F2'Cal~ 14m2
BROCHANTITE C14oS~04(O~6f P2 ,/c (...Antleme)
l'3lca
6J{g}[C 03.l2 R3m
BO'TSCHUITE Kl
CELSIAN aal91{3:0}[S~'A12'oal I 21c(..,ptagiodase)
CHATKALlTE CU6'i=e'S~'[sef P4m2
(Inser.subs.der.Sphaleme;=Mawsonite)
CHKALOVITE Nal"10){3:0}[Si2'ae'oel2f<c1 F2dd
(Inser.subs.deriv.Crlstobalite)
DADSONITE P~,SbZl(~Cl]" P2Im ...
DALYlTE K2[8>2JZf{200}[Sie'0,5] P'1
DANBURITE ca(7J{3:0HB:z'Si2'Oe] Pnam
DAVANITE Kr2JnO{200}[Sie'o1!j] P'1
DAVIDITE-{Y) (Ti.Fe),9(Ti.Feh [YoJ"h R3
(Vol.1,T.22S)
ECLARITE (c~e)Pbg[3+2Je!J.ie;~ef Pnma
EKANITE ca2[-'Tnlicbgie~~r' I 422
Ir
FAiRCHILDITE (K.cah (K,ca)I8!{gMc 03.l2 P6immc
FINNEMANITE P~(MV41A53[3104Crr a P6:Im (...Apatite)
GAlKHAlTE {3:0}[(Hg.Cu,zo)e'(As.Sb)pnIS,2(Cs,T1)]
143m
GERHARDTITE C~"N%~:{OHhl P2 ,2 , 2 ,
GLAUBERITE NS2l/lCa ~Oe) C2Ic
GRAFTONITE (Fe.Mn.Ca) {Fe.Mn,Cah(5]{g}[P'0412
P2,/c (VoI.1,T. 22S)
GRANDREEFITE p~cbS'[O~2.lQI A2Ja
HAYCOCKJT CU4'Fe4'Feo~ P222... (VoI.1.T. 22S)
HEYROVSKYITE Pb lOOAg l Il2Clsis"[S,ef Cmcm
HURLBUTITE ca[7~3:0I~Be2'pee] P2,/a
JAMESONITE PbP"'lJ=e Sbe[3ri~lt P2,/a
KAUSTRONTITE Sr"&./[OeK21
4 R3m1
KASSITE ca"Ti2"[04(OH>2.I Ammm
lANGBANITE (Mn,Ca)s(Mn,Fe,Sbh[lW]Si'[O,l]ch P31m
(...Aphthitalite)
LETOVICITE (NIH4h{g}[~'oeH] P1 ...
LOVJ;RINGITE (Ti,Fe.Cr)'9(Ti,Fe.Cl)2'[(Ca.Ce.La)038]chh
R'3 (..Oavidite)(VoI.1,T. 22S)
'Orh
111
Table 35S
MINERALS NOT YET CLASSIFIED
ABHURITE SIlJOCI2(OHh R32 ...
ALEKSrrE P~T~ Hex. s.g.1
eANCYLrrE - (C8) (Ce,La,Sr,Cah(C03h(OH,H20) Pmcn
eARSENOHAUCHECORNITE Ni1eBi:AsS16 14/mmm
e ASISrrE PlqSiOeCI2 I 4/mmm
BALKANrrE AQsCugHgSe P222 ...
BENAVlDESrrE Pb4(Mn,Fe)SbsS14 P21/a
BENLEONARDrrE AQe(Sb,As)Tll2S3 P4/mmm ...
BIDEAUXITE AgP~(F,OHhCb Fd3m
BISMUTrrE Bi~(COJ) I 4/mmm
BUKOVrrE CuJFeTI2Se4 I 4/mmm...
CALCJARUTE Na(Ca,Sr):Al3(F,OH)16 C2Im 1
CEROTUNGSTrrE - (Ce) CeW206(OHh P21 ...
CERVANDONrrE - (C8) (Ce,Nd,La)(Fe,Ti,AQ3(Si,Ash013
C2...
CESAROUTE PbMn306(OHh S.1
CHALCOTHALUTE (Cu,Fe,Ag)6.3(TI,KhSbS4 I 41mmm
eCUNOCLASE CuJA804(OHh P21/c
CONGOUTE (Fe,Mg,MnhBP13C1 R3c ...
CORNETrrE CUJP04(OHh Pbca
GlANELLArrE Hg4S04N2 F43m
eHEMATOPHANrrE Pb4Fe30e(OHCI) P4/mmm
hhc
HEMLOrrE (Ti,V,Fe,AJ)12(As,Sbh l3nlIQn(OH)D:Jl P-1
IMOGOUTE ~OJ(OH)4 S1
INAGLYITE CuJPb(lr,Pt)eS16 P61m ...
JAROSEWICHrrE Mn~04(OH)6 C222 ...
AMORPHOUS
YTTROBETAFrrE- M (y,U,Ceh(Ti,Nb,Tah06(OH) (melamict) (",Pyrochlore)
112
Table 36S
CLOSE-PACKED
STRUCTURE TYPE
POPULATION
DERNATIVES
BERTRANDITE
t
Be4Si21Or(OHh t
cmcz,
CHONDRODITE
(Mg,Fe)5DSi210a(OH,Fht
PUa
HUMITE
MANGANHUMITE (Mn.Mg)/Sblo,,,(OHh]"
(Mg,Feh"ShlOt2(F,OHht
Pbnm
CUNOHUMITE
(Mg,Fe)gDSi41O,s(F,OHht
P21b
LEUCOPHOENICITE
Mnl"Si31O ,2(OHht
P2,/a
NOWACKIITE
CustZn3lAs4l3nJrSt2D]c
R3
(Defect subs.deriv.Sphalerite)
STANNOIDITE
cUat(Fe,znhISn21S,2f
1222
(Ioser.subs.deriv.Sphalerite?)
CUSPIDINE
~DShl[Or(F,OHhf"
P2,/c
GROSSULAR
Ca3doAhDSht[Ot2l*
I a3d
113
Table 37S
CHAIN
BALANGEROITE (Mg,Fehlo{1oo}[Sis'o.z7(OHhol P2In. _POp.:GAGEITE-2M Mn,,{1<oKSia'0v(0Hhol P2,1a
GAGEITE-1Tc Mn,,{1<oKSIa'<>n(OHllo] fT1
SHEET
ANTIGORITE (Mg,Feho(OH)4{200}[Si 2'osl C m - KAOUNITE 2oo{Al2(OHM200}[Si210sJ'1 P-1 - - HALLOYS'!'E-7A {200}[.AI2O(~~~4{~}[Si2'oslo I Cm
TALC Mg3 (OHh{200}[SI 4'o10I ' P 1? - - - - -
FRAMEWORK
BARBOSALITE {3:>0}[ Fe30(OH)2!g}[Pt04hl P2 1/c
(Basic str. Lazulite)
BERYL Al2{3:>o}[Be3'siSI0 1S1 P6/mcc
114
Table 388
MINERALS TENTATIVELY ClASSIFIED
ALLACTITE Mn7As:zI[08(OH)81 P2,/a
ARSENOCLASITE Mn50As.,tr(0H)-PaLP2 ,2 ,2 ,
BAUMHAUERfTE (Pb,Ag)819J(Ay,Pb)ttAs'5rS3ef P1
BEMENTITE Mn50(0H)a{3:xl}[Sis 0151 P2, /c
0(0H).d{200}[(Si,Alh
BRINDLEYfTE 200(Ni,AQ3
'051 Mon.
s.g.?
CHESTERITE {200}[(Mg,Fe)'70(OH)eJ{loo}[Si20'o541 A2, ma
CUNOCHRYSOTILE [2oo(M~bO(OH).c{200}[Sbc05lJ C2Im
COLUSfTE CU26V21(As,Sn)81Sd' P'43m (-.Germanite)
CRONSTEDTITE-1H 200(Fe30(OH)412oo(Si,Feh'051
P31m ...
DIAPHORfTE AQ3trpJ),(6]SbJlJnJ[saf Mon. C2 ,/a
ECDEMITE PbeIBTAs:z[ll]IIOr0UCg4.l(Q2,2Qll)1 Tel.s.g.?
FIZELYITE Ag~b4S~,[S481 P2 ,/n (..Andorite)
FOSHAGITE ca..{loo}[Si3'o9(0H)21my P'1
FRAlPONTITE 200(Zn,AlhO(OH.>~200}[(Si,AJh'o~ C2Im
FRANCKEITE P~SOJS~[S'4f P'1
FRIEDELITE Mn,S(OH,CI)2!!l:200}[Sie'0,512 P3m1
(Random deriv.Mcgillite) (=CoIusitlV
FRIEDRICHfTE CU5'p~"Birt71S,ar P3m1 (Subs.d.Aikinite)
GERMANfTE CU26'Fe4'Ge4'[S:!2f P43n
(Inser.subs.deriv.Sphalerite)
GIESSENITE CU2P~(Bi,Sb)20(6][857f P2 ,/n
GREENALfTE F~-3(0H)~200}[Si2'o51 C2Im
HAMMARITE CU2IpJ),Bi4!~ Pnam (..Aikinite)
18IAs:z!ll1IOrllCI4l1(Q2Ql)1 Orth.5.g.?
HELIOPHYLLfTE Pbe
HOOBOMfTE - 4H (Mg,Fe),4"Tio.3AJ410elclh P6:lmc ...
HOOBOMfTE - 5H (Mg,Feh4"Tio30AJ4~0ar' P'62m
HOGBOMITE - 6H (Mg,Fe)u"Tio.30AJ410elclh P6:lmc ...
HOOBOMfTE -15H (Mg,Feh4"Tio30AJ410elclh Hex. 5.g.?
HOOBOMfTE -15R (Mg,Fe)'4"Tio30AJ410elclh Trig .5.g.?
HOOBOMfTE-18R ~,Feh 'T1o.3~10'" Trip . R32
1Z0KLAKEfTE (Cu,Feh 4)p~71!'>'8I(Sb,Bl)19 [857r Pnnm
JASK6LSKlITE CU02Ip~2 (Sb,Bl), .alSJ' Pbnm
JEREMEJEVITE A1e~tr[O'5(F,OH)30?1 P6fm
JERRYGIBBSfTE Mn90Si4110,S(0H)21h Pbnm ...
JIMTHOMPSONITE (Mg,Fe)50(0H)1100}[Sjjl'0 ,81 Pbca
KOBEUfTE (Cu,FehPb,2(6](Bi,Sb),48!tS35f Pnnm
KRVZHANOVSKfTE (Fe,Mnh"P2108(OH,H20)31 Pbna
LANGBEINfTE KlI10){3:xl}[Mg283'0 ,21 P2 ,3
LAUBMANNITE Fe9"P410,e(0H),21 Pbma
LENGENBACHfTE (Ag,CuhPbeAs4!S,Jf P'1 ...
UNDGRENITE CU3"M02I~S(OH)21 P2 ,/n
UNDSTROMfTE CU3'pbJ IBii7J[S'5f P2 ,am
115
Table39S
MINERALS NOT YET CLASSIFIED
eARDAITE (pb ,Fe)loSbeSl.,G14 Mon. s.g.?
eAURICHALCITE (Zn,Cuh(~MOH)a P2Im
BAHIANITE SMls014(OHh C2Im
BERRYITE (Ag,Cu)~b:lBi7S1a P21/m
BERTHIERINE -1M (Fe,AIh(Si,A!hOs(OH)4 Cm
BERTHIERINE -1H (Fe.AJh(Si,AlhOs(OHh P63m1
eBURBANKITE (Na,Cah(Sr,Ba .Ceh(COJ>s P-63mc
CESPLUMTANTITE (Cs,NaMPb,SbhTaa0:!4 Tet.s.g.?
CHABOURNEITE ~1""p~(Sb,As)91-.s147 P1
eCUNOJIMTHOMPSONITE (Mg,Fe)sSi&Ola(OHh C2Ic
eCOMBEITE N&2Ca~iA P3121
CORNUBITE CUs(As04M0H)4 P"1
CORNWALLITE CUs(As04MOH)4 P21/a
eCUMENGITE CU2oPb:21CI42(OH)40 I 41mmm
DELLAITE C8&Si3011(OH)2 P"1
EFREMOVITE (NH4hMg2(S04h P213
ERUANITE Fll&8i&OlS(OH,O)a Pmmn ...
ESKIMOITE AQ7P~oBils~ B2Im ...
FERROHAGENDORFITE (Na,CahFe3(P04h C2Ic
F~ROPYROSMALITE (Fe,Mn)aSia0 1s(OH,CI)10
P6322
116
ApBCDE
Table40S
CLOSE-PACKED
ADAMITE Zn"Zn(5)AsI[04(OH)D)R21 by Pnnm
(Subs.deriv.Andalusite)
FRAMEWORK
Pop.: MONTEBRASITE 300(lJ"IAf(OH,Fjf"O.1 C'l
NATROMONTEBRASITE 300(N8,L1f!Ar(OH,Fjf"O.)
TAVORITE 300[LflFeO(OH)f"O.)
BABEFPHITE Ba(9)Se
(F,O) P1
BERGSLAGITE Ca[8JseIAs\04 (OH) P21/c
DATOlITE Ca[8JB'Sil04 (OH) P21/c
DESCLOIZITE {~}[Ptt8aplznl6byV04(OH
Pnma (or P212121)
117
Table41S
FRAMEWORK
PLAGIOCLASE (Na,Ca)[B] {3ao}[Si21(Si,AJiAJ1osJ(2by)O P1_Pop.: ANDESINE (Na,CaY')(3ooHSi,'(Si,AI)'Afo,f"'lO (voI.1,T.22S)
(Vol.1,T.22S)
ANORTHITE caI'I(300HSi,'(AI,Si)'AfO,f"'lO ( 1'"1)
MINERALSTENTATIVELYCLASSIFIED
AUGEUTE Af4+21Af3+2Ipl[04(OHJ31D'h C2Im
DAWSONITE NaAl"(OH)2Ul}[C OJ) I mma
EPIDIDYMITE Na[8JaeI(OH}{1l}[Sh'<>71 Pnma
FABIANITE ca[B]{200HB2teIr05(OH11 P21/a
GRANDIDIERITE {3ao}[(Mg,Fe)[5by AJ3"BIrSitogl Pbnm
(RAndalusite)
HAUCHECORNITE BioNfsbl NieSQ[SaI P4/mmm
(",PentJandite)
L1NARITE P!P'5}{1CXl}[CUOSI04(OHh.l P21/m
UTIDIONITE KNal5Jcu[5}{1l}[Si4to101 P'1
118
Table42S
CLOSE-PACKED
STRUCTURE TYPE
HODGKINSONITE
MnoZn2lSil04(OHht
P21/a
ARGYRODITE
Ag3tA9411Ag(2IGet[~021c
Pna21
(Vol.1,T.22S)
APHTHITALITE
NaOS2I[(K,Na)(121(K,Nah[IOJOalT312T4
P3m1
POPULATION
DERIVATIVES
OLGITE NaoP2[(Sr,Bai'2J(Sr,Ba)lDJo.i'3I2T~
BRIANITE MgoP~Cjil"2fN~U J O~
P2,/a
MERWINITE MgOSi2~Ca(' al" aJl3I2T4 P2,/a
GROUP
LUDWIGITE M92"Feo(02){g}[Btr03I' TS'I Pbam
PINAKIOLITE Mg20MnonOh{g}[Btr031,Ts'l C2Ie
119
Table43S
120
Table 44S
CLOSE-PACKED
STRUCTURE TYPE
HEMATOLITE
(Mn,Mg;AI)15As:2IAsl3n)(Oll (OH):n]1lhhch
R3
CALZIRTITE
Ca2cbzfbzrP'n2[61(01sD210s
141/aOO
CESANITE
I(012(0H)rTS
NalCal8J
P6:lIm
(Subs.d.Aoatite)
PALENZONAITE
NadoCa2doMn2"\131(0 121-
POPULATION
DERNATNES
HEDVPHANE Pb"Ca"~~?,,cIT"
CARACOUTE NA,"PblS.'OuCIT'T.
la~
(Subs.d.Grossular)
PLAGIONITE
Pb4"Pb6[6]S~8qSb:!tr(S17I#
C2Jc
lVoI.1.T.22S)
GROUP
AZURITE Cu~uliy)([OHl:z{gHCtrOJ]21 P21/c
OSUMILITE t<l81(Fe,Mgh(AI.Fehl{g}(Si.A1)12'030]
P6/mcc
SHEET
MUSCOVITE - 2M1
t<l12)~o(OH,F)i2co}(Si.Al)4'olO](2s)c C2Jc
PHLOGOPITE t<l12]Mg3(F.0H)2!2coH(Si3,AI)I01ol(2s)c
C2Jm
FRAMEWORK
LAZULITE 300(Mg,Fe)oAl2o(OH)2!ll}{P'04l2l P21/c
(Subs.d.Barbosalite)
SODAUTE IN84CI I {~HSi31A13'o121 P43n
TRiKALSILlTE K2[61Na[6]{~HSiJIAl3'o12(2)'ch,h
(Subs.deriv.Kalsilite)
TRiMERITE Ca[9]Mn2o{~}(B~ ISiJ'012] P21/n
(",Beryllonite)
ZOISITE CaF){~HAl30Si3'o12(OHJ) Pnma
P6J
Deriv.:
121
Table45S
MINERALSTENTATIVELY CLASSIFIED
ALLUAUDITE (Na,CahCb{200H(Mn,Mg,Fe)"Fe2"P3'0121 C2Jc GAiNESITE Na2l3co}[(Zr,Znhl(Be,LJ)'p4'o16] .I 41/amd
ALUNITE J<l6+61{200H~o~'oe(OH)a] R3m
GOrzENITE (Ca,Na)6"Ti(F,OH,0)4t9}[Si2I07h P-1
AMMONIOALUNITE (NH4){200}[Aho~'oe(OH)s] R3m
HENMILITE CalJ{3co}{ {g}[CU8Q~OH)4H looHB2I(OH)sl] P-1
HOMILITE Ca2acb(Fe,Mg)~ISb [010] P-1 (Inser.d.Datolite)
(~Iunite)
HOWIEITE Nal2J~e,Mg,AI)12o(O,OH)1O{loo}[S~'o17h P'1?
-AMMONIOJAROSITE (NH4){200}[Fe30S:z'oe(OH)sl R3m
HOWLITE 3co(Ca} estllrSiIOg(OH)s] P21/c
(~Iunite)
HYDROCERUSSITE p~[lOJpt>!8J{200}[{gHCtrOiI2(OH)21 Trig.
ANANDITE-2Ml
5.g.?
(Ba,I<)I6I(Fe,Mgho(S,OH)2l200H(Si,A1,Feh'olOf h)c C2Jc
HYDRONIUM JAROSITE (H30){200}{FS3~IOe(OH)s)] A3m
(,.,pyrophyllite-2M)
ANANDITE-2Or
(..Alunite)
INCAITE Fe(Pb,Ag)4S04S~[Slsf Mon.sg.?
(Ba,l<)l6I(Fe,Mgho(S,OH)2l200}{( [(Si,A1,Fe)4'o1O](2.h)c Pnmn
INDIALITE Mg20{3coMAl3IA1'sisI01sl6 P6/mcc (Subs.d.Beryl)
(..Pyrophyllite-2M)
JAGOWERITE Ba[l {200}[A12(P04h(OH)2l P"1
ARGENTOJAROSITE Ag{200HFS30S:zIOe(OH)s] R3m
JAROSITE K{200}[FS3~'o8(0H)sl R"3m (=A1unite)
(~Iunite)
KINOSHITALITE (8a,1<) 121(Mg,Mn.AJh(OH,Fh
BANALSITE Na2(eJealel{3co}[Si4IAl4'olS](2by)& I bam
{200H(Si,Alh'o10] C2Jm
BAOTITE BaeCI{3coH(Ti,Nb)eoSi410281 14 1/a
KORNERUPINE Ma4Alao(Si,AI,B)sl~l(OH)t
BATISITE (Na,1<)2Ba{3collTboS~101.1 I am2
LISETITE Na2I61ca [a}{3coHAI 'si 4'o1s] Pbc21
BENSTONITE (8a,sr)lltftlJ(Ca,Mn)J'7+1JMg{gHClJ03ch113c
CuOcu28QFei'V61[024] Pmcn
LYONSITE
R-3 (..calcite)
MAGNESIOCARPHOLITE
BEUDANTITE Pb[12]{200}Fe3[8)(A5,Sh'oe(OH)a] R3m
(Mg,Fe)o{A1,Feh0{0H)4{loo}[Si 2'oel (=Carpholite)
(~Iunite)
I'Oi!2l200}[Bi'oh
MAGNESIUM-CHLOROPHOENICITE
BEYERITE (Ca,Pbi 8J{g}[C
143m
(Mg,Mnh"Zn2IAsI(04~OH,O)sl C2Im
BICCHULITE Ca2(OH)i3co}[A12ISi'oa] 143m
MASUTOMILITE J<l 2]CU,Al,Mnh(F,0H)2l200H{Si,AI)4IOlO]{26)c
BORACITE-(Iow) Mg3[5Jc1{3co}{~'8 4lJ0 13] Pca21
MEIONITE Cal1{g}{ClJ03l{3co}[(Si,AI)4'osl3 P4Pn
BORACITE-(high) Mg3(6Ic1{3co}{~'8 4lJ0 13] F43c
(Subs.d.Marialite)
BRAZILIANITE Na(9J{~}{A13"P2'oe(OH)41 P21/n
MINAMIITE AhO~I[Oe&OH)s(Na,ca;K)] R3m
BREDIGITE (ca ,Ba)l5Jca1318)Mg2Sial~ P2nn
NATROALUNITE Na[l 1~200}[A130~'o8{OHM R3m (=Alunite)
BRITHOLITE- (Y) CalvlSi31012(0H)r 6 P63/m
NATROJAROSITE Na[l J{200}[Fe3"~'o8{OHM Ram
(Subs.d.Apatite)
(=A1unite)
CARPHOLITE MnoAl2o(OHMloo}[Si2'oa] Ceca
NAUJAKASITE 3coLNas(Fe{lMn)[5Y11oo}[A14ISi81~]] C2Jm
CERITE-(ee) {3co}{(Ce,La,Ca)gdo(Fe,MgtSis'o27(OH)41 R3c
NEFEDOVITE Nas[ lOJCa4F 8J{g}[P'0414 P1 ...
CHAMBERSITE Mn}6IcI{3co}~IBl013] Pca21
3co[H2Na(Zn ,Mgh(A504)WC2Jc
O'DANIELITE
IAsl0
CHLOROPHOENICITE (Mn,Mg,Znh"Zn2
4(OH,0)s]
PARISITE- (ee) {g}[ClJ03h[Ca(Ce ,Lah F2D]T6 R3
C2Jm
{.. Bastnli5ite-{ce~
CHLOROXIPHITE p~(8Jcu"'1IOh[OHhlCij2l(Q2,al)1 P21/m
PELLYITE
Bal Ca(Fe,Mg)2Sisl[OeO?]o'h Cmcm
J(Mg,A1h
CUNTONITE Ca(12
o(OH,F)2l200}[(AI,SJ)4'o1O](26)c
PLUMBOJAROSITEpt>!12]O{200HFesoS4101S(OHhtlh R3m
C2Jm
(Deted d. Alunite)
CRONSTEDTITE -1M 200[Ferl<1=e(3+)o(0H)4
POUDRETTEITE I(I8INa2~t{g}[Si12'o:Jo] P6/mcc
{200}[(Si,FehIOsl Cm
(05umilite?)
CRONSTEDTITE - 2H 2oo[Ferl"Fe(3+)o(0H)4
PREHNITE caFJAlO(0H)2l200}[(Si,A1l4101O] Pncm
{200}{(Si,FehIOsl P6:Pn
PREOBRAZHENSKITE ~Mg30B 10BlJ015(OH)41 Pbcn
CRONSTEDTITE - 2M 200(Fel+l<1=e(3+)o(0H)4
PROUDITE CUlp~ {Bi9}' [SlsSeel" C2Im
2ooH(Si,Feh'osl Cc
RHODIZITE (K,C5)[ 2Jae41(B,Be~ltl~"l~eqJc P43m
CROSNTEDTITE - 3R 200[Ferl"Fe(3+)o(0H)4
RODALQUILARITE HFe2Dye4 4Y CII.[Ol21o'h P-1
{200H(Si,FehI051 Trig. 5.g.?
SCHAIRERITE Na21OS7102eCIFsf P31m
CROSNTEDTITE - 6R 200[Fe2{2+l<1=e(3+)o(0H)4
SEMENOVITE-(Ce)
{200}[(Si,FehI051 Trig. 5.g.?
{Na,Ca)9&p(Ce,Lah"l'feo{200}[{Si,Behol{O,OH).s] Pmnn
CROSNTEDTITE - 9R 2oo[Ferl"Fe(3+)o(OH)4
SHATTUCKITE CUrCUl6l(OH)2l1ooRSi~L1, Pbca
STEACYITE Ko3(8J(Na,Cah[8JyhllCbSi8[~ 14/mcc
{200H(Si,Feh'o51 Trig. 5.g.?
CYUNDRITE Fep~n4sMsl4l" Tat. sg.?
(Ekanite?)
DERRIKSITE Cu/t;8)se2 [Oe(OH)a] Pn21m
SURINAMITE (Mg ,FehoAi/Be ISi3~0 1slc P2In
EIFELITE J<l12]Na2~4s~}{Si12 ~ P61mcc
THADEUITE 3co({Ca,Mn)(Mg,Feh(p'o4h{OH,F)21 C2221
ERiCAITE (Fe,Mg,Mnh( CI{3coH~'8l013] Pca21
TRITOMITE - (Ce) Cal(Ce,LahP(Si2B)I[013rT6 Hex.5.g.?
FERAOCARPHOLITE (Fe,MgtAI20(OHM100}[SbIOsl Ceca (Subs.d.Apatite)
WAYLANDITE A1 3(P,Sihl[{Bi,Ca)(12JoseOH)s.l
FLORENCITE - (ee) A13op~CeOe(OH)aJ R3m
WEUNITE Mn3(W,Mg)u70Sil[04(OH)31 P63
FLORENCITE -(La) A13"P21.(La ,ce)Oe(OH)a] R3m
FLORENCITE - (Nd) A13"P2[(Nd,ce)Oe~OH)6] R3m
ZUNYITE A1130Si~I~~OH,F)18CI] F43m
GADOUNITE- (ee) (ce,La,Nd Y)l 'lfe1 J~'si2'[01O] P21/a ZUSSMANITE 1(11 l(Fe,Mg,Mn)130{Si,AI)1el[042{0H)141 R-3
GADOUNITE- (Y) V2l8lfel6lBS21Sb101O] P21/a
122
Table46S
AMORPHOUS
RICHELLITE (Ca,Fe)(Fe,Alh(P04h(OH,F)2 (P4? after heating 500"C)
UMBOZERITE Na3Sr4ThSie(O,OH)24 (Metamict) (cubic after heating 900"C)
ROWLANDITE - (Y) FeY4(Si2OrhF2 (Metamict) (P'1 after heating 900"C)
123
Table47S
ApBqCrDsEx
CLOSE-PACKED
STRUCTURE TYPE
STAUROLITE
l(Fe,Mg)o4
AI17o(Si,Al)a
~044(OH)o4f
C2Im
LITHlOPHORrrE
LiRAI,~"Mn.. "rO~?(OHl..,l(2T')c R3m
HIBSCHITE
Ca3doAbOSh~(O,OH),2l*
I a3d (="HVdrooamen
POPULATION
KATOITE
C1I3"Ai2S~'f(O ,OH),.r
D1ST. DERlVATNES
HENRITERMIERITE
Ca3"(Mn,AI)2Sb'f(O,OH),,f I 4,1lIcd
GROUP
CHAIN
ANTHOPHYLLITE (Mg,Feh(8J(Mg,Fe)50(OH)2fl00}[SiaI02il2.cI1x
Deriv.: CUNOHOLMQUISTITE
U,1IlI(A1,Mg,FelsD(OH,Fh{l...}[SIat~ P2m...
FERRQ.ANTHOPHYLLITE (Fe,Mg),JBXFe,MglsD(OH),
{l"'HSIa'o./... Pnma
MAGNESJQ.ANTHOPHYLUTE (Mg,Fe),lOXMg,FelsD(OH),
P61mcc
TIRODITE Mn:zIIJ(Mg,FelsD(OHj,{l"'HSia'om""
(Subs.d.Apatlte)
KOENENITE N84~90A~"lCI12(OH)22l""'" R3m
KUPLETSKITE (K,Nah(Mn,Feh(Tl,NbhO{200}[Sis'(O,OH)311
P'1 ?
KVANEFJELDITE Nal!(C8,Mn)O{200}[Sie'o'o4(OH)2l Pbca
LORENZENITE Na~(7}Tbo03l1oo~Sb'osl Pbcn
LOSEYITE M04Zn3(OH)1O{g}[C ~2 A21a
t[0104(OH),21
LOURENSWALSITE (K,BahTio4o(Si,AI)e
Hex.
5.g.?
R3m
NIGERITE - 6H (Fe,znh'sn2o(A1,Fe)'2'"10n(OHht"'"
R3m
NIOBOPHYLLITE
t(O,OH)311
(K,Nah{200}[(Fe,Mn)e(Nb,TihoSis
P1 ...
(..Astrophyllite)
PADERAITE Ag1.3tcU59"Pb1.slllrBi,1,2"lSnI" P2 ,/m
pOTOSl1TE F~Pb~n,aSb,slS1,5f P'1 ...
PREISINGERITE 300({g}[As'o~1g}[Bis to2(OH)2l P-1
SCHALLERITE (Mn,Fe),eo~ 4 (OH)17{200}[Si ,2to361
P3m1
.
STEVENSITE NaO.l~~ho(OHh{200}[Si4to ,0](2s)c Co
(",Hectorite)
TILLEYITE Ca5{g}[Si2'orHg}[CIr~2 P2 ,/a
VRBAITE H93'TI~PSblbJ~1" C2ca
WElBULLlTE Ag03 p~Biai6l7][Seas121" Pnma
YODERITE (Mg,AI)o4oAlo4 Sio410,s(OH)2l P2,/m
124
Table 48S
MINERALS NOT YET CLASSIFIED
AMINOFFITE Ca3B6:!Sh010(OHh P4:l/n
BOLErrE Ag9CU24P~I62(OH)<18 Pm3m
4tcALCYBEBOROSILlTE-{Y) (y,Cah(B.BehSbOa(OHh
P21/a
eCEBAITE (Ce) Ba3C6:!(C03)sF2 Cm
CEBOLLITE CasAh(Si04l3(OH)4 S.?
eDAVYNE (Na.Ca,K)a(Si&A16l024(CI,S04,C~h
.;j P6:l
eDUMORTIERfTE A1vB4Si1~69(0H>3 Pmcn
EYLETTERSrrE (Th.Pb)1..A13(P04,Si04h(OH)~?) R3m
FEDOROVSKITE Ca2(Mg,MnhB4C>n0H)a Pbam
GEORGIADESrrE Pb1a(As04)4CI14(OH)a P21/c
HEYITE PbsF6:!04(V04h P21/m
IMANDRrrE Na12Ca~e2Si1203a Pnnm ...
eJAGOrrE (pb,Na,Ca)g(Fe,Mg,MnMSi,Fe,Pb)1~41
(CI,OH)4 P"62c
KARLrrE Mg7(B~h(OH)4Clo4 P212121
eKOMBATrrE Pb,40g(V04hC14 C2Ic
MCGILLrrE (Mn,Fe)sSia01s(OH)aCI2 C2Im
cesa
125
ApBCDEF
Table 49S
Table 50S
CLOSE-PACKED
126
Table 51S
FRAMEWORK
CLiNOZOISITE Ca[9] ca['O! {3:XlHAl3Si3'o'2(OH)] P2,/m (Subs.d.Zoisite)
MINERALS TENTATIVELYCLASSIFIED
ALLANITE-(ce)
CaIW'O!(Ce,La)IW'OJ{3:XlH(A1,FehoSh'o'2(OH)] PUm
(Subs.d.Allanite-(La
MARSTURITE Na[8ePlCa[6f7MlJl~:I(OH){1lXl>ISi510,41 P1 .,
MINASGERAISITE - (y) Ca(8'6Jae2IShto,aJ P2,/a
NORDITE- (ce)
(Sr,Ca)"P(Ce,La)"PNa3o{200H(Zn,Mg)Sia'o17] Pcca
NORDITE- (La)
(Sr,Ca)"P(La,Ce)8PNa3o{200}[[(Zn,Mg)SiaI017l Pcca
(..Melilite)
SHCHERBAKOVITE NaK(Ba,K> {3:Xl}[TI2S~'o'41 I ma2
(=Batisite)
SIDORENKITE Nall6l{1lXl}[Mn{g}[Po"l{g}[Ctr03lJ P2,/m
SOGDlANITE I(l8JNa(Fe,Ti,zr)(U,A1hl{g}[Si,2to;;]
P6/mce(..Milarite)
TAAFFEITE-8H BeIMg2~oAIrAlI[O,a]hhcccc ~c
TUGTUPITE INa4C11 {3:Xl}[BeIAlIS~IO'2] 1:4
(Dist.d.Sodalite)
SVANBERGITE Al,s'I"IOa(OHloSr~
WOODHOUSErre Al,slP'!Oa(OH\.C8l'''1'''''
ORTHOERICSSONITE
(Ba,Sr)(Fe,Ti)(Mn,Fe)Si2OJ(O ,0H>2 Pnmm
PAPAGOITE CaCuAlSi20s(OHh C2Im
SCHWARTZEMBERGITE Pb:30(1~)Cb(OH) P""/nmm?
127
Table 52S
CHAIN
W1NCHITE Na[8)Ca[SJ(Mg,Fe)sO(OHM1co}{(Si,A1)s'Qnfcx C2Im Pop.: FERROWINCHITE NaI'Jca!8](F~MlI~O(OH),{1coH(SI,AI).o./'"
(Subs.d.Tremolite)
FERRQ-FERRI-WiNCHITE Na10Jcal "et(OH),{1coHSia'o./'"
SHEET
CHAPMANITE StP"J{2co}(Fe2o~(OH)H2co}{Si2 'Qsf Cm
MUSCOVITE-1M j(l12)AI2o(OH,FM2co}[Si]IAI'Q1oJ(1s)c C2Ic
(Subs.d.Muscovite - 2M1)
FRAMEWORK
LAZURITE INa3CaS I {3co}[Si3IAI310121 P43n (=Sodalite)
EPIDOTE CalJ{3co}(FeoA12Si3'Q12(OH)J P2 1/m
(Subs.d.Zoisite)
BAFERTISITE Ba(Fe,Mnh"Ti(O,OH,FMg}{Si21(hJ Cm
BOBFERGUSONITE {2co}{NaibniMns~eoA1ps1024.! P21/n
R'3m (Subs.d.Alunite)
CUPROPAVONITE AgOCu1.8Pb1.2"B4Bi"'l[SlOJ# C2Im...
DARAPIOSITE (K,Na)i2JU(Mn,Znhl6!zr{g}[Si1210:!0J P6/mcc
DRUGMANITE 2colP~(8)(Fe,AQOp2'or(OH)(OH)21 P21/a
(..Datolite)
ILLITE (K,HP}[l2JAl2o(H20,OHM2co}{Si]IAI'QloJ(2s)c C2Im
IIMORIITE-(Y) Y2[lOJ{g}[CIr~}[Si'O...J P'1
KENTROLITE P~ct>Mn'Mnl~}{Si2'Or), Pbcn
LAVENITE Na2(Mn,Ca,Fe}(Zr,Nb)OSb[(h(O,f}21 P21/a
LlTHIOMARSTURlTE U(7JMn2oCa2"H{1co}[Sis'Q15lmy P-1
(Subs.d.Rhodonite)
MEl:ANOTEKlTE P~[~ePFe'o2ig}{(Si21(hJ Pbcn
(=Kentrolite)
128
ApBqCrDsExF
Table 53S
CLOSE-PACKED
HOLDENrTE (Mn,Mg)a"Zn3 As:2ISil[O'2(OH>aJC Abma
1
CHAIN
RICHTERrTE Ca[lO]NaiSJ(Mg,Feho(OHh{1oo}[SisI022fcx
C2Im (Basicstr. Arfvedsonite)
SHEET
PREISWERKrTE NaI12}(Mg,A1hO(OHh{200}[Si/AI210,al(2.s)c C2Im (Subs.d.Phlogopite)
MINERALS TENTATIVELY CLASSIFIED
ARCTrrE 200[Ba[l2]Nasmcallps'F3~41 R3m
BJAREBYITE (Ba,sr)[l1l300}[(Mn,Fe,MghoAl2OP310,2(OHhl P2t!m (=Kulanite)
CAPPELENrTE-(y) Ba[l (Y,Ce)s[8api=~200}[Si3IBsI~41 P3
GARRELSrTE Ba3[SJ{300}[Na[6)BsI~ trSi2'o,s(OH)41 C2Ic
HARSTlGrTE Call{300}[(Mn,Mg)"Be4ISis'o22(OHhl Pna
rTOrTE PbJ[121{g}[(s'04h(G~WHhl Pnma (=Barite)
JUNOrTE Cu2'Pb"Bi2OPb,[7I8]Bis 18][(S,Se),s]tI C2Im
KLEBELSBERGrTE S~15bYJs~I(OHh04W}[S'o41 Pca2,
KULANrTE BaI"){300}[(Fe,Mn,MghoAl2oP3'o,2(OH)31 P2,/m (=Bjarebyite)
MARGARrTE Ca(12)A12o(OHh{200}[Si2IAI210,al(2s)c C2Ic (Subs.d.Muscovite-2M,)
PALERMOrTE (LjlNahO(Sr,catAI40P4I[O,s(OH)41 Imcb (..calTninite)
PERLOFFrTE Ba[ 1)(Mn,FehoFe2OP3~O'2(OH)31 P2,/m
PIEMONTrTE ciI,l~10]f300}[(Mn,FetAl2Si3'o,1(O,OHhl P2,/m (...epidote)
SPURRITE calcal1)(Sil(j~2W}[ctr~J P2,/a
STRONTJO.CHEVKlNrTE (Sr,Ce,La)4 ~e(Ti,Zr)/os{g}[Si21~b P2,/a (Subs.d.Chevkhinite)
SULFOBORITE Mg3B2'sI~04(OH)e(OH,FhJ Pnma
TYCHrTE NlIe~{g}[C OJl4W}[S'o41 Fd3
W1CKENBURGrTE PbJ[SJ{200}[CaoAI2Si 0I024(OH)sl P31 c
'
MINERALS NOTYET CLASSIFIED
eARMANGrTE Mn2lAS1S0so(COJ)(OH)4 P3
eASBECASrTE CaJ862(Ti,Sn)AssSh~ P3c1
BARENTSrTE Na7AIH2(COJ)4F4 P"1 ...
BERTOSSArTE (U,NahCaAI4(P04MOH,F)4 I aa2
B0GGILDrTE NS2Sr~(P04)F9 P2,/c
CURETONrTE Ba4TlAb(P04MO,OH)a P2,/n
ELLENBERGERrTE M9aTlAIsSis~s(OH),o P6J
FERROTYCHrTE Naa(Fe,Mg,Mnh(C03MS04) Fd3
FREEDrTE .CUPbs(As03hOJCls C2Im
FUKALrTE C84Si20sCOJ(OH,F)2 Bm2,b ..
GAImE C62Zn(AsOJOH)2(OH)2 P1 ...
129
Table 54S
CLOSE-PACKED
CHAIN
HOLMQUISTITE U2(8)(Mg,FehO Ah (OHh{I00}[SisIOW 2.chx
Pnma (Subs.d.Anthophyllite)
SHEET
CUNOCHLORE (Mg,Alho(OHM2oo[(Si,AI)4'01O]200[(Mg,Alho(OH)aJ J C'1
SIDEROPHYLLITE
K2[12J(Fe,AI)aO(OHM200}[Si 5'AI3102Ol(2s)c C2Im
(Subs.d.Phlogopite)
FRAMEWORK
CANCRINITE (Na,Ca)s[sJ{g}[Clr03h{300}[Sia'AlsI024J P~
MINERALSTENTATIVELYCLASSIFIED
BAILEYCHLORE (Zn,Fe.AI,M9hO(OHh{200}[(Si,AI)4'01OJ
{200}[(Zn,Fe,AI,Mg)4o(OH)aJ C'L.
CARBONATE-HYDROXYLAPATITE
Ca1OP3I[Olng}[Clr03h(OH)uTS P6Jfm (-.Apatite)
CHAMOSITE
(Fe,Mg,Alho(OHh{200}[(Si,Alh'01O(Fe,Mg,A03o(OH,O)a]
C2Im
COOKEITE Al2(OHh{200}[(Si,AI)4'o1OJ 2S{200}[(AI ,LQ30(OH)a]
C'1 (...chlolite)
DEERITE (Fe,Mn)aO(Fe,AlhoOJ~OHh{loo}lSia'o17l P21/a
KATOPTRITE Mn50S~oMns'Al4Shl[~sj"h C2Im
KOUCITE Mn7oZn41~'Si2'oS(OH)sf Cmca (..Holdenite)
MINEHILLITE Ca2SAl4Zn4'Si4QI[OI12(OH)la(K,Nah.3]
NIMITE
[(Ni,M9ho(OH)2{200}[(Si,AI)4'OlolS{2oo}[(Ni ,M9ho(OH)aJ
C2Im
PENNANTITE (Mn,Alho(OHh{200}[(Si,AI)4'o10]s
{200}[(Mn,A03o(OH)a] C2Im (..Nimite)
PERRIERITE
(Ca,Ce,Th)411OJ(~teh(Ti.FehoOe{9}[Sh'o7h(2s)c
P2 1/a
P'3c1
130
Table 55S
GROUP
CHAIN
Pop.: ECKERMANNITE Nal ' OIN..,I"I(Mg,Fe):AI"(OHlilooHsil'o"t'"
FERRO-ECKERMANNITE
ARFVEDSONITE
Na[10]Na2(SI(Fe,Mg)4"Feo(OHl2{loo}[Sis~.cx C2Jm
(Subs.d.Richteme)
Nal'OIN..,~Fe,Mg):AI"(OHlilooHSia'o"t'"
MAGNESIO-ARFVEDSONITE
Nall~..,III(Mg .Fe):AI"(OH~looHSia'oJ""
Pop.: FERRO-ALUMINO-TSCHERMAKITE
C..,IIJFe,AI:z(OHlilooHSIe'AI:z'oJ'"
FRAMEWORK
HAUvNE INa3CaS041 {3Xl}[ShIAJ3'o121 P43n (..sodalile)
MINERALS TENTATIVELY CLASSIFIED
ARDENNITE Mni6I7J {3Xl}[A1s.xM91.XASI04Si3101o(Si 'o4h
(OH)6) Pnmm (",zoisile)
BABINGTONITE CaIBICa(Fe,Mn)"Feo{loo}[Sis'o14(OH)
P'1
BARATOVITE t<l12JU3ICa7cn,Zrh"F:z{g}[SieI01s12 C2Jc
BARYTOLAMPROPHYUUTE
Ba3NaeDyiel(F,OH '~4{200}{Ti[5yJSi2~J4 C2 ...
BORCARITE C84 Mg{g}[Clro31:z{g}[BlJoe(OH)sl C2Jm
DOUASEITE-ice)
Ca19](Ce,La,Nd)(9]{3Xl}[Mg2AJoSh'o11(OH)F] P21/m
(Subs .d.Epidote~
R3c
NEPTUNITE Na{LiO:e,Mg,Mnh"Ti2Sisl~4K]cIh Cc
SABINAITE NalllNalJri0Zr2[BlQ4fgllClr03l4 C2Jc
SUDOITE M92o(OH)2[ 200[Si3IAJ'otCtS{200}[(AI,FehO(OH>eJ )
C2Jm (Subs.d.Clinochlore)
TANCOITE Na218]Lf5lH{200}[AJ{g~P'o4!2(OH) Pbcb
TINAKSITE K2[8110]Na[7](Ca,Mn)? ~O(OH){100}{Si7'o1~ P'1
TINZENITE (Ca,Mn,Feh[7]AJoAJ (OH){g}[SI41012J{g}[B 031
P'1
TUNDRITE-ice) Cei9JNa2"TiSi'oe{g}[Clr0312 P'1
TUNDRITE-iNd) Nd2(9JNa2"TiSi'oe{g}[Clr03J~ P'1
WOHLERITE Na2oCa4OZr'NboSi4I[OI4(O,F)4r" P21
(Subs.d.Lavenite)
131
Table 56S
MINERALS NOT YET CLASSIFIED
ARSENTSUMEBITE CaP~(AsO.)(SO.)(OH) PUm
eCALEDONITE CU2Pbs(SO.h(~)(OH)6 Pmn21
CORKITE PbFEl3(SO.)(PO.)(OH)6 R3m
DONBASSITE Ab(Si:AJ)Olo(OH>2 . A12.33(OH)6 C2
DUGGANITE Pb:J(Zn,Cuh(Teoa)(AsO.)(OH)3 P6/mmm
ERICSSONITE BaFeMn~(Si2Or)(OH) C2Im
eFORNACITE CUP~(CrO.)(AsO.)(OH) P21/c
eGAUDEFROYITE Ca.Mn3-.(BOJh(C~(O,OH)3 P6:l
eGRIPHITE ca(Mn,Na,U)~eAI2(PO.MF,OH)2 P21/a3
eHANKSITE KNa22(SO.MC~2CI ~m
eHEMIHEDRlTE znP!>lo(crO.MSrO'>~2 P1 ...
HENEUITE caMg5(PO.h(C~(OH) P"1
eHYALOTEKlTE Ba2Ca2P~(B,Si,A1MSi,Be)1002lf' 1'1
IRANITE CuPb1o(CrO.MSiO'>2(0H>2 P1
JANHAUGITE N8JMn3(Ti,Zr,NbMSi2Or)~(OH,Fh P21/n
JINSHAJIANGITE NasBa.(Fe,Mn)15Ti~15064(F ,OH)6
C2Im ...
KATAYAMAUTE (K,Na)U3Ca7Ti2(Si03)12(OH,Fh C1
LAMPROPHYLUTE
(Na,ca)(Na,MnMSr,BahTi3(SiAMO,OH,F). C2Im
LOMONOSOVJTE Na5Ti2~(SiA)(PO.) P'1
l.;OTHARMEYERITE C8lnMn(AsOJOH)2(OH)3 C2Im
eMACFALLITE Ca2Mn3(SiO.)(Si2Or)(OH)3 P21/m
MAGBASITE KBa(Mg,FeMAI,Sc)S~2 S.?
MATHEWROGERSITE Pbr(Fe,Cu)A13GeSil~(OH,H20)6
R3 ...
e Means that the structure has been determined.
MOLYBDOFORNACITE CUP~(Mo,C"O.(As,P)O.(OH)
P21/c
MUIRITE BalOCa2MnTiSil00:JQ(OH,CI,F)1O P4/mmm
NABOKOITE CU7Teo.(SO.)5. KCI P4/nce
NAGASHIMALITE Ba.(V,Tih~Sia~7(O,0H>2CI Pmmn
OLENITE N80_sAlg(BOJhSi~18(O,OH). R3m
PIYPITE K.Cu.~(SO.)4 ' (Na,Cu)CI I 4
QINGHEIITE-NaiNaMn2Mg2(A1,FeMP04)a P21/n
RUSTUMITE Calo(Si20rh<SiO.)(OH)2CI2 C2Ic
SCHMIEDERITE CU2P~(se~(SeO.)(OH). P21/m
SURITE PMb(Si,A1)4010(C03h(OH)2 P21
SURSASSITE Mn2A!J(SiO.)(SiA)(OHh P21/m ...
eSVERIGElTE NaBe3(Mn,MghSnSi3012(OH) I mma
eTARAMELLITE Ba.(Fe,Tih~(Si8027)02CIx Pmmn
TITANTARAMELLITE Ba.(Ti,Fe,Mg).02C1.
(g}[~~~CIJ Pmmn
TRIGONITE Pb:JMn(AsO~2(As020H) Pn
TSUMEBITE CuP~(P04)(SO'>(OH) P21/m
TUNISITE NaCa~(COJMOH)8CI P4Inmm
eVAUQUEUNITE CUP~(crO.)(PO.)(OH) P21/n
WELSHITE Ca2Mg.Be2FeSbSi4~ P'1
eWlSERITE (Mn,Mg)1.~5MOH)8.(Si,Mg)(O,OH)4CI
P4/n
Z1~WEITE Na(pbNaosKo.5h(Ta,Nb,Ti)~.018 Ccmb
132
Table 57S
GROUP
ELBAITE Na[&+31(Li,AIhAIe(OH)41{g}[BtrO:ib{g}[Sis'o1aD
R3m
Fe,~,TI~DAleO(OHM{g~I>{gHS~'O,aO
UVITE
Cal6+3J(Mg,FehAlsMgo(OHM{g}[Btr~h{g}[SisI01al) R3m
(Subs.d.Elbaite)
CHAIN
Pop.: ALUMINO-TAMARITE Ne" OINe'a'ce'aIFe,0Al:zO(OHb{''''HSletAl:zto"f'''
MAGNESlo-ALUMINO-TARAMITE
Ne"OINaIa'ce'"1t.1g,AI:zD(OHb{1",HSIe'Ab'oJ'"
MAGNESIO-FERRITARAMITE
NaI'OINe'"'ce'"It.1g,Fe"(OH.h{',,,}lSI.,'AI:z'oJ'"
Pop.: FERROKAERSUTITE NJ'~faJ(Fe,Mg):TID(OHb{1"'HSIe'Ab'o,,]"'"
MAGNESIO-HASTING5ITE
Ne'"''caJal(Mg,Fe)."FeO(OHb{l'"}[SIe'Ab'oJ'''
TARAMITE
Na[10]Na[llJca[8}(Mg,Feh"Fe2o(OH)2t1 ooHSislAl2~2col
C2Im (Subs.d.Ar1vedsonite)
PARGASITE
Na[10]ca2[8}(Mg,Fe)4oAlO(OH)2t1ooHSisIAl2'o22l2col C2Im
(Subs.d.Arfvedsonite)
MAGNESIO-ALUMINO-KATOPHORITE
Na[10]Na[llJca[8}Mg.O~(OH)2t1oo}[Si/AI~ C2Im
(Subs.d.Arfvedsonite)
FERRI-KATOPHORITE
Na(10]Na[81Ca[8}Feso(OH)2t1ooHSi/AI~2col C2Im?
(Subs.d.Richterite)
KAERSUTITE
Na[1O]CalJ(Mg,Fe)4"Ti"(OH)2t1 ooHSialAl2t022l2CX C2Im
(Subs.d.Richterite)
ALUMINO-KATOPHORITE
Na[10]Na[8}caI8l~e.Mg)4 AlO(OH)2
{1oo}[Si/Af0221
C2Im
BARROISITE
Na[8Jca[8](Mg,FehAI2O(OH)2t1ooHSi/AI'o22l2col C2Im
(Subs.d.Tremolite)
ALUMINO-FERRO-tK>RNBLENDE
ca}BiFe4AlO(OH)2t1ooHSi/AI~cx C2Im
(Subs.d.Richterite)
NYBOITE Na(10]Na}8]Mg3Al2O(OH)2tloo}{Si/Af022l2col
C2Im (Subs.d.Arfvedsonite)
SODJlJM-GEDRITE
Na(10](Mg,Fe)}8}(Mg,Fe)4AlO(OH)2tloo}{SisIAl2'o22l2col
Mon. 5.g.? (Subs.d.Richterite)
MAGNESIO-FERRIKATOPHORITE
Ne" OINe'"'ce'a"'g:FeO(OHb{l"'HSir'MQ",J"'"
Pop.: FERRI-TARAMITE NaI'OINe'"'caIa)Fe.(OHj,{1",nSIe'AI,'o"f'"
Pop.:
ALUMINO-BARROISITE Nala'ce'a"'g"Al:z(OHb{1"'~Si7'Afo"f'"
FERRISARROISITE Ne'"'ce'aIt.1g,DFe,,(OHb{1"'HSirAfo.nF
FERRo-ALUMINO-BARROISITE
Na"lca"''Fe,DAJ,(OHj,{''''HSI,'Afo"f''''
FRAMEWORK
VESUVIANITE Ca,g[Ml){3cx:>HFe(Mg,AI)8Al4O(OH)1o{QHSiI04!1o{g}[Si2IOr]4) P4/ncc
MINERALS TENTATIVELY CLASSIFIED
ARSENOCRANDALITE Al3o~I[Or(OH)(OH)s(Ca,Sr)]
R3m(=Cmndalite)
BITYITE Ca(12)UoAl2O(OH)2t2cx:>}[Si2IBeIAl'olOJ(2s)c C2Ic
(=Phlogopite)
EUDIALYTE Na180CaaF83o(OH;CI)4 {2cx:>}[ Zf{g}[Si 3IOgh
{g}[Slg'<>zr12] R3m
GONYERITE
(Mn,MghFeO(OHh[2cx:>HSi3IFeI01ot{(2cx:>H(Mn,MghO(OH)s] ]
Orth. 5.g.? (Subs.d.ClinochloreJ.,;
INNELITE ea.I'UI"JNa2oCa<>ri3 b4W}{s'0412tg}[Si2IOr12 P1
MAGNESIUM ASTROPHYLLITE
K2Na2t2cx:>}[M92Fes<>ri2Si8'o24(O,OH,FM A2J (=Astrophy.)
SEIDOZERITE
(Na.Cah[8l(Na,Cah~nOYi"Zf(F.OH)2t9}[Sh'orh P2Ic ...
MANANDONITE
LiOAIO(OHh[ {2cx:>}[Si2IAlIB'olO]{2cx:>}[Al30(OH)s] )
C1 (..chlorite)
FRANKLINFURNACEITE
Ca2~n"FeO(OHh [ {2cx:>}[Sb1zn2101O) {2cx:>}[Mn3(OH)al] C2
(..chlorite)
HELLANDITE-(Y)
(Ca.Y)l"PIy2IllePJ(AI,Fe)O(OH)2t1 oo}{Si4'B4I0 20(OH)21 P2Ia
133
Table 585
MINERALS NOT YET CLASSIFIED
ARROJADITE KNa..Ca(Fe,Mn)w~I(P04)12(OH)2 A2Ja
ARSENOGOYAZITE (Sr.Ca,Ba)A13(As04)(As~H)(0H)6
R3m
ATLASOVITE CusFeBi04(S04lsKCI P4Incc
BAUPHOUTE UBaMg~3(~06h(OH)F4 Ccc
BORNEMANITE N87BaTI2NbSi~17(P04l(F,OH) I bmm ...
DICKINSONITE KNa..Ca(Mn,Fe)1~(P04)12(0H)2 A2Ja
KIB 129
eDIXENITE CuFeMn14(As04)(AsQ3l:;(Si04h(OH)6 R3
eHARKERITE Ca12Mg~(C03l4(B03MSi04MH20,CI)17
R3m
HAUCKITE FEl3(Mg,Mnh..zn18(S04l4(~h(OH)81
P6/mmm
HIORTDAHUTE I
Na..CaeZr2(Nb.Mn,Ti,Fe,Mg,A1h(Si20rh~5 P'1
HIORTDAHUTE II (Na,CahCae(y,NahZr2(Si2Or)403F5
P'1
HOLTEDAHUTE Mn12(P~H,P04)(P04MOH,D)6
P31m
KEGEUTE PbeAl~ie020(S04h(C03MOH)8A2Jm?
KRAISSILITE Zn3FeMn24As5018(Si0 4)s(OH)18 P6~
MAMMOTHITE Cu4PbsAlSb02(S04hCI4(OH)18 C2 ...
NACARENIOBSITE - (ee) Na3Ca3(Ce,La)Nb(Si2OrhOF3
P21/a
epHOSINAlTE Nal 1(Na,CahCa2Ce(Si~)4(P04)4P212121
eQUEITITE "Zn2Pb4(Si04)(SiPT)(S04) P21
SOBOLEVITE Na14Ca2Ti~n04(Si2Orh(P04)4 Mon.?
T1ENSHANITE KNaBaGCa2Mn6TI6B1~i~123(0H)2 P6/m
TLAPALLITE H6(Ca.Pbh(Cu,zn)~04(Te~)4Te06
Mon.s.g.?
VUONNEMITE N85TiN~(Si2Orh~F2.2Na3P04 P'1
eWAWAYANDAITE Ca12Be18Mn4~Si12046(OH.CI)30
P2Ic
eWHERRYlTE CUPb40(S04l2(C~)(OH,CI)2C2Im
YOSHIMURAITE Ba2TiMn2(Si04l2(S04h(S04,P04)(OH.CI)
P'1
Table 59S. Minerals with structural fonnuJas which are simpler than ApBqCrD. and
ApBqCrD.Ex I and therefore should belong to Vol.1.
A
BILIBINSKITE [Au3,Cu2.Pb,nTeQ2lc Cub. s.g.? (=Copper, [Cu]C)
AmB n
ALLOPHANE [AIA.Si02,H~] Amorphous
134
Table60S
GROUP
USil041"
ApBCD
ApBqCD
ApBqCrD
MONTICELLITE Ca"Mg
(Subs. deriv.Forsterite)
TIVANITE Ti'V'~O~OH)t
NADORITE Pb[ S SJICWIC1D(Q2,2alf)f
ANDALUSITE AloAJ[ SIItOs D)R21 by (Vol.1,T.22S)
AIKINITE CulpblSo-21Bil6+ [S~
BOURNONITE ptflSJCu'Sb ][~t
FREIESLEBENITE Ag[4lpboSb[3ri ISb#
LIBERITELhSe'Si[0 41"
ELPASOLITE AloNaO~2Fsf (Subs.deriv.Perovsklte)
STANNITE CU21FeiSn s4f {Subs.deriv.Sphalerite)
SWEDENBORGITE SboBe4 [Na~]cIl
BRAUNITE MncbMns[6}Sil[OI2D4)Cls (Vol.1,T.22S)
WARWICKITE (Mg,T1,Fe,AJhO[O{g}[SI'031cTo
DOLOMITE CaUPMgUP{g}[Cu03cnh"
HUNTITE CaPMg3U{g}[Cu0314
c
FLUOBORITE M93i<F,OH)J<g}[SIr031 TU)
MALACHITE CU2[(OHh{g}[CI'031c.TO'
p~ISJCusqnOHMClh)(Q2 ,Ql)f
ApBqC,Ds
ApBCDE
ApBqCDE
ApBqCrDE
HODGKINSONITE Mn':zn~Sil04(OH)21"
ARGYRODITE A93tA9~ Ag ~e1SsD21c ~o1.1 T.22S)
APHTHITALITE Nao~ (K,Na)[1 (K,Nah10!0ir3l2T4
0'
LUDWIGITE Mg2'FeO[(02l{g}[Bu~I
PINAKIOLITE Mg20Mno[(0h{g}[SIr031TS'
135
SHEET
CHAIN
FRAMEWORK
SILLIMANITE AIO{l00}{SiAl'O~L"Y
ARMALCOLITE (Mg,Fe)[6!,-j[ {loo}[TiOsl
(Subs.deriv.Pseudobrookite)
(Inser.subs.deriv.Tridymite)
NEPHELINE
DIOPSIDE CaIOJMgo{loo}[Si2'Oef'
ENSTATITE Mg[8JMgo{loo}[Sh'oef""
PYROPHYLLlTE-2M
(Na,K)[BI9I{300}[SiIAl'o4I2Jechlh
(Inser.subs.deriv.Tridymite)
TITANITE 3:>ofCalTioSitosl
ALBITE NaIOJ{300}[Si3 A1'OsIIL"Y}s
Alo(OH){2<Xl}[Si2'oSI(2h)c
ANORTHOCLASE
BENITOITE Bal61{300}[Tio{g}{Si3'09]]
LEUCITE t<l&+61{300}[A1tSh'oel
(",Nepheline)
MICROCLINE t<l101{300}[ShtAI'ost2by)s
OLIGOCLASE
(Na,Ca)ISJ{300}[Sht(Si,AlhtOel(2by)S
(Vol.1,T.22S
ORTHOCLASE t<l9J{300}[ShtAitOsl(2by)s
MELILITE
(Ca,Nah[SJ{2<Xl}[(AI,Mg)I(Si ,A1ht~1
MARIALITE
NalJcJI4J{300}[(Si,A1) 12t~41
NARSARSUKITE
t(O
NalJ{300}[(T i,FetSi4 ,F)1d
PARACELSIAN
Ba(sJ{300}[ShtAl2'osl (2by)s
BALANGEROITE
ANTIGORITE
BARBOSALITE
(Mg,Feh1o{l oo}[Sisl~7(OHhol
{300}[Fe3o(OHh{g}{pt04hl
CRONSTEDTITE-1 H
(Basic str. Lazulite)
lO
2<Xl(Fe3o(OH)4{2<Xl}{(Si,Feh'os]]
BERYL A12o{300}[Be3's ie 1el
ISi
KAOLINrrE 200[A1 2o(OHM2<Xl}[Si210sl~ CORDIERITE M92o{300}[AI 4 s'o1s1
HALLOYSITE-7A
(Subs.d.BeryQ
YOSHIOKAITE
200[A1 2o(OHM2<Xl}[Si2'osfl
h
Ca3[SJ{300}[Si2'Aleto1lJechl
TALC Mg3o(OHh{2<Xl}[Si 4'o1of )c
(Subs.d.Nepheline)
IOs1
(Mg,Feho(OH)4{2<Xl}[Si2
TETRAHEDRITE
{300}[(Cu,Fe)sl(Cu,Fe)slrSbpnIS131
(Vol.1,T.22S)
AMBLYGONITE
3oo[(Li,Nai sIAI(F,OH)P'o41
ISOKITE 3oo[CaPMgplO~
(Subs.d.Titanite)
PLAGIOCLASE
(Na,Ca)[SI{300}[Si21(Si,AI)IAlIOal(2by)S
(VoI.1 ,T.22S)
PECTOLrrE NalOJCa20{loo}[Si3'Oa(OH)I"Y
NORRISHITE
t<l12JUoMn20{2<Xl}[Si4'o121(2S)c
136
Table61S
GROUP
AZURITE CU"'Cu'"JJ[[OH]2W}[CU~b]
OSUMILITE
1(l8l(Fe,Mgh(AI,Feh'{g}[(Si,Al)12to301
HYDROZINCITE Zn3Zn2'(0H)a{g}[C"03b
ApBqC,D.Ex
ApBqCDEF
ApBqC,o.E
ApBqC,oEF
ApBqC,o.EF
ApBqC,o.ExFy
FERRO-AXINITE
Ca4aPFe2AI4O(OHh{g}[~'sieto301
ApBqC,o.ExFyGz
ApBqCrD.ExFyG......
ELBAITE
Na[&+3l(li.Al)~6o~H)4
[{g}(Btr~~~Si6 Ie]
UVITE Ca (Mp'.FehoAlsOMgO(0H)4
[{g}(Btr~I:rtg}[SI6 Ole]
137
CHAIN
SHEET
MUSCOVITE - 2M1
1(l12JAl20(OH,Fh{200}[(Si,A1)4to10)(2s)c
PHLOGOPITE
1(l121Mg3(F ,OHh{200}[(Sb,AJ)to10) (2s)c
FRAMEWORK
TREMOLITE
Ca2(SJ(Mg,Fe)50(OHh{100}{Sisto22fCX
ANTHOPHYLLITE
(Mg,Fe)lJ(Mg ,Fe)50(OHh{loo}[SisI022l2chx
XONOLITE Ca/Ca2(OHh{100}[SisI017)2.
W1NCHITE
Na[SJCa[SJ(Mg,Fe)5o(OHh{loo}[(Si,A1)s
(Subs.d.Tremolite)
tonf cx
RICHTERITE
Ca(10INall(Mg,Fe)50(OH)2t100}[SisI02212.CX
(Basic str. Arfvedsonite)
GLAUCOPHANE
NalJ(Mg,FehoAl20(OH)2tl00}{Sisto22l2CX
(Subs.d.Tremolite)
TSCHERMAKITE
Ca2[8J(Mg,Fe)5o(OH)2t1oo}{Si elAl 2to 22) 2CX
Subs.d.Tremolite)
GREDITE
AI2[8](Mg,Fe)50(OHh{100}[SieIAI2102212.chx
(Subs.d.Anthophyllite)
HOLMQUISTITE
Lil1(Mg,FehAI20(OHh{100}[SisI02212chx
(Subs.d. Anthophyllite)
ARFVEDSONITE Na' 'UINar(Fe,MghuFeu
(OHh{100}[Si s'o221 2CX (Subs.d.Richterite)
EDENITE
Na[10]CalJ(Mg,Fe)s(OH)2tl00}[Si7IAlto22l2.CX
(Subs.d.Richterite)
(+otherssubs.d.Richterite)
MAGNESIO-HORNBLENDE
Ca2[8](Mg,Fe)40Alo(OH,F)2
1 2cx
{1oo}[Sir'Al
(Subs.d.Tremolite)
(+otherssubs.d.Tremolite)
BARROISITE Nal'CaIO'(Mg,FehuAl2U(OH)2
2CX
{1oo}[Sir'Al1
(Subs.d.Tremolite)
TARAMITE
Na(10INa[sJca[8](Mg ,Feh ~e2o(OHh
2CX
IAl
{1oo}[Sie 2
~Ubs.d.R ichterite)
PARGASITE Na[l alJ(Mg,Fe)40Alo(OHh
2CX
{1oo}[SieIAl2
(Subs.d.Arfvedsonite)
(+ otherssUbs.d.Tremolite)
(+ otherssubs.d.Richterite)
CLINOZOISITE
Ca[91Ca(10J{300}{AI30SbtOdOH)
(Subs.d.Zolsite)
EPIDOTE
Cal1{300}[FeoA12Si3to 12(OH)
(Subs.d.Zoisite)
IAbI0121
LAZURITE INa3CaS I {300}[Si3
(::=Sodalite)
CHAPMANITE
StP'I{200}[Fe2003(OH){200HSi2to51"
MUSCOVITE-1M
1(l121Al20(OH,F)2t200}[Si3IAIIOlO][2a)c
(Subs.d.Muscovite- 2M1)
PREISWERKITE Nall<l(Mg,A1hU
(OHh{200}[SbIAI2101ol(2s)c
(Subs.d.Phlogopite)
SIDEROPHYLLITE
CANCRINITE
Kl 2J(Fe,Al)e0(OHM200}[Si5IAl3to 20)[2a)c (Na,Ca)s(SJ{g}[ctr03.l2t300}[SieIAlel~..J
(Subs.d.Phlogopite)
CLINOCHLORE (Mg,A1ho(OHh
{200}[(SI,AJ)4to lO){200){(Mg,A1)3o(OH)e)
HAOYNE
INa3CaS041 {300}[Si3IAI3'ol21
(::=Sodalite)
om
om
tom
tom
VESUVIANITE
Ca19[618I{300}[Fe(Mg,AI)sAI/(OH)lO
I0
IOr)..J
{g}[Si 4) lo{g}[Si2
138
Minerals from ApBqC,O. up to ApBqCrO.ExF,Gz...
Table 625
STRUCTURAL
FORMULAS
CLOSE-PACKED
Total
46 (+811
6
3
6
8
10
32
6(+91
6(+71
30(+681
12 (+131
4
C .E.
C E.F.
C E.FvG.
B.C,o.E.FvGz...
CHAIN
GROUP
1 (+21
2(+71
131+261
+18
+13
+17
+12
+10
+70
SHEET
FRAMEWORK
TENT.CLASS.
NOTYETCLASS.
8 (+111
3 (+161
6 (+31
19 (+71
8(+161
4(+11
1
1
33 (+241
209
188 (+161
90 (+131
24
10
521 (+29)
107 ...25)
90 ...261
46 ...61
32 ...121
19 +ell
294 ...761
14 (+291
TOTAL
619
416
196
92
86
1286
Amorphous
Table63S
STRUCTlJRAL
FORMULAS
loBaCrO.
loBaCrO.Ex
laBaCrO.ExFv
laBaCrO.ExFvGx
laBaCrO.ExFvGx...
Total
CLOSE-PACKED
GROUP
30
12
4
5
5
-1
-46
2
13
CHAIN
5
3
6
8
10
32
SHEET
FRAMEWORK
19
8
4
1
1
33
6
3
5
-14
%CLOSEPACKED
TOTAL
65
31
19
10
13
138
46%
39%
21%
0%
0%
33%
TOTAL
MINERAlS
"'CLOSEPACKED
CLOSE-PACKED MINERALS
STRUCTlJRAL
FORMULAS
CLOSE-PACKED
MINERALS
loS.CrO.
IDB.CrO.Ex
IDB.CrO.ExFv
...B.CrO.ExFA
IDBaCrO.ExFA...
98
25
4
127
TOTAL
CLOSE-PACKED
TENT.CLASSIFIED
127
86
28
6
1
248
TOTAL CLOSE
PACKED
225
111
32
6
1
375
519
415
195
92
65
1286
43%
27%
16%
6%
1%
29%
s1sA
>1sA
TOTAL
l..BaCrO.
B.CrO.Ex
B.CrO.ExFv
B.CrO.ExFvGx
B.CrO.E.FvGx
Total
379
227
172
137
62
41
47
459
551
364
146
76
84
35
18
743
65
1202
'" MINERAlS
69%
63%
58%
46%
27%
62%
s1sA
Mineral Index
139
140
Asisite T.75, T.35S
Astrophyllite T.116, T.47S
Atelestite T.116, T.41S
Atlasovite T.166, T.58S
Augelite T.75, T.41S
Augite (VoU, T.64, T.22S), T.30S
Aurichalcite T.75, T.39S
Austinite T.116, T.40S
Azoproite T.116, T.42S
Azurite T.75, T.44S, T.61S
Babefphite T.117, T.40S
Babingtonite T.146, T.55S
Bafertisite T.146, T.52S
Baghdadite T.117, T.46S
Bahianite T.76, T.39S
Baileychlore T.76, T.54S
Balangeroite T.76, T.37S, T.60S
Balipholite T.166, T.58S
Balkanite T.76, T.35S
Banalsite T.117, T.45S
Bandylite T.76, T.28S
Baotite T.146, T.458
Baratovite T.159, T.55S
Barbosalite T.76, T.37S, T.60S
Barentsite T.147, T.53S
Barroisite T.166, T.57S, T.61S
Bartelkeite T.76, T.31S
Bartonite T.76, T.34S
Barylite T.76, T.32S, T.60S
Barysilite T.76, T.34S
Barytocalcite T.76, T.30S
Barytolamprophyllite T.159, T.55S
Bastnasite-K'e) T.76, T.288
Bastnasite-fl.a) T.76, T.28S
Bastnasite-IY) T.77, T.288
Batisite T.117, T.45S
Baumhauerite T.77, T.38S
Bavenite T.117, T.47S
Bazirite T.77, T.31S
Bazzite T.77, T.37S
Beaverite T.147, T.52S
Bellite T.77, T.32S
Belovite-(Ce) T.147, T.51S
Bementite T.77, T.38S
Benavidesite T.77, T.35S
Benitoite T.77, T.30, T.60S
Benjaminite T.117, T.47S
Benleonardite T.77, T.35S
Benstonite T.117, T.458
Bergslagite T.117, T.40S
Berryite T.77, T.39S
Berthierine-1H T.77, T.39S
Berthierine-1M T.77, T.39S
141
Cahnite T.118, T.42S
Calciborite (VoU, T.48,T.22S),T.28S
Calciovolborthite T.119, T.40S
Calcjarlite T.79, T.35S
Calcybeborosilite-(Y) T.119, T.48S
Calderite T.79, T.36S
Caledonite T.159, T.56S
Calzirtite T.79, T.44S, T.61S
Canasite T.147, T.54S
Cancrinite T.147, T.54S, T.61S
Cappelenite-(Y) T.147, T.53S
Caracolite T.119, T.44S
Carbocernaite T.79, T.31S
Carboirite T.119, T.43S
Carbonate-fluorapatite T.79,T.32S
Carbonate-hydroxylapatite T.148, T.54S
Carminite T.119, T.46S
Carpholite T.119, T.45S
Caryinite T.148, T.51S
Caryopilite T.80, T.37S
Cascandite T.119, T.51S
Cebaite-(Ce) T.119, T.48S
Cebollite T.119, T.48S
Cechite T.119, T.40S
Celadonite T.148, T.51S
Celsian T.80, T.34S
Ceriopyrochlore-(Ce) T.80, T.32S
Cerite-(Ce) T.167, T.45S
Cernyite T.80, T.29S
Cerotungstite-(Ce) T.80, T.35S
Cervandonite-(Ce) T.80, T.35S
Cesanite T.119, T.44S, T.61S
Cesaro lite T.80, T.35S
Cesium Kupletskite T.148, T.54S
Cesplumtantite T.80, T.39S
Cesstibtantite T.80, T.32S
Chabourneite T.80, T.39S
Chalcothallite T.80,T.35S
Chambersite T.80, T.45S
Chamosite T.80, T.54S
Chantalite T.119, T.42S
Chapmanite T.120, T.52S, T.61S
Chatkalite T.80, T.34S
Chayesite T.120, T.43S
Chenite T.120, T.46S
Chernykhite T.120, T.44S
Chesterite T.80, T.38S
Chestermanite T.120, T.42
Chevkinite-(Ce) T.120, T.47S
Chkalovite T.81, T.34S
Chlorapatite T.81, T.32S
Chlorellestadite T.81, T.32S
Chloritoid (monoclinic) T.120, T.42S
Chloritoid (triclinic) T.120, T.42S
142
Dalyite 'I83, 'I34S
Danalite 'Il22; 'I44S
Danburite 'I83 , 'I34S
Dannemorite 'I122, 'I47S
Daqingshanite-(Ce) 'Il48, 'I52S
Darapiosite 'Il48, 'I52S
Datolite 'Il22, 'I40S
Davanite 'I83 ,'I34S
Davidite-(Ce) 'I83, 'I42S
Davidite-(La) 'I83 , 'I42S
Davidite-(Y) (VoU , 'I59, 'I22S), 'I34S
Davreuxite 'I122 , 'I46S
Davyne 'I122, 'I48S
Dawsonite 'I122 , 'I41S
Deerite 'I148, 'I54S
Delindeite 'I148, 'I54S
Dellaite 'I83, 'I39S
Denisovite 'I122, 'I42S
Denningite T.83, T.31S
Derbylite 'I122, T.42S
Derriksite 'Il48, T.45S
Descloizite 'Il22, 'I40S
Diaboleite T.83, T.32S, T.60S
Diaphorite T.83, T.38S
Dickinsonite 'Il67, 'I58S
Dickite T.83, 'I37S
Dietzeite 'I123, T.51S
Diopside T.83, T.30S, T.60S
Dixenite 'I167 , 'I58S
Djerfisherite 'Il23, 'I42S
Dolerophanite T.83, T.31S
Dollaseite-(Ce) 'I167, 'I55S
Dolomite T.84, T.305, T.605
Donbassite T.159, T.56S
Donpeacorite T.84, T.30S
Dorrite T.148, T.51S
Dravite T.167, T.57S
Drugmanite 'Il67, T.52S
Duftite T.123, 'I40S
Dugganite T.159, T.56S
Dumortierite 'Il23, 'I48S
Durangite 'Il23, T.40S
Dussertite 'I167 , T.52S
Ecdemite 'I84, 'I38S
Eckermannite 'I149 , 'I55S
Eclarite 'I84, T.34S
Edenite T.159, 'I55S, 'I61S
Efremovite 'I84, 'I39S
Eglestonite T.84, T.59S
Eifelite 'Il23, T.45S
Eitelite T.84, T.31S
Ekanite T.84, T.34S
Elbaite 'Il67, 'I57S, T.61S
143
Ferro-glaucophane T.149, T.54S
Ferrohagendorfite T.85, T.39S
Ferro-holmquistite T.149, T.54S
Ferro-kaersutite T.160, T.57S
Ferrokesterite T.85, T.29S
Ferro-pargasite T.160, T.55S
Ferropyrosmalite T.85, T.39S
Ferro-richterite T.149, T.53S
Ferrosilite (YoU , T.66, T.22S), T.30S
Ferrotschermakite T.149, T.54S
Ferrotychite T.149, T.53S
Ferrowinchite T.149, T.52S
Ferrowyllieite T.124, T.46S
Fersmanite T.150, T.55S
Feruvite T.168, T.57S
Fillowite T.124, T.46S
Fingerite T.85, T.59S
Finnemanite T.86, T.34S
Fizelyite T.86, T.38S
Flinkite T.86, T.42S
Flocencite-(Ce) T.124, T.45S
Florencite-(La) T.124, T.45S
Florencite-(Nd) T.124, T.45S
Fluoborite T.86, T.33S, T.60S
Fluorapatite T.86, T.32S
Fluorellestadite T.86, T.32S
Fornacite T.160, T.56S
Foshagite T.86, T.38S
Fraipontite T.86, T.38S
Franciscanite T.124, T.46S
Franckeite T.86, T.38S
Franklinfurnaceite T.161 , T.57S
Fredrikssonite T.125, T.42S
Freedite T.150, T.53S
Freibergite T.86, T.37S
Freieslebenite T.86, T.27S, T.60S
Fresnoite T.125, T.42S
Friedelite T.87, T.38S
Friedrichite T.87, T.38S
Frondelite T.125, T.46S
Fukalite T.150, T.53S
Gabrielsonite T.125, T.40S
Gadolinite-(Ce) T.125, T.45S
Gadolinite-(Y) T.125, T.45S
Gagarinite-(Y) T.87, T.28S
Gageite-1Tc T.125, T.37S
Gageite-2M T.125, T.37S
Gainesite T.125, T.45S
Gaitite T.150, T.53S
Galeite T.125, T.46S
Galkhaite T.87, T.34S
Gamagarite T.125, T.43S
Ganomalite T.125, T.46S
144
Hardystonite T.89, T.33S
Harkerite T.169, T.58S
Harstigite T.151, T.53S
Hastingsite T.161, T.55S
Hatchite T.126, T.41S
Hauchecornite T.89, T.41S
Hauckite T.169, T.58S
Haiiyne T.161 , T.55S, T.61S
Hawthorne ite T.151 , T.55S
Haycockite (YoU, T.66, T.22S), T.34S
Hectorfloresite T.126, T.46S
Hectorite T.126, T.47S
Hedenbergite T.89, T.30S
Hedyphane T.126, T.44S
Heidornite T.169, T.55S
Heliophyllite T.89, T.38S
Hellandite-(Y) T.161, T.57S
Helvite T.127, T.44S
Hematolite T.151, T.44S, T.61S
Hematophanite T.89, T.35S
Hemihedrite T.161 , T.56S
Hemloite T.89, T.35S
Hemusite T.89, T.31S
Hendricksite T.151, T.44S
Heneuite T.161 , T.56S
Henmilite T.127, T.45S
Henritermierite T.127, T.47S
Hentschelite T.127, T.44S
Herderite T.127, T.40S
Heyite T.127; T.48S
Heyrovskyite T.89, T.34S
Hibschite T.127, T.47S, T.61S
Hidalgoite T.161, T.51S
Hingganite-(Y) T.127, T.40S
Hingganite-(Yb) T.127, T.40S
Hinsdalite T.161, T.51S
Hiortdahlite I T.169, T.58S
Hiortdahlite II T.169, T.58S
Hocartite T.89, T.29S
Hodgkinsonite T.127, T.42S, T.60S
Hogbomite-4H T.90, T.38S
Hogbomite-5H T.90, T.38S
Hogbomite-til-I T.90, T.38S
Hogbomite-15H T.90, T.38S
Hogbomite-ISk T.90, T.38S
Hogbomite-ISlc T.90, T.38S
Holdawayite T.127, T.46S
Holdenite T.161, T.53S, T 61S
Holmquistite T.151 , T.54S, T.61S
Holtedahlite T.169, T.58S
Holtite T.127, T.46S
Homilite T.127, T.45S
Howardevansite T.128, T.42S
Howieite T.128, T.45S
145
Johannsenite T.92, T.30S
Johillerite T.129, T.43S
Johnbaurnite T.92,T.32S
Johninnesite T.162, T.55S
Johnsornervilleite T.129, T.46S
Julgoldite-(Fe2+) T.129, T.43S
Julgoldite-(Fe3+) T.129, T.43S
Junoite T.92, T.53S
Kaersutite T.169, T.57S
Kalborsite T.162, T.55S
Kalicinite T.92, T.28S
Kaliophilite T.92, T.27S
Kalistrontite T.92,T.34S
Kalsilite T.92, T.27S, T.60S
Karnaishilite T.129, T.46S
Karnchatkite T.152, T.42S
Karniokite (YoU, T.67,T.22S), T.31S
Kanonaite T.92, T.27S
Kaolinite T.92, T.37S, T.60S
Karlite T.129, T.48S
Kazakovite T.129, T.42S
Kassite T.92, T.34S
Katayarnalite T.162, T.56S
Katoite T.129, T.47S
Katoptrite T.129, T.54S
Kegelite T.169, T.58S
Keldyshite T.129, T.41S
Kellyite T.92, T.39S
Kelyanite T.93, T.39S
Kernrnlitzite T.162, T.51S
Kentrolite T.130, T.52S
Kesterite T.93, T.29S
Kettnerite T.152, T.49S
Khanneshite T.93, T.39S
Khibinskite T.93, T.35S
Khinite T.130, T.43S
Kiddcreekite T.93, T.31S
Kirnzeyite T.93, T.36S
Kinoshitalite T.130, T.45S
Kirkiite T.93, T.39S
Kirschsteinite T.93, T.27S
Klebelsbergite T.130, T 53S
Klyuchevskite T.152, T.53S
Knorringite T.93, T.36S
Koashvite T.130, T.43S
Kobellite T.93, T.38S
Koenenite T.130, T.47S
Kogarkoite T.93,T.41S
Kolicite T.162, T.54S
Kolwezite T.93, T.35S
Kornbatite T.130, T.48S
Konderite T.93, T.35S
Kornerupine T.130, T.45S
146
Lomonosovite T.162, T.56S
Lorenzenite T.131, T.47S
Loseyite T.95, T.47S
Lotharmeyerite T.162, T.56S
Lourenswalsite T.132, T.47S
Loveringite (VoU, T.60, T.22S), T.34S
Lovozerite T.95, T.34S
Ludjibaite T.95,T.39S
Ludwigite T.132, T.42S, T.60S
Lusungite T.169, T.52S
Lyonsite T.96,T.45S
Macaulayite T.96,T.38S
Macfallite T.163, T.56S
Mackayite T.96, T.31S
Macphersonite T.153, T.53S
Magbasite T.163, T.56S
Maghagendorfite T.132, T.42S
Magnesio-alumino-katophorite T.170, T.57S
Magnesio-alumino-taramite T.170, T.57S
Magnesio-anthophyllite T.96,T.47S
Magnesio-arfvedsonite T.153, T.55S
Magnesio-axinite T.170, T.55S
Magnesiocarpholite T.132, T.45S
Magnesioclinoholmquistite T.163, T.54S
Magnesio-cummingtonite T.96, T.47S
Magnesio-ferri-katophorite T.170, T.57S
Magnesio-ferri-taramite T.170, T.57S
Magnesio-gedrite T.153, T.54S
Magnesio-hastingsite T.163, T.57S
Magnesio-holmquistite T.153, T.54S
Magnesio-hornblende T.163, T.55S, T.61S
Magnesiohulsite T.132, T.43S
Magnesio-riebeckite T.153, T.54S
Magnesiosadanagaite T.153, T.53S
Magnesium astrophyllite T.170, T.57S
Magnesium-chlorophoenicite T.132, T.45S.
Magniotriplite T.96, T.31S
Magnussonite T.96,T.35S
Majorite T.96, T.36S
Malachite T.96, T.33S, T.60S
Malayaite T.96,T.40S
Mammothite T.170, T.58S
Manandonite T.163, T.57S
Manganarsite T.96,T.38S
Manganaxinite T.170, T.55S
Manganbabingtonite T.153, T.51S
Manganberzeliite T.96, T.36S
Manganhumite T.96, T.36S
Mangan-neptunite T.163, T.55S
Manganolangbeinite T.96, T.38S
Manganostibite
T.97, T.42S
Manganpyrosmalite T.97, T.39S
Margarite T.153, T.53S
147
Muscovite-1M T.154, T.52S, T.61S
Muscovite-Zlvl, T.133, T.44S, T.61S
Muscovite-Zlvl, T.133, T.44S
Muscovite-3T T.154, T.52S
Musgravite T.99,T.50
148
Parsettensite T.102, T.39S
Parwelite T.136, T.48S
Paulkellerit e T.155, T,52S
Pecoraite T.102, T.38S
Pectolite T.137, T.42S, T.60S
Pectolite-M2abc T.137, T.42S
Pehrmanite-9R T.102, T.35S
Pekoite T.102, T.31S
Pellyite T.137, T.45S
Penikisite T.155, T.53S
Pennantite T.102, T.54S
Perite T.103, T.27S
Perloffite T.155, T.53S
Perrierite T.155, T.54S
Perroudite T.103, T.38S
Petalite T.103, T.31S
Petedunnite T.103, T.30S
Petrovicite T.137, T.41S
Petscheckite T.103, T.31S
Philipsbornite T.170, T.52S
Phlogopite T.137, T.44S, T.61S
Phoenicochroite T.103, T.40S
Phosgenite T.103, T.35S
Phosinaite T.171 , T.58S
Phosphammite T.103, T.31S
Piemontite T.171, T.53S
Pigeonite (VoU , T.37, T.22S), DOS
Pinakiolite T.137, T.42S, T.60S
Pinalite T.137, T.43S
Pinnoite T.103, T.31S
Pirquitasite T.103, T.29S
Piypite T.164, T.56S
Plagioclase (VoU, T.62, T.22S), T.41S, T.60S
Plagionite (VoU, T.69, T.22S), T.44S, T.61S
Plumbobetafite T.103, T.31S
Plumbogummite T.171, T.52S
Plumbojarosite T.137, T.45S
Plumbopyrochlore T.103, T.32S
Plumbotsumite T.103, T.39S
Polylithionite T.155, T.52S
Ponomarevite T.103, T.35S
Potosiite T.137, T.47S
Poubaite T.104, T.34S
Poudretteite T.137, T.45S
Prehnite T.137, T.45S
Preisingerite T.137, T.47S
Preiswerkite T.155, T.53S, T.61S
Preobrazhenskite T.104, T.45S
Proudite T.138, T.45S
Pseudograndreefite T.104, T.35S
Pseudo malachite T.104, T.38S
Pyrobelonite T.138, T.40S
Pyrochlore T.104, T.32S, T.60S
Pyromorphite T.104, T.32S
149
Samuelsonite T.156, T.54S
Saneroite T.156, T.53S
Sapphirine-lTc T.106, T.38S
Sapphirine-2M T.106, T.38S
Sarabauite T.106, T.35S
Sarcolite T.156, T.54S
Sarkinite T.106, T,31S
Satterlyite T.107, T.31S
Schairerite T.l39, T.45S
Schallerite T.l39, T.47S
Schirmerite T.107, T.38S
Schlossmacherite T.l39, T.46S
Schmiederite T.164, T.56S
Schmitterite T.107, T.59S
Schorl T.171, T.57S
Schorlomite T.107, T.36S
Schuetteite T.I07, T.35S
Schultenite T.107, T.28S
Schumacherite T.l39, T.43S
Schwartzembergite T.156, T.51S
Sclarite T.l39, T.48S
Scorzalite T.l39, T.44S
Seamanite T.156, T.42S
Searlesite T.l39, T.42S
Seeligerite T.l39, T.43S
Seidozerite T.171, T.57S
Sekaninaite T.107, T.37S
Seligmannite T.107, T.27S
Semenovite-(Ce) T.l39, T.45S
Senaite (VoLl, T.62, T.22S), T.34S
Serandite T.l39, T.42S
Serendibite T.107, T.39S
Shakhovite T.107, T.35S
Shattuckite T.107, T.45S
Shcherbakovite T.156, T.51S
Shortite T.107, T.42S
Sicklerite
T.107, T.275
150
Tavorite T.141 , T.40S
Teepleite T.110, T.31S
Tellurohauchecomite T.110, T.31S
Teschemacherite T.110, T.28S
Tetrahedrite (VoU , T. 71, T.22S), T.37S, T.60S
Thadeuite T.141 , T.45S
Thalcusite T.110, T.35S
Thalenite-(Y) T.11O, T.50S
Thalfenisite T.110, T.35S
Theisite T.141, T.48S
Thorikosite T.141, T.42S
Thomasite T.110, T.31S
Thorogummite T.110, T.59S
Tienshanite T.171, T.58S
Tilasite T.141, T.40S
Tilleyite T.141, T.47S
Tinaksite T.165, T.55S
Tintinaite T.11O, T.38S
Tinzenite T.157, T.55S
Tiragalloite T.141 , T.42S
Tirodite T.141, T.47S
Titanite T.110, T.27S, T.60S
Titantaramellite T.165, T.56S
Tivanite T.110, T.27S, T.60S
TlapalIite T.171, T.58S
Tobelite T.157, T.52S
Tochilinite T.111, T.38S
Tokkoite T.141 , T.54S
Tombarthite-(Y) T.111, T.59S
Tomichite T.142, T.42S
Topaz T.111, T.32S, T.60S
Tomebohmite-rCe) T.142, T.43S
Tornebohmite-H,a) T.142, T.43S
Tranquillityite T.142, T.48S
Treasurite T.111, T.38S
Tremolite T.142, T.47S, T.61S
Trigonite T.165, T.56S
Trikalsilite T.142, T.44S, T.61S
Trimerite T.142, T.44S, T.61S
Triphylite T.111, T.27S
Triplite T.111, T.31S
Triploidite T.111, T.40S
Tritomite-(Ce) T.142, T.45S
Trolleite T.111 , T.38S
Tschermakite T.157, T.54S, T.61S
Tsumebite T.165, T.56S
Tugtupite T.158, T.51S
Tuhualite T.111, T.41S
Tundrite-( Ce) T.171, T.55S
Tundrite-(Nd) T.171, T.55S
Tungusite T.142, T.48S
Tunisite T.165, T.56S
Tumeaureite T.111, T.32S
Tusionite T.111, T.30S
151
Wherryite T.172, T.58S
Whitlockite T.144, T.46S
Wickenburgite T.158, T.53S
Widenmannite T.144, T.46S
Wilkinsonite T.144, T.43S
Willemseite T.113, T.37S
Winchite T.158, T.52S, T.61S
Wiserite T.165, T.56S
Wodginite T.113, T.31S
W6hlerite T.165; T.55S
Wolfeite T.113, T.31S
Wonesite T.144, T.44S
Woodhouseite T.165, T.51S
Wyllieite T.158, T.50S
Xocomecatlite T.114, T.35S
Xonotlite T.114, T.47S, T.61S
Yagiite T.144, T.44S
Yavapaiite T.114, T.31S
Ye'elimite T.144, T.46S
Yeatmanite T.144, T.48S
Yedlinite T.114, T.34S
2.
3.
R.K. Verma: Gravity Field, Seismicity and Tectonics of the Indian Peninsula and the
Himala yas. 1985
ISBN 90-277 -1864-4
4.
5.
ISBN 90-277-1572-6
ISBN 0-7923-0188-9
6.
7.
8.
9.
A.A. Meyerhoff, I. Taner, A.E.L. Morris, W.B. Agocs, M. Kamen-Kaye, M.I. Bhat,
N.C. Smoot and Dong R. Choi; D. Meyerhoff Hull (ed.): Surge Tectonics: A New
Hypothesis of Global Geodynamics. 1996
ISBN 0-7923-4156-2
10.
II.