結晶形態模型リスト（６７５セット）(C)

I. Tesseerales (Regullaeres) System, Cubic-System.
1	Octahedron o=111: Magnetite, Spinel, Cuprite, Pyrite, Linnaeite or Cobaltite, Microlite, Flourite of Andreasberg and Moldawa etc. Cleavageform of Fluorite
2	Octahedron as twinned crystal: Spinel, Gahnite, Magnetite of the Greiner, Acanthite, as Cleavageform on the Flourite of Kongsberg
3	Hexahedron, a=100, Galena, Halite, Flourite, Pyrite, Skutterudite, Boracite of Segeberg in Holstein, Provskite, Chlorargyrite etc. Cleavageform on the Galena, Halite, Alabandite etc.
4	Hexahedron, Penetration twinneng: Flourite of Durham
5	Dodecahedron (Garnethedron): d=110: Garnet. Cleavageform of Sphalerite. Magnetite of Ala, Hg-rich Silver, Acanthite, Cuprite of Chessy, Sodalite, Nosean, Sal-ammoniac etc.
6	Trapezohedron: n=211: Leucite, Garnet, Analcime, Sal-ammoniac, Acanthite of Johann Georgenstadt etc.
7	Trigonal trisoctahedron: p=122: Diamond. Flourite of Kongsberg
8	Tetrahexahedron: e=120: Gold, Copper, Flourite of St. Agnes Cornwall
9	Hexoctahedron: s=321: Diamond, as combination on the Flourite of the Muensterthal
10	Rhombic dodecahedron with curved faces: p=122: Diamond
11	a d --=100. 011. 130. 322: Hg-rich Silver of Obermoschel and Flussspath
12	o a m=111. 100. 311: Galena of Annaberg old locality
13	o a d=111. 100. 011: Galena of Neudorf in the Harz
14	Octahedron, Dodecahedron and Trigonaltrisoctahedron: o d p=111. 110. 122: Galena of Ober- Lahr by Linz a. Rhein, Magnetite, Flourite
15	Octahedron, Penetration twinning according to Hessenberg: o d a=111. 110. 100: Galena of Ober-Lahr.
16	d a o m --=011. 100. 111. 311. 411. 140: yellow Sphalerite of Kapnik according to Hessenberg
17	Dodecahedron. Twinned crystal: d o=011. 111
18	Hexahedron, Dodecahedron and Octahedron: a d o=100. 110. 110. 111: Skutterudite of Riechelsdorf
19	Pentagondodecahedron (Pyritehedron): e=π120: Pyrite, Linnaeite or Cobaltite
20	Pyritehedron Penetration twinning: e=π120: Pyrite from the Keuper of Vlotho at the Wese
21	right Pyritehedron and right broken Pyritehedron: e s=π 210 π 321: Pyrite of Elba
22	same combination further with the Octahedron: o s= 120. 111. 231: Pyrite of Elba
23	e t=120. 241: Pyrite of Facebai in Hungary and of Waldstein in Kaernthen
24	broken Pyritehedron : s=π 321: Pyrite of Traversella
25	Pyritehedron and broken Pyritehedron: e t=120. 241: Pyrite of Traversella
26	Icositetradedron: m=311: Gold of Veroespatak. Silver of kongsberg
27	right broken Pyritehedron and Hexahedron: a s=100. 231: Pyrite of Traversella
28	broken Pyritehedron with Pyritehedron and Hexahedron: s e a=231. 120.100: Pyrite of Traversella
29	Hexahedron, Octahedron and broken Pyritehedron: a o s=100. 111. π 321: Pyrite of Traversella and of Facebay in Siebenbuergen
30	Octahedron and Pyritehedron: o e=111. π 210: Linnaeite or Cobaltite, Gersdorffite, Pyrite
31	Octahedron, Pyritehedron and right broken Pyritehedron: o e s =111. 120. 231: Pyrite
32	Octahedron, Pyritehedron and left broken Pyritehedron: o e t=111. 120. 241: Pyrite of Traveersella and Linnaeite or Cobaltite of Tunaberg
33	Pyritehedron and Octahedron in the same size: e o=π 210. 111: Pyrite, Linnaeite or Cobaltite
34	Hexahedron and Pyritehedron: a: e=100. π 210: Pyrite, Linnaeite or Cobaltite
35	Octahedron and Hexahedron: o a=111. 100: Galena, Pyrite, Hauerite, Gersdorffite, Siegenite or Ni-rich Linnaeite of Co-rich Polydymite, Kalinite of Potassium-alum etc.
36	Hexahedron and Octahedron: a o=100. 111: Galena, Pyrite, Skutterudite, Flourite, Halite, Acanthite, Silver etc.
37	Hexahedron and Octahedron in the same size: Galena of Freiberg and other places
38	Hexahedron and Tetrahexahedron: a e=100. 120: Flourite of St. Agnes in Cornwall Kongsberg and Altenberg, Sachsen
39	Hexahedron and Tetrahexahedron with the Dodecahedron: a e d=100. 120. 011: Flourite of Kongsberg
40	Hexahedron and Trapezohedron: a n=100. 211: Analcime of the Cyclopeninseln and of the Fassathal, Acanthite, (100. 311 at Flourite of Gersdorf in Sachsen and of Kongsberg).
41	Hexahedron and Tetrahexahedron: a t=100. 421: Fluorite of the Muensterthal
42	Hexahedron, Octahedron, Dodecahedron: a o d=100. 111. 011: Flourite of Ehrenfriedersdorf in Sachsen and of Kongsberg
43	Octahedron and Trigonal trisoctahedron: o q=111. 133: Flourite of Kongsberg
44	Hexahedron and Dodecahedron: a d=100. 110: Flourite of Ehrenfriedersdorf, Acanthite, Cuprite of the Ural. Pyrite of the Alsau by Neuwied
45	Octahedron and Dodecahedron: o d=111. 110: Spinel of Ceylon and of the Vesuv. Franklinite, Cuprite of Chessy. Galena
46 u. 47	Dodelaeder, Octahedron and Icositetrahedron: d o m=110. 111. 311: Magnetite of Piemont
48	Dodecahedron, Octahedron and Trapezohedron. (Icositetrahedron) the Octahedron dominated: o d m=111. 110. 311: Flourite, Spinel of the Vesuv and of New-York
49	Dodecahedron, Octahedron and Trapezohedron. (Icositetrahedron) and Hexahedron: d o a n=110. 111. 100. 211: Cuprite of the Ural
50	Octahedron and Icositetrahedron: o m=111. 311: Spinel of the Vesuv. Magnetite from the Basalt of Pflasterkaute by Suhl and of Traversella
51	Dodecahedron and Octahedron: d o=100. 111: Magnetite of Traversella and of Normarken and at the Flourite with Herderite of Ehrenfriedersdorf
52	Dodecahedron and Trapezohedron: d n=110. 211: Ti-rich Andradite of Frascati by Rom, Hg- rich Silver
53	Dodecahedron and both Trapezohedron: d n x=110. 211. 233: Garnet of Alain Piemont
54	Dodecahedron, Trapezohedron (Icositetrahedron) and Hexoctahedron: d n s=110. 211. 321: Garnet of Arendal and Longbanshyttan in Schwedern
55	a m --go=100. 311. 924. 423. 320. 111: Provskite of the Pfitschthal in Tyrol, according to Hessenberg
56	Twinned crystal according to Hessenberg: d a n=110. 100. 211: Sodalite of the Vesv
57	Hexahedron and Tetrahedron: a o=111: Pharmacosiderite, Boracite
58	Hexahedron, Dodecahedron and both Tetrahedron: a d o=100. 110. 111: Boracite
59	Hexahedron, Dodecahedron and right Tetrahedron: a d o=100. 110. 111: Boracite
60	Hexahedron. Dodecahedron right and left Tetrahedron and left Pyramidaltetrahedron: a d o n=100. 011. 111. 211: Boracite
61	d o a n=110. 111. -1-1-1. 110.x 211. : Boracite of Lueneburg
62	o o a d=111. 111. 100. 110: Boracite of Lueneburg
63	Tetrahedron: o=x 111: Tetrahedrite or Tennantite, Helvite, Sphalerite
64	Triakistetrahedron: n=x 211: Eulytite, Tetrahedrite or Tennantite
65	Deltoiddodecahedron: n=x 122: Till now only observed in combination with other forms , for example at the Tetrahedrite or Tennantite
66	Hexakistetrahedron : s=x 321: Also only in combinations known in Tetrahedrite or Tennantite of Ilanz in Graubuenden
67	right and left Tetrahedron: 111. -1-1-1: Sphalerite, Tetrahedrite or Tennantite, Helvite the old locality
68	Tetrahedron and Hexahedron x: 111. 110: Boracite of Lueneburg
69	Tetrahedron and Dodecahedron: x d=111. 110: Tetrahedrite or Tennantite of Kapnik and of Dillenburg
70	right Tetrahedron and left Pyramidaltetrahedron: o n=111. 211: Tetrahedrite or Tennantite of Dillenburg and Kapnik
71	right Tetrahedron and right Pyramidaltetrahedron: o n - x 111. X 211: Tetrahedrite or Tennantite
72	right Tetrahedron, right Pyramidaltetrahedron and Dodecahedron: o n d=x 111. X 212. 110: Tetrahedrite or Tennantite
73	right Tetrahedron. Pyramidaltetrahedron, Dodecahedron and left Pyramidaltetrahedron: o n d=111. 211. 110: Tetrahedrite or Tennantite of Dillenburg
74	right Tetrahedron, Pyramidaltetrahedron. Dodecahedron, and left Tetrahedron and Pyramidaltetrahedron:
	o n d o' n' 111. 211. 110. -1-1-1.-2-1-1: Tetrahedrite or Tennantite of dillenburg
75	right Tetrahedron, Pyramidaltetrahedron, Dodecahedron, left Tetrahedron and Hexahedron: o n d o' a=111. 211. 110. -1-1-1. 100: Tetrahedrite or Tennantite of Kapnik
76	right Pyramidaltetrahedron, broken Pyramidaltetrahedron and Dodecahedron: n y d=211. 233. 110: Tetrahedrite or Tennantite of Dillenburg
77	Twinned crystal: o d n=111. 110. 211: Tetrahedrite or Tennantite of Dillenburg
78	Penetration twinneng: o=111 : Tetrahedrite or Tennantite of Kapnik

II. Quadratisches System. Zwei- und einaxiges Krystallsystem. Pyramidal-System.
79	a d s-z-i-e---100. 001. 101. 331. 103. 362. 321. 332. 302. 635. 338. 430: Calomel, of OberMoschel in Rheinbayern, according to Hessenberg
80	e x=101. 311.: Iron(meteorite) of Ilmenau
81	m s a e=110. 111. 100. 101: Cassiterite of the Bretagne etc.
82	a s=100. 111 :Cassiterite of Cornwall
83	100. 111. 311: Cassiterite of Cornwall
84	a m e s c=100. 110. 101. 111. 001: Cassiterite of Cornwall
85	m z s=110. 321. 111: Cassiterite of Cornwall
86	m z s e=110. 321. 111. 101: Cassiterite of Cornwall
87	Twinned crystal of Schlaggenwalde, Zinnwald etc.: m s=110. 111: Cassiterite
88	Eightlling crystal of Schlaggenwalde: s e m a=111. 110. 101. 100: Cassiterite
89	Twelvelling crystal of Schlaggenwald according to Hessenberg : a h s e=100. 210. 111. 101: Cassiterite
90	m a s e-110. 100. 210. 111. 101: Rutile of St. Yrieux etc.
91	a m h z-s e=100. 110. 210. 321. 221. 111. 101: Rutile from the Binnenthal, according to Hessenberg
92	Twinned crystal: a m c=100. 110. 001: Rutile of Pftsch in Tyrol etc.
93	Spitzes QuadratOctahedron: p=111: Anatase from the Alps
94	p c=111. 001: Anatase from the Alps
95	p c e=111. 001. 101: Anatase form the Alps
96	p c q=111. 001. 201: Anatase from the Alps
97	p s=111. 51 19: Anatase from the Alps
98	p'-c v q e s=111. 001. 117. 301. 51 19: Anatase of Itabira. Province Minas Geraes in Brasilien according to Hessenberg
99	c r e=1001. 111. 101: Nagyagite of Nagyag
100	r e m=111. 101. 110: Bornite or Chalcopyrite, (Chalcopyrite Miller) of Tavistock
101	p p' d s c=111. -1-1-1. 101. 201. 001.: Bornite or Chalcopyrite. (Chalcopyrite Miller) of Schlaggenwalde
102	p p' 2=111. -1-1-1. 201: Bornite or Chalcopyrite. (Chalcopyrite Miller) of Tavistock etc.
103	e s=111. 113: Hausmannite of Ilmenau in Thueringen and Ilfeld in the Harz
104	Stumpfes QuadratOctahedron: o=111: (Xenotime-(Y)) of Hitteroe in Norway
105	Dioctahedron: x=311: Zircon
106	m p=110. 111: Zircon of Grass-Lake in New-York and of North-Carolina
107	m u p=110. 331. 111: Zircon of Brewig and Miask
108	p a=111. 100: Zircon or Corundum or Grossular or Vesuvianite of Ceylon and Zircon of Miask
109	p m a=111. 110. 100: Zircon or Corundum or Grossular or Vesuvianite and Zircon of Ceylon and Miask. metamict Zircon of Hitteroe etc.
110	p a x=111. 100. 311: Zircon of Miask and of Fredrikswaerm
111	p a m x=111. 100. 110. 311: Zircon and metamict Zircon
112	p m x=111. 110. 311: Zircon of Frederikswaerm
113	p m u x=111. 110. 331. 311: Zircon of Frederikswaerm
114	p a m u x=111. 100. 110. 331. 311: white Zircon of the Pfitschthal in Tyrol according to Hessenberg
115	to the explanation of appearance the Octahedron of extraordinal setting (hemihedral form of Dioctahedron): e n x=101. 111. 311: Scheelite of Zinnwald in Boehmen
116	111. 210. 432: Stolzite Haidinger and Miller of Zinnwald
117	Octahedron and Prisms of extraordinal setting: n f=111. 320: Wulfenite in white crystals of Berggieshuebel (old locality)
118 u. 119	s y=113. 203: Wulfenite of Bleiberg
120	s c=113. 001: Wulfenite of Bleiberg
121	s u c a=113. 102. 001. 100: Wulfenite of Bleiberg
122	n e s y=111. 101. 113. 203: Wulfenite of Bleiberg
123	x a m u s=111. 100. 110. 210. 211: Phosgenite of Matlock
124	c a=001. 100: Uraninite, Torbernite Miller. of Johann Georgenstadt
125	c s a=001. 203. 100: Uraninite, Torbernite Miller of Schlaggenwalde and Redruth
126	m r c=110. 201. 001: Uraninite, Torbernite Miller of Redruth
127	a c=100. 001: Fluorapophyllite of Bergenhill New-Jersey
128	a c p=100. 001. 111: Fluorapophyllite of Faroe, Nord-Irland and Bergenhill in New-Jersey
129	a c p h=100. 111. 310: Fluorapophyllite of Bergenhill New-Jersey, acccording to full crystal of same size and of Poonah in Ostindien
130	a p r=100. 111. 210(with the achtseitigen Prisma): Fluorapophyllite of Faroe and Andreasberg
131	a r p c=100. 210. 111. 001: Fluorapophyllite of Faroe and Andreasberg
132	c a=001. 100: Gehlenite of the Monzoni in the Fassathal in Tyrol
133 u. 134	c m a=001. 110. 100: Akermanite or Gehlenite (Chrysocolla), of the Vesuv, Rom and Herchenerg in the Eifel.
135	c m h=001. 110. 210: Akermanite or Gehlenite of the Vesuv
136	m u a c=110. 111. 100. 001: Vesvianite of the Wiluifluss in Sibirien (Grossular)
137	m a u=110. 100. 111: Vesvianite of the Monzoni in Tyrol
138	m a f u=110. 100. 210. 111: Vesvianite of Achmatowsk in the Ural and Orawitza in the Bannat
139	m h u I c=110. 310. 111. 312. 001: Vesvianite of the Vesuv
140	m h a u s c=110. 310. 100. 111. 311. 001: Vesvianite of Eger in Norway
141	m a h u t b e y c=110. 100. 310. 111. 331. 311. 101. 112. 001: Vesvianite of Ala in Piemont
142	m a h u t z s v e c=110. 100. 310. 111. 331. 211. 311. 511. 101. 001: Vesvianite of the Vesuv
143	m a f h u n t z o s v I e c= 110. 100. 210. 310. 111. 221. 331. 211. 421. 311. 511. 312. 101. 001: Vesvianite of the Vesuv and Ala
144	a m h r-s e v t c=100. 110. 210. 311. 331. 311. 101. 313. 113. 001: Sarcolite of the Vesv according to Hessenberg
145	a c =100. 001: Scapolite, Wernerite.
146	m a c=110. 100. 001: Scapolite, Wernerite of Arendal
147	m a r=110. 100. 111: Scapolite, Wernerite of Bolton in Massachusets etc.
48	m a r c=110. 100. 111. 001: Scapolite, Wernerite of Pargas in Finnland etc.
149	m a f r z=110. 100. 310. 111. 311: Scapolite, Meionite of the Vesuv
150	a e n s=100. 101. 012. 013 : Edingtonite of Kilpatrik in Schottland
151	r a c=111. 100. 001: Mellite of Artern in Thueringen and Tula in Russland

III. Hexagonales. Drei und einaxiges. Rhombohedral System.
152	r o z a=100. 111. 211. O-1-1: Antimony of Andreasberg according to Hessenberg
153	s o r e=-111. 111. 100. 011: Bismuth of Johann Georgenstadt according to Hessenberg
154	Bourlling crystal according to Hessenberg: o r =111. 100 :Tetradymite of Schubkau in Ungarn
155	a x - =01-1, 120. 531: Nickeline, Nickeline or Gersdorffite of Sangerhausen and Riegelsdorf according to Hessenberg
156	a b r e=0-1-1. 2-1-1. 100. 001: Millerite, acicular Millerite, of Saarbueck
157	x b v z I o=120. 211. 15-3. 13-1. 231. 111: Greenockite of Bishoptown in Schottland
158	r=100: Cinnabar of Almaden, groundform
159 u. 160	r z u o=100. 522. 211. 111: Cinnabar of Almaden and Idria
161	b r x o=211. 100. 311. 111: Cinnabar of Almaden and Ober-Moschel
162	b z o=2-1-1. 522. 111: Cinnabar of Ober-Moschel
163	w=14-2: Corundum (Sapphire) of Ceylon
164	w r o=14-2. 100. 111: Corundum (Sapphire) and (Ruby) of Ceylon, Ural etc.
165	n=131: Corundum, (Ruby) of the Campo longo
166	n o=13-1. 111: Corundum, Sapphire and (Ruby) of the Campo long
167	r n o=100. 13-1. 111 : Corundum of Biella and Sapphire of the Campo longo also at the black Hematite of the Ural
168	x p o=01-1. 100. 111: Corundum of Thibet.
169	a n r o=01-1. 131. 100. 111: Corundum, (Ruby) of Pegu
170	r o=100. 111: black Hematite of Arendal and Philipstadt
171	r u=100. 211: black Hematite of the Dauphine and of Altenberg in Sachsen
172	r u n=100. 211. 13-1 : black Hematite of Elba
173	r u y n=100. 211. 233. 13-1: black Hematite of Elba
174	r u y i n=100. 211. 233. 51-1. 13-1: black Hematite of Elba
175	n o=13-1. 111: black Hematite of Altenberg in Sachsen and Reichenstein in Schlesien
176 u. 177	n b o=13-1. 2-1-1. 111: black Hematite of Altenberg and of Reichenstein
178	z o - 175. 111: black Hematite (black Hematite or Ilmenite) of the St. Gottardt
179	a n q b r o=01-1. 13-1. 231. 2-1-1. 100. 111: black Hematite of the Tavetschthal
180	a n r u s=011. 13-1. 100. 211. -111: black Hematite of Altenberg in Sachsen and Reichenstein in Schlesien
181	b r u o=2-1-1. 100. 211. 111.: black Hematite of the St. Gottardt
182	o=111: Ferrocolumbite, Ilmenite or Pseudorutile, Crichtonite of the Dauphine
183	r o η=100. 111. 1-2-2: Ferrocolumbite, Ilmenite or Pseudorutile of Miask and Krageroe
184	r o d s n=100. 111. 411. -111. 13-1: Ferrocolumbite, Ilmenite or Pseudorutile of Sanarum and Miask
185	r=100: Quartz of the Grube Seegen Gottes at the Stuempfel by Ober-Wiesenthal in Sachsen
186	bβ=2-1-1. 13-2-2 : Quartz of Poonah and Island
187	Hexagonal pyramid r: z=100. -122: Quartz of Lostwisthiel in Cornwall and of Pforzheim
188	b r z=2-1-1. 100. -122: Quartz of Hagen in Westphalen and a. O. Quartz + Hematite of S. Jago di Composella
189	b r z=2-1-1. 100. 122 : Quartz different from Fundorten
190	b γh z=2-1-1. 3-1-1. 433. -122 : Quartz of the Alps etc.
191	b r x s=2-1-1. 100. -122. 14-2: Quartz of Jaerischanu in Schlesien etc.
192. 193	b u r=2-1-1.814. 100: Quartz, Twinned crystal from the Alps
194	Twinned crystal: b s r=2-1-1. 14-2. 100: Quartz of Jaerischau
195	b r z s x=2-1-1.100. -122. 14-2. 4-1-2: Quartz, transparent Quartz of the Gotthard etc. with Rhobohedric and trapezohedric faces
196. 197	Twinned crystal: b s x γr=2-1-1.14-2. 4-1-2. 3-1-1. 100 : Quartz, transparent Quartz from the Alps
198	b r z I=2-1-1. 100. -122. 011: Quartz, transparent Quartz of New-York
199	b m r z h y e=2-1-1. 7-2-2. 100. -122. -433. 10-2-5. -452: Quartz, maintype of Schweizer transparent Quartz
200	b f γm r z s u e x - -=2-1-1. 8-3-3. 3-1-1. 7-2-2. 100. -122. 142. -452. 8-1-4. 4-1-2 - -: Quartz, dark-grey Al-rich Quartz of the Gotthard according to Hessenberg
201	a x o=01-1.120. 111 : Polybasite of Freiberg etc.
202	a e=01-1. 011: Pyrargyrite, Proustite or Pyrargyrite of Przibram
203	a e o=01-1. 011. 111: Pyrargyrite, Proustite or Pyrargyrite of Mexico
204	a r e=01-1. 100. 011 : Pyrargyrite, Proustite or Pyrargyrite of Andreasberg
205 u. 206	a r t e=01-1. 100. 310. 011: Pyrargyrite, Proustite or Pyrargyrite of Andreasberg
207	a r v t s e g b=01-1. 100. 201. 310. -111. 011. 71-2. 2-1-1: Pyrargyrite, Proustite or Pyrargyrite of Andreasberg
208	a r v s e=01-1. 100. 20-1. -111. 011 : Pyrargyrite, Proustite or Pyrargyrite of Joachimsthal in Boehmen
209	a t y=01-1. 310. 30-2: Pyrargyrite, Proustite or Pyrargyrite of Andreasberg
210	r v u=100. 20-1. 211: Pyrargyrite, Proustite or Pyrargyrite of Andreasberg
211	a b s e g t k v=01-1. 211. -111. 011. 71-2. 310. 111-4. 20-1 : Pyrargyrite, Proustite or Pyrargyrite of Andreasberg
212	- z o=51-3. 13-1. 111: Pyrargyrite, Proustite or Pyrargyrite of Freiberg
213	a - b e ,=01-1. 513. -111. 011. 3-1-1 : Pyrargyrite(Proustite), Proustite or Pyrargyrite of Freiberg
214	y e=30-2. 011: Pyrargyrite(Proustite), Proustite or Pyrargyrite of Joachimsthal
215	y t=30-2. 310: Pyrargyrite(Proustite), Proustite or Pyrargyrite of Joachimsthal
216	a s e v=01-1. -111. 011. 20-1: Pyrargyrite(Proustite), Proustite or Pyrargyrite of Freiberg
217	Bourlling crystal of Andreasberg: a e=01-1. 011: Pyrargyrite, Proustite or Pyrargyrite
218	a b z x p o=01-1. 211. 13-1. 120. 100.: Pyrrhotite of Kongsberg
219	- r - o=-755. 100. 144. 111: Brucite of Texas in Pensylvanien according to Dan and Hessenberg
220	Principal rhombohedron: r=100: Calcite
221	Principal rhombohedron, Twinning after plane of 1st. dull rombohedron: r=100: transparent Calcite of Island
222	e=011: Calcite of Freiberg etc.
223	h=-455: Calcite of Andreasberg etc.
224	h b=-455. 2-1-1: Calcite of Andreasberg etc.
225	f o=-111. 111 : Calcite of Kaden in Boehmen
226	r o=100. 111: Calcit) of Maxen
227	φ=-233 : Calcite of Marienberg in Sachsen
228	ψo=- 544. 111: Calcite of Iberg etc.
229	r e=100. 011 : Calcite of Andreasberg etc.
230	f e=-111. 011: Calcite of Andreasberg.
231	f m=-111. 3-1-: Calcite of Iberg and Andreasberg
232	f r=-111. 100 : Calcite of Maxen
233	f e o t=-111. 011. 111. 310 : Calcite of Andreasberg
234	r o n -m-=100. 111. -4-25. 5-1-3. 3-1-1. 61 1-27.: Calcite of Rossi New-York according to Hessenberg
235	r m z=100. 3-1-1. 15-1-9 : Calcite of Maxen by Dresden
236	σ n=50-1. 410: Calcite of Maxen by Dresden
237	b o=2-1-1. 11: Calcite(transparent Calcite), of Schneeberg, Kongsberg and Andreasberg
238	b e=2-1-1. 011: Calcite of Freiberg etc.
239	b o e=2-1-1. 111. 011 : Calcite of Andreasberg
240	e b=011. 2-1-1: Calcite of Freiberg, Przibram etc.
241	a r=0-1-1. 100 : Calcite of Andreasberg
242	a e=0-1-1. 011 : Calcite of Freiberg etc.
243	b r=2-1-1. 100.: Calcite of Bleiberg
244	b ψ=2-1-1. 233: (Calcite) of Bleiberg
245	b e a=2-1-1. 011. 01-1: Calcite of Freiberg and of Frammont
246	b f o=2-1-1. -111.111 : Calcite of Liskard in Cornwall
247	b o m a=2-1-1. 111. 3-1-1. 0-1-1: Calcite of Schneeberg and Kongsberg
248	a o m f=01-1. 111. 3 -1-1. 111: Calcite of Andreasberg
249	o a b m f=111. 01-1. 2-1-1. 3-1-1-. -111: Calcite of Andreasberg
250	b v e c=2-1-1. 20-1. 011. 710 : Calcite of Derbyshire, Muensterthal in Baden and of Traversella
251	a b v t m=01-1. 2-1-1. 20-1. 310. 3-1-1: Calcite of Kongsberg
252	b v t εo=2-1-1. 20-1. 310. -122. 9. 15: Calcite of Arendal on Botryolith
253	c b o=40-3. 2-1-1. 111: Calcite of Andreasberg
254	b v t=2-1-1. 20-1. 310 : Calcite of Iberg in the Harz
255	b v t e=3-1-1. 20-1. 310. 011: Calcite of Derfbyshire
256	b v e=2-1-1. 21-1. 011 : Calcite of Andreasberg
257	Twinned crystal: b v e=2-1-1. 20-1. 011 : Calcite of Andreasberg
258	m=3-1-1: Calcite of Dipenlienchen by Stolberg
259	m o=3-1-1. 111: Calcite of Kupferberg in Schlesien
260	m -=3-1-1. - : Calcite of Andreasberg etc.
261	m v=3-1-1. 20-1: Calcite of Schemnitz
262	m v f=3-1-1. 20-1. -111 : Calcite of Andreasberg
263	m v f e=3-1-1. 20-1. -111. 011: Calcite of Andreasberg etc.
264	m r o=3-1-1. 100. 111: Calcite, Dolomite of Hall in Tyrol
265	m y r o=3-1-1. 30-2. 100. 111 : Calcite of Andreasberg
266	e r=011. 100: Calcite of Freiberg and Cumberland etc.
267	Zwilllingskrystall: o r=111. 100: Calcite (tabular Calcite) of Kongsberg
268	o v f=111. 20-1. -111: Calcite of Andreasberg and Cumberland
269	9-4-4. 011: Calcite of Braennsdorf in Sachsen
270	m e=3-1-1. 011: Calcite of Reichenstein in Schlesien
271	b v=2-1-1. 20-1: Calcite of the Dauphine, symmetric form, and Beryl of the Ural
272	v b=20-1. 2-1-1: Calcite of Andreasberg and Derbyshire
273	b v f=2-1-1. 20-1. -111: Calcite of Derbyshire
274	p v f t e=2-1-1. 20-1. 111 310. 011: Calcite of Derbyshire and of Andreasberg
275	b v=2-1-1. 20-1: Calcite of Derbyshire and Alston in Cumberland
276	v b=20-1. 2-1-1: Calcite of Derbyshire
277	Skalenoeder: v=20-1: Calcite
278	x v f r=21-2. 20-1. -111. 100 : (Calcite) of Derbyshire
279	b x v f r=2-1-1. 212. 201. 111. 100 : Calcite of Derbyshire
280	v r=20-1. 100: Calcite of Derbyshire.
281	v r=20-1. 100: Calcite of Derbyshire
282	Calcite of Iberg in the Harz
283	y=30-2: Calcite, Scalenohedron of Siebenlehn in Sachsen
284	μ m v=50-4. 3-1-1. 20-1: Calcite of Andreasberg
285	b m v f r=2-1-1. 3-1-1. 20-1. 111. 100: Calcite of Andreasberg according to a crystal in the Clausthaler collection
286	a b s r=01-1. 2-1-1. 1-11. 100: Willemite of the Altenberg by Aachen
287	a r=01-1. 100: Phenakite of Frammont and Katherinenburg
288	a r=01-1. 100: Phenakite of Frammont, Intersepting trilling
289	a p r=011. 021. 100: Phenakite of Frammont, Intersepting trilling
290	Dihexagonal pyramid: v v'=041. 232: Beryl. To the explanation of different sort of hemihedry
291	o a b=111. 01-1. 2-1-1 : Beryl of Bodenmais, Adun Tschilon in Sibirien and green gem Beryl of Columbien
292	o a r r'=111. 01-1. 100. -122: Beryl of Mursinsk in the Ural and Haddam Connecticut
293	o a r=111. 01-1. 100 : Beryl of Mursinsk
294	o a p r=111. 01-1. 120. 100: white and pink Beryl of St. Pietro on Elba and green gem Beryl of Muzo in Columbien
295	o a u r=111. 01-1. 13-1. 100: Beryl, green gem Beryl of Muzo
296	o a r p u=111. 0-11. 100. 120. 13-1: white Beryl of St. Pietro on Elba
297	a u p r o=01-1. 13-1. 120. 100. 111 : Beryl of Adun Tschilon
298	a u r=01-1. 13-1. 100: Beryl of Haddam Connecticut and green gem Beryl of Muzo Columbien
299	o a=111. 011: Apatite of the Pfitschthal in Tyrol etc.
300	a o=01-1. 111 :Apatite with prismatic and endface of Schlaggenwalde and Sterzing in Tyrol, further at the Calcite, Pyromorphite, Cleavageform at the Zincite etc
301	a x o=01-1. 120. 111: Apatite of Snarum in Norway
302	a i o=01-1. 231. 111: Apatite of Ehrenfriedersdorf etc.
303	a b i o=01-1. 2-1-1. 231. 111 : Apatite of Ehrenfriedersdorf etc.
304	a x=01-1. 120: Apatite of Snarum and pale-green Fluorapatite of Murcia
305	a b x=01-1. 2-1-1. 120: Apatite, pale-green Fluorapatite of Murcia
306	a s o=01-1. -111. 111 : Apatite of Ehrenfriedersdorf
307	a o r I=01-1. 111. 100. 231: Apatite of Ehrenfriedersdorf
308	a o z x i r u=01-1. 111. 131. 120. 231. 100. 041: Apatite of the Gotthard
309	a o x z l r u=01-1. 111, 130. 13-1. 231. 100. 041 : Apatite of the Gotthard
310	a r u z=01-1. 100. 041. 13-1: Apatite of the Pfitschthal in Tyrol according to Hessenberg
311	a r=01-1. 100 : Dioptase from the Kirgisensteppe
312	r b v z s o=100. 2-1-1. 5-2-2. 122. -111. 111: Susannite of Leadhill
313	a b o x=01-1. 2-1-1. 111. 120 : Nepheline of the Vesuv
314	a b e=01-1. 011. 2-1-1: Tourmaline of Bodenmais
315	a h b s r=01-1. 3-1-2. 2-1-1. -111. 100: Tourmaline of Kaeringsbricka in Schweden
316	a b r t=01-1. 2-1-1. 100. 02-1: Tourmaline pink gem Elbaite of Mursinsk
317	a b r=01-1. 2-1-1. 100 : Tourmaline of Ceylon and of Mursinsk
318	a b r e o=01-1. 2-1--1. 100. 011. 111: Tourmaline of Bodenmais and Rosenbach in Schlesien
319	a b o r e=01-1. 2-1-1. 111. 100. 011: Tourmaline, pink gem Elbaite of Mursinsk
320	b s o r=2-1-1. -111. 111. 100: green Tourmaline of Minas in Brasilien
321	b a r s u=2-1-1. 01-1. 100. 1-11. 03-2 : green Tourmaline of Minas Geraes
322	a b r e=01-1. 2-1-1. 100. 011 : green Tourmaline of the Campo longo
323	Hemimorphic crystal: b a r s=2-1-1. 01-1. 100. -111: Tourmaline of Ceylon and of Alabaschka by Mursinsk
324	b a r s e=2-1-1.01-1. 100. -111. 011 : brown Tourmaline of Windishkappel in Kaernthen
325	b a r s e=2-1-1. 01-1. 100. 111. 011: green Tourmaline of the Campo longo
326	b a r o e=2-1-1. 01-1. 100. 111. 011 : Tourmaline of Arendal
327	a b h r e s=01-1. 2-1-1. 3-1-2. 100. 011. 111: Tourmaline of Sonnenberg in the Harz etc.
328	a b s r=01-1. 2-1-1. -111. 100 : Tourmaline of Snarum in Norway
329	a b t r s=01-1. 2-1-1. 02-1. 100. 1-11 : Tourmaline, pink gem Elbaite of the Ural
330	b a w s r=2-1-1. 01-1. -433. -111. 100 : Tourmaline of Modum in Norway
331	a b s r o e=01-1. 2-1-1. -111. 100. 111. 011: Tourmaline of Haddam in Connecticut
332	b a o r e x t=2-1-1. 01-1. 111. 100. 011. 211. 02-1: Tourmaline of Orijerfi in Finnland
333	a b r e s y t=01-1. 2-1-1. 100. 011. -111. 3-1-1. 021: Tourmaline of Orijerfi in Finnland
334	b r=2-1-1. 100: Tourmaline of Modum in Norway
335	b r s=2-1-1. 100. -111 : Tourmaline of Modum
336	o r=111. 100: Chalcophyllite of St. Day in Cornwall
337	r e s=100. 011. -111 : Chabazite of Oberstein
338	Penetration twinning: t e s=021. 011. -111: Chabazite, Chabazite-Ca of Leipa in Boehmen.
339	Penetration twinning: t e s r=021. 011. -111. 100: Chabazite, Chabazite-Ca of Leipa in Boehmen
340	o r=111. 100: Biotite of Monroe according to a crystal of same size
341	010. 041. 110. -101. 130. -132. 401. 111: Clinochlore, Fe-rich Clinochlore of the Pfitschthal in Tyrol according to Hessenberg.
342	o z e s b a t=111. 211. 011. -111. 2-1-1. 01-1. 02-1: Eudialyte of Groenland.
343	r o=100. 111 : Nepheline according to Dauber of Montabaur in Nassan and according to a very beautiful crystal in my collection of the Graul in Erzgebirge

IV. Rhombisches. System. Ein und einaxiges Krystallsystem. Prismatic-System.
344	(Rhombic) Octahedron of two parts : n a=101. 011
344a	m a p y z c=110. 100. 201. 111. 112. 001: Dyscrasite of Andreasberg
345	Rhombic Octahedron: p=111. : Sulfur of Conil and of the Vesuv. Eifache Rhomboctahedron with other angles at the Fluellite and Thenardite
346	p b=111. 010 : Sulfur of Conil
347	p c=111. 001.: Sulfur of Czarkow in Polen
348	p m=111. 110: Sulfur of Conil
349	p n=111. 101: Sulfur of Conil
350	p s=111. 113: Sulfur of Girgenti
351	p s r=111. 113. 001: Sulfur of Girgenti
352	p n s=111. 101. 113: Sulfur of Conil and Girgenti
353	p n s c=111. 101. 113. 001 : Sulfur of Czarkow in Polen
354	c z e a m p d=001. 113. 203. 100. 110. 111. 201 : Calcocite, Calcocite of Redruth Cornwall
355	twinned crystal:c z e m a=001. 113. 203. 110. 100: Calcocite, Calcocite of Redruth
356	m p=110. 111 M: Stibunite of Wolfsberg in the Harz
357	m p a=110. 111. 100: Stibunite of Wolfsberg
358	m b a s=110. 010. 100. 113: Stibunite of Felsoebanya
359	m a p s=110. 100. 111. 113: Stibunite of Felsoebanya
360	m a p s v---=110. 100. 111. 113. 211. 311. 153. 213: Stibunite of Felsoebanya according to Hessenberg
361	m b e a c=110. 010. 310. 100. 001: Wismuthglanz of St. Austle in Cornwall
362	b m a n-=010. 110. 100. 011. 013: (Emplectite) of the verlassenen Grube Tannebaum by Schwarzenberg according to Dauber
363	u a m o p v=210. 100. 110. 011. 111. 211: Orpiment of Tajowa in Ungarn
364	m o e=110. 011. 101: Loellingite, Arsenopyrite of Reichenstein in Schlesien
365	m s e l c=110. 111. 011. 101. 001: Marcasite, Pyrite or Marcasite pseudomorph after Pyrrhotite of Memmendorf by Freiberg
366	Trilling skrystall: m l v c=110. 101. 103. 001: Marcasite, Marcasite of Libschitz in Boehmen and of Tavistock
367	Twinned crystal: l m=101. 110 : Marcasite of Libschitz and Clausthal
368	m r=110. 104: Arsenopyrite of Feiberg and Tavistock
369	Twinned crystal: r m=104. 110: Arsenopyrite of Feriberg
370	m l s=110. 101. 102: Arsenopyrite of Orawiza in the Bannat
371	m e l s=110. 011. 101. 102: Arsenopyrite of Hohenstein in Sachsen
372	l t s b m e-p-=101. 301. 102. 110. 011. 122. 111. 331. 231: Co-rich Arsenopyrite or Glaucodot of Skutterud in Norway
373	m r a b e p=110. 210. 100. 101. 010. 111: Cotunnite of the Vesuv
374	b s r a o I=010. 210. 310. 100. 111. 101: Chrysoberyl of Brasilien
375	b a s I o-x=010. 100. 210. 101. 111. 311. 011: Chrysoberyl of Brasilien and Marschendorf in Maehren
376	Twinned crystal: b s a o I=010. 210. 100. 111. 101 :Chrysoberyl of Greenfield New-York
377	Penetration trilling: b o I a n=010. 111. 11. 100. 211: Chrysoberyl, green gem Cr-rich Chrysoberyl of Katherinenburg in the Ural and of Haddam
378	a r m x=100. 101. 110. 211: Valentinite of Braeunsdorf in Sachsen and Przibram
379	b m e t o=010. 110. 212. 201. 001: Brookite of Tremadoc, Nord-Wales
380	b m I e-=010. 110. 432. 212. 405. 14 5 18: : Brookite of Tremaoc according to Hessenberg
381	b m t e c y=010. 110. 201. 212. 001. 14 5 18. 014: Brookite of the Maderaner Thal in the Canton Uri
382	b m a c d=010. 110. 100. 001. 101: Pyrolusite of Platten in Boehmen
383	Twinned crystal according to Hessenberg: m c p z a d e=110. 001. 111. 112. 100. 201. 101 : S tephanite of Andreasberg and Freiberg
384	c n a b m y o u x=001. 101. 100. 010. 110. 111. 011. 112. 012 : Sillimanite of Cornwall and Neudorf in the Harz old locality
385	Twinned crystal according to Hessenberg: c n o x u=001. 101. 011. 012. 112: Sillimanite of Neudorf in the Harz
386	Trilling skrystall: a m u s=100. 110. 112: Zinkenite of Wolfsberg in the Harz
387	m b a n y u o x=110. 010. 100. 101. 111. 112. 011. 012. 021 : Enargite of Peru according to Dauber
388	c s v a e d=001. 111. 221. 110. 100. 201. 211: Sternbergite of Joachimsthal
389	d a m e p s u=120. 100. 110. 101. 111. 122. 011: Goethite of Lostwisthiel in Cornwall
390	k m l d s u p e v=320. 110. 210. 120. 122. 011. 111. 101. 221 : Manganite of Ilfeld in the Harz
391	Twinned crystal of Ilfeld in the Harz: d-m l a g v n-=120. 130. 110. 210. 100. 133. 221. 211: Manganite
392	m a k p s n=110. 100. 101. 111. 211. 212 : Aragonite of Cziczow in Boehmen
393. 394. 395	m c=110. 001: Aragonite of Dax and Molina in Aragon 3 Twinned crystals with various intergrowth
396	Twinned crystal: a m k=100. 110. 101: Aragonite of Cziczow in Boehmen
397	Penetrating trilling: i k c=201. 101. 001 : Witherite of Hexham, Northumberland
398	mγ p a q I=110. 331. 111. 100. 601. 201: Strontinanite of Clausthal
399	r m a=111. 110. 100: Thenardite of Iquique Peru
400	p I=111. 201: Cerussite of Bleiberg in Kaernthen
401	m a p I c =110. 100. 111. 201. 001 : Cerussite of Bleistadt in Boehmen
402	m a p I=110. 100. 111. 201: Cerussite of Nertschinsk
403	a k I m f r u=100. 101. 201. 110. 350. 310. 011: Cerussite of Rezbanya
404	a k c u b m f r=100. 101. 001. 011. 010. 110 350. 310 : Cerussite of Badenweiler
405	p c a z v I=110. 111. 001. 100. 401. 301. 201: Cerussite of Mies in Boehmen
406	a I x y=110. 100. 201. 102. 012 : Cerussite of Mies in Boehmen
407	a x y=110. 100. 102. 012: Cerussite of Mies in Boehmen
408	Twinned crystal: m a x y=110. 100. 102. 012 : Cerussite of Braubach
409	Penetrating-Trilling crystal: m a p=110. 100. 111 : Cerussite of Przibram
410	b m a d p I c=010. 110. 100. 111. 011. 201. 001 Miller mit Naumanns Grundform: b n a d e k c=010. 120. 100. 011. 122. 101. 001 Miller mit Millers Grundform: Chrysolite of the Vesuv and Neutitschein in Maehren
411	b l a I-p d c=101. 210. 100. 201. 211. 111. 011. 110 Miller mit Naumanns Grundform. d s a k f d c=010. 110. 100. 101. 111. 011. 100 Miller mit Millers Grundform.: Chrysolite of the Orient
412	a r n s u b I p d e c=100. 130. 120. 110. 340. 010. 201. 111. 011. 122. 100 Miller mit Naumanns Grundform: Chrysolite, Forsterite of the Vesv according to Hessenberg
413	Type I, Twinned crystal according to Hessenberg: c-k-----=001. 102. 101. 104. 013. 128. 126. 124: Humite of the Vesuv
414	Type II, Twinned crystal according to Hessenberg: f-k-u c=111. 125. 101. 305. 103. 001: Humite of the Vesuv
415	Type III, Twinned crystal according to Hessenberg: c k n d b z e v r u x w a h o y s f t l m g p I-- q--=001. 023. 011. 021. 010. 101. 122. -105. 105. 103. -401. 401. 100. 112. -223. 223. -111. 111. -221. 221. 110. 423. 113. -421.-- 623. - 323: Humite of the Vesuv
416	m a c r=110. 100. 001. 011: Staurolite of the Monte Campione in the Tessin etc.
417	m a c z x=110. 100. 001. 322. 302.: Staurolith von New-Hampshire
418	perpendicular Penetration twinning: m c=110. 001: Staurolite of Quimper in the Bretagne
419	dolique Penetration twinning: m a c=110. 100. 001: Staurolite of Quimper in the Bretagne
420	m k c r s=110. 120. 001. 011. 101: Andalusite of Lisenz in Tyrol
421	m c=110. 001: Topaz of Sibirien also Cleavageform
422	m l o=110. 210. 112: Topaz of Capao in Brasilien
423	l m n o=210. 110. 101. 112: Topaz of Adun Tschilon in Sibirien
424	l m n o c=210. 110. 101. 112. 001: Topaz of the Schneckenstein in Sachsen
425	m l v o n c=110. 210. 410. 112. 101. 001 : Topaz of the Schneckenstein in Sachsen
426	m l y n o s c=110. 210. 201. 101. 112. 113. 001: Topaz of Mursinsk in the Ural
427	m l n x s o c=110. 210. 101. 213. 113. 112. 001: Topaz of the Urulga in Ostesibirien and of Capao in Brasilien
428	m l o n x=110. 210. 112. 101. 213: Topaz of Capao in Brasilien
429	m l k i n o f=110. 210. 111. 011. 101. 112. 114: Topaz of the Ilmengebirge
430	b m a c=010. 011. 100. 001.: Anhydrite of Berchtesgaden
431. 432	b a m c n o s=010. 001. 011. 100. 311. 211. 111. 101 : Anhydrite of Alten Aussee in Steyermark
433	c m=001. 110: Barite, Cleavageform
434	c m d=001. 110. 012 : Barite of Felsoebanya
435	c m λ d=001. 110. 120. 011 : Barite of Iberg in the Harz and of Felsoebanya etc.
436	c m b o=001. 110. 010. 101: Barite of Iberg and Clausthal etc.
437	c m a o d=001. 110. 100. 101. 012: Barite of Marienberg in Sachsen
438	c m z=001. 110. 111: Barite of Schemnitz
439	c b m=001. 010. 110: Barite of Giftberg in Boehmen
440	c a m=001. 100. 110: Barite of Clausthal etc.
441	c d o=001. 012. 101: Barite of Dufton in Westmoreland and of Freiberg
442	c d o m=001. 012. 101. 110 : Barite of Dufton, Tavistock and Freiberg
443	c b d o m=001. 010. 012. 101. 110: Barite of Dufton
444	c b d o m λ =001. 010. 012. 101. 110. 120.: Barite of Marienberg in Sachsen
445	o d=101. 012: Barite of Przibram and of Giftberg in Boehmen
446	c l d m=001. 014. 012. 110: Barite of of Auvergne
447	c l d m a o=001. 014. 012. 110. 100. 101 : Barite of Giftberg and Przibram in Boehmen
448	c d l m o=001. 012. 014. 110. 101: Barite of Glashuette in Sachsen
449	c d b m a y=001. 012. 010. 110. 100. 212: Barite of Przibram in Boehmen
450	c l d m a=001. 014. 012. 110. 100 : Barite of Marienberg etc.
451	c o a m z d b=001. 101. 100. 110. 111. 012. 010 : Barite of Przibram in Boehmen
452	o c m d=101. 001. 110. 012: Celestine of Girgenti
453	o c b z d=101. 001. 010. 111. 012: Celestine of Girgent
454	o c m z d=101. 001. 110. 111. 012 : Celestine of Girgenti and of Pschow in Ober-Schlesien
455	o c-z m l d=101. 001.-. 111. 110. 012. 012: Celestine of Herrengrund in Ungarn according to Hessenberg
456	d m c=012. 110. 001: Anglesite of Muessen etc. oriented according to Miller
457	Anglesite of Schapppach in the Schwarzwald according toHessnberg
458	m b t u o s=110. 010. 012. 101. 111. 211: Ferberite of Zinnwald
459	m l b t t' u s o=110. 120. 010. 012. 01-2. 101. 211. 111: Ferberite of Zinnwald
460	b t d e l u s e=010. 012. 013. 011. 310. 313. 623. 211. : Columbite, Ferrocolumbite from the Kryolith of Groenland (Groundform according to Miller)
461	b c a u h s m g l=010. 001. 100. 313. 201. 623. 110. 120. 310: Columbite, Ferrocolumbite of Zwiesel in Bayern
462	b a l m g u o n c d=010. 100. 310. 110. 120. 201. 313. 111. 613. 001. 013 : Columbite, Ferrocolumbite of Haddam Connecticut
463	v m a h u c=010. 110. 100. 21. 313. 001: Columbite, Ferrocolumbite of Haddam and of Zwiesel
464	Twinned crystal b m a h c=010. 110. 100. 201. 001: Columbite, Ferrocolumbite of Zwiesel in Bayern
465	m a I e=110. 100. 310. 111 : Ferrocolumbite of Mursinsk in the Ural
466	a b m x s r=100. 010. 110 021. 111. 311: Polycrase-(Y) of Hitteroe in Norway
467	m a r v o=110. 100. 210. 201. 111: Aeschynite-(Ce) of Miask in the Ural
468	g m a u c e=120.110. 100. 101. 001. 011: Triphylite of Zwisel in Bayern and of Norwich in Massaschusets according to Dana
469	a b n m g h k d p e I c=100. 010. 210. 110. 120. 130. 101. 301. 321. 121. 341. 001: Woehlerite according to Dauber of Brewig
470	a x s m e r=100. 410. 210. 110. 101. 111 : Atacamite of Los Remolinos Chili
471	m b a d r s=110. 010. 100. 210. 111. 112 : Scorodite of the Graul in the Erzgebirge
472	Hemimorphic crystal: a b c m l v e w s=100. 010. 001. 110. 101. 301. 011. 031. 211 : Smithsonite, Hemimorphite of Altenberg by Aachen
473	Hemimorphic crystal: a b m g k c h q r w e x n s=100. 010. 110. 310. 510. 001. 102. 501. 701 031. 011. 411. 341. 211: Smithsonite, Hemimorphite of Altenberg by Aachen
474	Hemimorphic crystal: a b m k c l r w e x n s=100. 010. 110. 510. 001. 101. 701. 031. 011. 411. 341. 211: Smithsonite, Hemimorphite of Altenberg
475	Hemimorphic crystal: a b m c l v w e z s x s=100. 010. 110. 001. 101. 301. 031. 011. 121. 211. 411. 211: Smithsonite, Hemimorphite of Altenberg bei Aachen
476	a m c h l e w z=100. 110. 001. 102. 101. 011. 031. 121 : Smithsonite, Hemimorphite of Bleiberg in Kaernthen
477	m z=110. 111: Epsomite
478	m z s t=110. 111. 121. 211: Epsomite
479	c v x m f e a s d=001. 112. 111. 110. 101. 201. 100. 414. 410: Leadhillite of Leadhill in Schottland
480	b m s t a p=010. 110. 210. 410. 100. 111 : Zirconolite of Fredrikswaerm in Norway
481	m a e s=110. 100. 101. 111: Libethenite of Libethen in Ungarn
482	a m b e v=100. 110. 010. 101.011: Olivenite of St. Day in Cornwall
483	s m o r=210. 110. 111. 011 : Ilvaite of Rio on Elba
484	s m c r o e=210. 110. 001. 011. 111. 201: Ilvaite of Rio on Elba
485	m d a b c n s r o=110. 310. 100. 010. 001. 101. 112. 111. 311: Cordierite, Cordierite of Bodenmais in Bayern
486	a r m e v=100. 210. 110. 101. 021: Antlerite of Roughton Gill in Cumberland and of Rezbanya
487	a b m c x s r e=101. 010. 110. 001. 021. 223. 111. 101 : Caledonite of Leadhill
488	m a c p n t s=110. 100. 001. 111. 221. 302. 601 : Herderite of Ehrenfriedersdorf in Sachsen
489	n a c s r=201. 100. 001. 111. 223: Childrenite of Tavistock in Devonshire
490	o m=110. 101: Liroconite, Liroconite of St. Day in Cornwall according to Descloizeaux
491	m s l a c n=110. 320. 210. 100. 001. 101: Euchroite of Libethen in Ungarn
492	m c=110. 001: Prehnite of Ratschinsk in Tyrol
493	m a c=110. 100. 001: Prehnite of Konsberg
494	c m o=001. 110. 401: Prehnite of the Dauphine
495	m a o=110. 100. 111 : Mesotype of the Auvergne and of Boehmen
496	b a p=010. 100. 111: Harmotome of Oberstein and Kongsberg
497	Penetration twinneng: a b p=100. 010. 111 : Harmotome of Andreasberg etc.
498	Twinned crystal : b a p=010. 100. 111: Harmotome of Oberstein etc.
499	Penetration twinning: b p=010. 111: Harmotome of Kongsberg
500	m t s u=110. 011. 101. 211: Epistilbite of Island
501	a b r=100. 010. 111 : Stilbite, Heulandite of Island
502	a b r c=100. 010. 111. 001 : Stilbite, Heulandite of Island
503	b a r t=010. 100. 111. 011: Stilbite, Heulandite of Island etc.
504	r-a-c=111. 221. 100. 403. 001: Glimmer of the Vesuv
505	c r m s x e-a=001. 111. 221. 112. 311. 403. 401. 100. 021 : Glimmer of the Vesuv according to Hessenberg
506	Hemimorphic crystal: s n b a=101. 120. 010. 100: Struvite of Hamburg

Monoklinoedrisches System. Zwei - und eingliedriges Krystallsystem. Oblique System.
507	Monoclinic Octahedron of Glauberite: e e'=111. -111
508	m a l b c e r n=110. 100. 210. 010. 001. 111. 011. 111. 011. 212 : Realgar of Nagyag in Siebenbuergen. Groundform according to Naumann
509	m l-a z x c r n-d u f=110. 210. 610. 100. 401. 201. 001. 011. 212. 211. 411. 421. -212 : Realgar of Nagyag according to Hessenberg. Groundform according to Naumann
510	b m l x r n f x=010. 110. 210. 201. 011. 211. -212. 201: Realger fom the Binnenthal in the Ober-Wallis. Groundform according to Naumann
511	m n a b c s r d e I f=110. 210. 100. 010. 001. 112. 111. 011. 101. 312. 201 : Sylvanite of Offenbanya in siebenbuergen
512	a m k x w v u c=100. 110. 120. 101. 021. 032. 012. 001 : Freieslebenite, Schilfglaserz of Freiberg
513	a c o b d f=100. 001. -101. 010. 311. -322: Miargyrite of Braeunsdorf in Sachsen. Groundform according to Naumann
514	b r m a t u=010. 121. 110. 100. 011. 012: Pyrostilpnite of Andreasberg
515	m h s p=110. 101. 111. -101 : Alstonite of Aston in the Cumberland
516	a m n l x v e u s r w=100. 110. 120. 010. 10-1. -111. 011. 021. 121. 111. 101: Monazite-(Ce) or Monazite-(La) of Miask in the Ural
517	c r s t a u v m f n g z e x=001. 205. 203. 201. 100. 201. -203. 110. 221. 111. -221. 023. 011. 021:
	Wollastonite of the Vesuv according to Brooke
518	m a p=110. 100. 10-1 : Augite, Pyroxene of Arendal
519	m a b s=110. 100. 010. -111 : (Augite), Pyroxene of schima in Boehmen etc.
520	Twinned crystal: m a b s=110. 100. 010. -111: Augite, Pyroxen of Schima etc.
521	m a b s n=110. 100. 010. -111. -102 : Augite, Pyroxen of the Fassathal
522	m a b s o=100. 110. 010. -111. -221: Augite, Pyroxene of the Vesuv
523	m b l f c s o z=110. 010. 130. 310. 001. -111. -221. 021: Augite, Pyroxene of the Vesuv according to Hessenberg
524	m a b c u v z s o p-=100. 110. 010. 001. 111. 221. 021. -111. -221. -101. -312.: Augite, Pyroxene of the Vesuv according to Hessenberg
525	m c p z o γノ=110. 001. -101. 021. -221. -331: Augite, Pyroxene , Fassaite of the Fassathal
526	a b f m u c p=100. 010. 310. 110. 111. 001. -101 : Augite, Diopside of the Mussa-Alp in Piemont acoording to a crystal in my collection
527	a b m f - s - p o γノ c-u e z=100. 010. 110 310. 510. -111. -313. -1-1. -221. -331. 001. -553. 111. 011. 021: Augite, Diopside of the Mussa-Alp in Piemont according to Hessenberg
528	Twinned crystal: m a o z u c s p=110. 100. -221. 021. 111. 001. -111. -101: Augite, Fassaite of Travers in Piemont
529	a m o - s=100. 110. -661. -111: Aegirine of Eker in Norway
530	m a o z s m=110. 100. -661. 261. -111. -311.: Aegirine of Eker in Norway
531	Twinned crystal: r a s x m o=110. 100. -111. -101. -311. -661: Aegirine of Eker in Norway
532	a b m v t z=100. 010. 111. 221. 021. 111: Spodumene of Norwich in Massachusets according to a crystal in my collection
533	m b c r=110. 010. 001. -111: Hornblende, Amphibole of Schima in Boehmen
534	m a r c z=110. 100. -111. 001. 021 : Hornblende, Amphibole of the Vesuv
535	m b z c r I=110. 010. 021. 001. -111. -131: Hornblende, Amphibole of the Vesuv and of the Laacher-See
536	a m e b c r k t o' I z v=100. 110. 130. 010. 001. -111. 111. -201. -221. -131. 021. 131 : Hornblende, Amphibole of Warwick Orange-city New-York
537	Twinned crystal: m b r c=011. 010. -111. 001 : Hornblende, Amphibole of Pargas in Finnland
538	m b r c z i=110. 010. -111. 001. 021. -131 : Hornblende, Amphibole, Twinned crystal of Pargas and Schima
539	Twinned crystal of Wolfsberg in Boehmen: m b r c=110. 010. -111. 001: Hornblende, Amphibole
540	s k f r n o=110. 210. 131. -311. -111. -121: Euclase of Capao in Brasilien
541	s k b r n d u o f e I=110. 210. 010. -311. -111. 111. -321. -121. 131. 331. -341: Euclase of Capao in Brasilien
542	m a c o z=110. 100. 001. 112. 111 : Borax of Thibet
543	m n c=110. 11-1. 001: Glauberite of Iquique Peru. confer No. 506.
544	a m v b c r n y l e d u=100. 110. 120. 010. 001. 101. 111. 211. 201. 011. -111. -201: Mirabilite, Mirabilite of Berchtesgaden
545	m t=110. 111 : Crocoite of Beresowsk in Sibirien
546	m t v=110. 111. -111: Crocoite of Beresowsk in Sibirien
547	m t l=110. 111. -401: Crocoite of Beresowsk in Sibirien
548	m d a b y z w c k x l=110. 210. 100. 010. 021. 011. 012. 001. -101. -301. 401: Crocoite according to Hessenberg
549	m - f c k x u w z y=110. 310. 120. 001. -101. -301. 0211. 012. 011. 021 : Crocoite of Beresowsk according to Hesssenberg
550	a h m g c w x z n I e r s t=100. 320. 110. 120. 001. 101. 212. 111. 112. 127. 021. 011. -111. 012:
	Wagnerite of Werfen in Salzburg
551	m a b w v=110. 100. 010. 101. 111 : Vivianite of Bodenmais.
552	m b y a w v=110. 010. 310. 100. 101. 111: Vivianite of St. Agnes in Cornwall
553	t m=-101. 110 : Gypsum of Lueneberg
554	b m l=010. 110. 111: Gypsum of Cincinati Ohio, Saatz in Boehmen etc.
555	m b l n=110. 010. 111. -111: Gypsum of the Salzkammergut etc.
556	twinned crystal according to a=100: m b l=110. 010. 111: Gypsum of Berchtesgaden etc.
557	m b c r v o - t=110. 010. 001. 111. 101. 011. 121. -101 : Melanterite of Bodenmais
558	Lanarkite of Leadhill according to Greg
559	twinned crystal: m b c=110. 010. 00: Malachite of Rheinbreitbach
560	m c h=110. 001. -221: Azurite of Chessy
561	m a c h=110. 100. 001. -221 : Azurite of Chessy
562	m a c hζ l f p=110. 100. 001. -221. -101. 023. 011. 021: Azurite of Chessy
563	m c h l=110. 001. -221. 023 : Azurite of Chessy
564	m a c h ξζΦ=110. 100. 001. -221. -102. -101. -201 Azurite of Chessy
565	m a g cζh x o l f p e d=110. 100. 210. 001. -101. -221. 111. 101. 023. 011. 021. 245. 243: Azurite of Chessy
566	m b a c k n ζp h - -=110. 010. 100. 001. 221. 102. -101. 021. -221. 621. -102: Azurite of Chessy
567	a c ζh d o v=100. 001. -101. -221. 243. 101. 201 : Azurite of Chessy
568	m b a c d o t u=110. 010. 100. 001. 108. 203. 506. 201: Linarite of Keswick in Cumberland
569	a f c p v w o d=100. 120. 001. 111. 102. -102. 011. -121 : Puseudomalachite of Theinbreitbach
570	s c=30-2. 001: Clinoclase of St. Day in Cornwall
571	m b v=100. 010. 101 : Epidote
572	m t n=100. 101. -111 : Epidote of Arendal
573	n r t m=111. 101. 001. 100: Epidote of Arendal
574	Twinned crystal: u r t m =111. 101. 001. 100: Epidote of Zillerthal.
575	n r t m d=111. 101. 001. 100. -111 : Epidote of Traversella in Piemont
576	m t r b o u n=100. 001. 101. 010. 110. 212. 111 : Epidote of the Berner Oberland
577	m t r b o n u=100. 001. 101. 010. 110. 111. 012: Epidote of Arendal
578	m - t r b o k u n=100. 301. 001. 101. 010. 110 210. 021. 111: Epidote of the Alps in Savoyen
579	m t r b o k z u - n - d=100. 001. 101. 010. 101. 210 011. 021. -212. 111. - -111: Epidote of Ala in Piemont
580	m - t b o k z u n=100. 301. 001. 010. 110. 210. 011. 012. 111: Epidote of the Dauphine
581	m - - t l r b o k d n - - y -=100. 301. 201. 001. 102. 101. 010. 110. 210. -111. 011. - -432. 112. 151: Epidote of Zermatt in the Wallis according to Hessenberg
582	b s k p w z=100. 110. 120. 010. 221. 12 21: (Zoisite) of Salzburg according to Descloizeaux
583	r l t e M z n d u k x=101. 001. 101. 301. 401. 100. 111. -111. 311. 212. 210. 211: Epidote of the Laacher See
584	l x=110. 102 : Titanite of the Pfitschthal in Tyrol
585	n y c=123. 101. 001: Titanite of Arendal
586	n y x c=123. 101. 102. 001 : Titanite of Arendal etc.
587	l c x y=110. 001. 102. 101: Titanite from the Alps
588	l x c y n=110. 102. 001. 101. 123: Titanite of the Tavetsch in Graubuenden
589	l b y x c=110. 010. 102. 102. 001 : Titanite of the Dauphine
590	b m y x c=110. 010. 130. 101. 102. 001: Titanite of the Val Maggia in the Tessin
591	l m y x c n s=110. 130. 101. 102. 001. 123. 141 : Titanite of the Tavetsch in Graubuenden
592	l b x v c r n=110. 010. 102. 101. 001. 011. 123: Titanite of the Dauphine
593	l m y x c t s n=110. 130. 101. 102. 001. -121. 141. 123 : Titanite of Graubuenden
594	n c y r=123. 001. 101. 011: Titanite of Arendal
595	n c y?=123. 001. 101.? : Titanite of the Ural
596	n c y x r t=123. 001. 101. 102. 011. -121: Titanite of Graubuenden
597	n y c r=123. 101. 001. 011 : Titanite of Graubuenden
598	x y c s l=102. 101. 001. 141. 110: Titanite of the Obern Tavetschthal in Graubuenden
599	x y s c=102. 101. 141. 001 : Titanite of the Obern Tavetschthal
600	n r x=123. 011. 102 : Titanite of Pfunders in Tyrol
601	n r x y=23. 011. 102. 101: Titanite of Pfunders in Tyrol and of the Tavetsch
602	n l r=123. 110. 011: Titanite of the Dauphine
603	c x y l t r n s m=001. 102. 101. 110. -121. 011. 123. 141. 130: Titanite of Pfunders in Tyrol
604	c x y l m s n t=001. 102. 101. 110. 130. 141. 123. -121 : Titanite of the Tavetsch in Graubuenden
605	s x y l c r n M=141. 102. 101. 110. 001. 011. 123.Titanite of the Tavetsch in Graubuenden according to Hessenberg
606	x n t r s b I c y=102. 123. 121. 011. 141. 010. -112. 001. 101: Titanite of the Sella at Gotthard according to Hessenberg
607	Twinned crystal: l y x c=100. 101. 102. 001: Titanite of the Tavetsch and of Pfunders
608	Penetrating-Twinning crystal: l y c=100. 101. 001 : Titanite of Graubuenden
609	Penetration twinning: l y c x=110. 101. 001. 102 : Titanite of Graubuenden
610	Twinned crystal: c x y n o r t b - s u m=001. 102. 101. 110. 123. 013. 011. -121. 010. 1 16 3. 141. 163. 130: Titanite, Titanite of Pfunders in Tyrol
611. 612	m c p=110. -111. 111: (Cordierite) of Graves Mount Georgia
613	c s x e m b d u x' z p m q t y=001. -101. -113. -111. 110. 010. 011. 012. 113. 112. 111. 110. 212. 101. 103 : Cordierite of Werfen acoording to Miller
614	a m b e x u r=100. 110. 010. -102. 102. 011. 111: Laumontite of Huelguet in the Bretagne
615	m o e=110. 111. -111 : Scolecite of Island
616	Twinned crystal: m b o e=110. 010. 111. -111: Scolecite of Island
617	s t c m b x u=201. -201. 001. 110. 010. 011. 111: Heulandite of Island, and Andreasberg
618	Twinned crystal according to Breithaupt: s t b m c =201. -201. 010. 110. 001: Heulandite of the Fassathal
619	b t m a c e=010. 120. 110. 100. 001. 011: Brewsterite-Sr of Strontian in Schottland
620	2-1-1. 13-1. 120. 231. 111: Catapleiite of Brewig in Norway according to Dauber
621	m g a e x c d n x' v=110. 210. 100. 211. 201. 001. 011. -111. -201. -301 : Datolite of Andreasberg
622	m a c x n d e=110. 100. 001. -201. -111. 011. 211: Datolite of Toggiana in Modeana
623	x m c e n - d u a - t=-201. 110. 001. 211. -111. 311. 011. 401. 100. -311. 310 : Quartz of Haytormine in Devonshire according to Hessenberg
624	m x=110. 101: Feldspar of Arendal and Orthoclase from the Alps
625	m b x=110. 010. 101: Feldspar, Orthoclase from the Alps
626	m c x=110. 001. 101 : Feldspar, Orthoclase from the Alps
627	twinned crystal of Pfitsch in Tyrol according to Hessenberg: m c x=110. 001. 101 : Feldspar, Orthoclase
628	Bourlling crystal from the Binnenthal according to Hessenberg: m b x=110. 010. 101: Feldspar, Orthoclase
629	c b m y=001. 010. 110. 201: Feldspar of Neubau in the Fichtelgebirge and Loxoklas of New- York
630	m b c x=110. 010. 001. 101. 201: Feldspar of St. Pietro on Elba
631	m b c x y=110. 010. 001. 101. 201: Feldspar of Arendal etc.
632	m z b c x=110. 130. 010. 001. 101: Feldspar, Orthoclase of the Gotthard
633	m b c x y o=110. 010. 001. 101. 201. 111 : Feldspar of St. Pietro on Elba
634	m b c x o=110. 010. 001. 101. 111: Feldspar of Hirschberg in Schlesien
635	m z b c o q x=110. 130. 010. 001. 111. 203. 101 : Feldspar of Hirschberg in Schlesien
636	m z b c o x y=110. 130. 010. 001. 111. 101. 201: Feldspar, Jadeite of Mursinsk in the Ural
637	m z b c n o x y=110. 130. 010. 001. 021. 111. 101. 201: Feldspar of Botallak in the Cornwall
638	m z b c y n o=110. 130. 010. 001. 201. 021. 111: Feldspar of Hirschberg in Schlesien
639	m z b c q x y o n=210. 130. 010. 001. 203. 101. 201. 111. 021: Feldspar of Baveno
640. 641	Twinned crystal according to the Baveno law: c b m o x y=001. 010. 110. 111. 101. 201 : Feldspar of Baveno and Hirschberg, also at Orthoclase of the Gottard
642	Twinned crystal : c b n m y o x=001. 010. 021. 110. 201. 111. 101 : Feldspar of Baveno
643	Twinned crystal: c b o m x y=001. 010. 111. 110. 101. 201 : Feldspar of Neubau in the Fichtelgebirge
644	Twinnig according to the Carlsbader Gesetz m: b c y=110. 010. 001. 201: Feldspar
645	Twinned crystal with intergrown indivisuals m: b y c=110. 010. 201. 001: Feldspar of Predazzo in Tyrol

Triklinoedrisches System. (Naum.) Ein und eingliedriges System. (Weiss u. Rose.) anorthic System. (Miller.)
646	Triclinic octahedron
647	l m t p o x=110. 010. -110. 001. 111. 101: Albite of the Schemirnthal in Tyrol
648	p n m l s y t o=100. 0-21. 010. 110. 111. 201. -110. -111: Albite of the Gotthard
649	p l z m f t n g o - x - y=001. 110. 130. 010. -130. -110. 0-21. 1-12. 1-11. 332. 101. 403. 201 : Albite of the Gotthard
650	Twinned crystal: l t m p x o=110. -110. 010. 001. 101. 111: Albite of the Schmirnthal in Tyrol.
651	Twinned crystal: l t m p x o g y=110. -110. 010. 001. 101. 111. 1-12. 201 : Albite of the Schmirnthal in Tyrol
652	l t m z f p n o x g=110. -110. 010. 130. -130. 001. 0-21. 11-1. 101. 112 : Albite of Krageroe in Norway
653	l t m p n x' x g=110. -110. 010. 001. 0-21. -101. 101. -112: Albite of Arendal
654	p x - t o m l=001. 101. 403. -110. -111. 010. 110 : Albite, twinned Albite of the Pfitschthal in Tytol
655	l t m f z p s o y w v n e -=110. -111. 010. -130. 001. 111. -111. 201. 241. 2-41. 0-21. 021. 221: Anorthite of the Vesuv according to Hessenberg
656	l t m - f z p - - s o I y q x w v n - - e=110. 111. 010. 100. 1-30. 130. 001. -1-11. -111. 111. 1-11. -201. 203. 101. 241. 2-41. 0-21. 061. 013. 021: Anorthite of the Vesuv according to Hessenberg
657	a b c d h g=100. 010. 001. 011. 210. -110 : Babingtonite of Arendal
658	a b c d h g s o=100. 010. 001. 011. 210. -110. 0-1-1. 0-11: Babingtonite of Arendal
659	a n b k c s o: Paysbergit of Filipstadt after Dauber
660. 661. 662	m k t p: Kyanite of the Monte Campione in the Tessin
663	Twinned crystal: m k t p: Kyanite of the Monte Campione
664	Axinite of Kongsberg.
665	p u s r=010. 110. 121. 011: Axinite of Dauphine.
666	p u s r v=010. 110. 121. 011. 100: Axinite of the Dauphine
667	p u r s x=101. 110. 011. 121. 111 : Axinite of the Daouphine
668	r u p s l x=011. 110. 010. 121. 120. 111 : Axinite of the Dauphine
669	r u p s l=011. 110. 012. 121. 120 : Axinite of the Dauphine
670. 671	r u p s l x v e y w n m=011. 110. 010. 121. 120. 111. 100. 01-1. 101. 1-10. 1-1-1. 001 : Axinite of Bottallack in Cornwall
672	p r m n t=011. 100. 110. 010. -110 : Chalcanthite of Cornwall
673	p r m n t q s=011. 100. 110 010. 1-10. 201. -111: Chalcanthite of Cornwall
674	p r m n t s v k o q=011. 100. 110. 010. -110. -111. -101. 001. 101. 201: Chalcanthite
675	p r m - n t - r - s v k o q w=011. 100. 110. - 010. -110. - 100. - -111. -101. 001. 101. 201. 301: Chalcanthite

前頁へ | 表紙に戻る | 次頁へ