Nummer.
Stamm.
Alter.
G e b u r t s o r t . 1
I
Brustwarze.
Höhe des Nabels.
• Höhe des vorderen
Höhe des oberen
Brustbeinrandes.
Höhe der rechten
Darmbeinstachels.
Höhe des. oberen
Schambeinrandes.
Höhe des rechten
oberen
Acromion.
1 Hohe der rechten
Ellenbogengelenkfuge.
Höhe des Griffelfortsatzes
rechten Speiche. |
Höhe der rechten
Mittelfin gerspitze.
Höhe der rechten
Kniegelenkfuge.
Höhe des rechten
inneren Knöchels.
Spannweite der
der
Arme.
Grösste Länge
des Kopfes.
Grösste Breite
des Kopfes.
Kleinste
Stimbreite.
1 1
Breite zwischen
den inneren
Augenwinkeln. |
Breite zwischen
den äusseren
Augenwinkeln. |
Winkelbreite der
Unterkiefer.
Breite der Nase.
Breite der
Mundspalte.
Physiognomische
Länge des Ohres.
Physiognomische
Breite des Ohres.
Physiognomische
Gesichtshöhe.
Morphologische
Gesichtshöhe.
| |
I 5’!
«5 Sd
£
'S
:0
des Kopfes.
Breite zwischen
den Papillen.
Breite zwischen
den Acromien. 1
Breite zwischen
den vorderen oberen
Darmbeinstacheln.
Index cephalicus.
Tiefe der Nase.
Horizontalumfang
rS
>25
Morphologischer
Gesichtsindex.
Länge des rechten
Mittelfingers
Breite der
rechten Hand.
Länge des
rechten Pusses. 1
Breite des
rechten Busses.
2
«5 8
J tS
*3
s
Pulsfrequenz.
Nummer.
151 Sibua 25 Ttmuri 155.2 125 112 90 86.6 78.8 124.4 95.7 73 55.6 39.5 6.8 164.3 17.2 15.3 9.7 14 3.5 8.6 9.6 3.9 5.2 1. 5,7 z|'3.2 ! 19 11.8 7.9 5.8 2 51,8 63 36.4 24.1 88.95 67.24 84.29 7.5 ‘6.8 22.8 9.1 9.9 67 108 151
152 20 157.2 127.2 115 95.6 88.5 80.5 128.5 100 75.8 57.4 42 6.8 166.9 17.5 15.2 10 13.8 3.2 8.2 9.2 3.6 4.5 Z. 6.5 Ä 3 ; : 17.9 12 7.6 4.9 2 I 52.2 61 36.4 22.2 86.86 73.47 86.96 8 7.5 24 9.9 10 55 ! 120 152
153 25 154.3 125.4 112 91.6 85.8 78 126 96 72.1 64.6 40.1 6.8 165.6 17:6 14.8 10.1 13.5 3.5 8.2 8.9 3.5 4.3 Ir. 5.3 19.2 12.5 8.4 5.8 2.2 : 53 61 34.2 19.6 84.09 60.34 92.59 7.4 7.5 22.6 9.2 10 70 112 153
154 ; 40 144.6 117.2 102.2 82.5 77:6 69.2 117.3 90.4 68.5 52 37.7 6.8 150.9 17 15.4 io 14.1 3.2 7.9 10.5 4 5.2 l. 4.8, r. 6.2 Z. 3.5, r. 3.7 :Ì7 11 7.4 1.5 52 61 1 33.3 21 90.59 80 78.01 6.5 7.4 20.7 9.3 10.3 48 88 154
155 a5 .143.1 116 101.9 84.6 80 71.4 118.5 91 69.7 59.1 38 5.9 152.3 17.4 15.3 9.6 13.6 3 2 8.3 9 3.7 5.3 " l. 5.8 I ■ Z. 3 . 17 10.6 7.1 - 5.1 1.8 52 ’ 61 34.2 21.2 87.93 72.55 77.94 6.8 7.4 21.2 9.6 10 57 84 155
156 25 155.3 125.4 111.6 91.5 85.5 78 127.2 97 73.7 57.3 40.5 7.5 164.7 17.9 15.3 10 13.6 8.2 8 10 3.8 4.9 "M. 5.8 ; ; z. 3 17.1 11.7 7.3 4.8 1.8 53.5 62:. 36.8 21.7 85.47 79.17 86.03 7.3 7.5 22.3 9.8 11.1 78 80 156
157 22 153.8 125.5 113 92.3 85.7 79.4 127.6 97.6 73.2 55.6 43 6.7 165.4 18.4 15.3 10.4 13.5 3.3 8.6 9 4.1 4.9 l. 8.1'M Z. 8.1 17.4 11.7 7.4 B Ì.7 54 62': 34 21.8 83.15 82 ■ 86.67 7.5 7.4 23.5 10.2 10.2 62 92 157
168 K 35 167.1 135.9 125 100.7 95.6 87.3 137.3 105.3 79.8 62.6 45.5 178.3 17.7 14.8 10 13.7 3.2 8.5 9.2 4 4.9 l. 6.3 Z. 8.6 18.7 11.6 7.& 4.5 2 51.8 64 36.1 22.3 83.62 88.89 84.67 8 8 24.5 9.2 10.4 98 92 158
159 1. ’25 161.6 130.3 117.8 96.4 93.4 84 132.8 102.1 76 58.5 45 6.6 173.4 17.9 15 10.6 14.3 3.3 1 9:1' 11.3 4.5 5.3 l. 6.3 Z. 8.8f 19 12.3 7.7 5.3 2..' • ’ 52.3 64 35.8 21 83.80 84.91 86.01 7.8 7.5 25.3 10.2 10.7 62 88 159
160 » ' 40 164.3 132.8 119.3 99 90.5 84 134.1 104.1 78.4 58.4 43.5 6.8 175.4 17.5 15.4 10.6 14.5 3.1 8.3 10.5 8.9 5.4 l. 6.5, r . 6.9 Z. 3.5, r. 3.7 18.4 12.2 8 . -5.3 2 53.3 63 36 2? 88 73.58 84.14 8 8 24.7 10 11 62 84 160
161 35 160 129.6 116.5 97.5 92.3 84.6 130.8 100.2 76.3 57.7 43.1 6.5 166.1 18 14.8 9.6 13.6 'S 8 11.1 4 5 l. 5.7 Z. 3.5 19.1 11.5 7.7 5.8 2C ' ' : 53 ; 61 35.7 23.4 82.22 75.47 84.56 7.6 7.6 23.3 10 10.4 57 80 161
162 35 156.4 125.6 110 94 87 79 127.3 99 75.3 57.8 41:5 6.5 161.3 17.8 15.5 10.5 14.5 3.2 8.2 9.5 4 4.8 Z. 6$; Zi 3.4 19 12 8.2 5.4 1.7 52.8 64 36.8 24 87.08 74.07 82.76 7.5 7.5 24.1 9.8 10.4 70
96
162
163 40 ” 151.5 122.2 109.6 89.3 84.7 75 122 93.2 69.4 53.7 41 6.8 161.7 16.5 15.1 10.4 14.1 3.1 8.4 10.4 3.6' 4.9 l. 6 Z: 3.1 18.3 11.1 7.3 5 ■ 2 } 51.8 64 35.8 22.1 91.52 72 78.72 6.9 7.3 22.2 9.8 10.8 57 163
164 Onoriamoli} 25 157 128.5 116.5 98;3 91.6 82.5 129.6 99.5 74.8 66.5 43.8 6.8 17Ì.2 17 15.5 10 13.8 3.4. 8.4 10.1 4.1 4.6 Z. 5.8 Z. 3 17.4 11.2 7.2 5.5 \2 I 51.6 63 37.3 21.8 91.18 74.55 81.16 7 7.3 23B 10 11
93 88
164
165 40 159 128.3 118.7 96.5 90.7 83.9 182.1 100.7 74.5 55.6 42.7 6.8 176.2 17.8 15.3 10 14.9 3.4 8.1; 11 4.1 5.6 1 6 Z. 3.3 18 11.4 1.8 6.1 MM 52.3 64 40 25 85.96 67.21 76.51 8 8 24.2 10.5 10.8 165
Ì66 ” 24 142 114 99.6 81.5 77.9 71.2 116.5 88.6 67.2 51.6 37.5 5/7 147.8 17 14 9.5 13.3 3.1 8.2 9.7 4 4.7 Z. 5.7 Z. 3.1 , . 18.3 11.6 7.5 5.1 2.1 49.8 62 33.8 20.4 70.58 78.43 87.22 6.5 7 20.3 ; 9.4 10.2 37 92 166
167 40 143.1 116.1 103 85.9 81.6 73.8 117.4 -90 66 50.2 38.5 5.6 158.1 17.6 14.6 10.3 13.9 3.1 8;2 11.2 4.1 4.9 Z. 6.3 Z. 3.5 17.5 11.1 7.3 5.3 1.7 52.5 62 34.5 22 82.95 77.36 79.86 7 7 21 9.7 9.5 40 88 167
168 40 156.5 126.3 113.7 95.3 88.5 80.7 127.5 98 74.2 57 43 7.8 164.1 16.7 14.6 9 13.1 2.7 ■ 7.6 11 3.5 4.8 Z. 5.7 1 " Z. 8.3 17.6 11.3 7.1 5.2 n ™ 51.3 59 35.8 21.5 87.43 67.31 86.26 7.3 7.6 22.8 9.3 11 70 92 168
169 25 148.5 119.7 107 86.9 81.3 71.8 119.7 92.7 72.4 56.8 39.6 6.4 16.8 14.5 10 13.9 3.2 £8:2 9.8 3.9 4.6 l. 6 z: 3.3 18.4 12.1 7.5 5:2 1.8 50.8 : 61 33.6 19.1 86.31 75 87.05 6.8 7.2 20.7 9: •• 9.4 63 72 169
170 Tjamili J 22 Bawedobara bei Telok Dalam Süd-Nias 152 123.6 109.8 90 85.4 80 123 93.7 69.5 52.7 40.4 6.8 164.3 18.5 14.2 9.5 13.5 8.2 f 8:1^ 9.2 4.1 5.1 l. 5.3, r. 6.6 Z. 3.5, r. 3.4 17.2 10.7 7.5 5.2 2 53.5 • 60 35.5 22.5 76.76 78.85 79.26 7.1 7.5 22.7 9.6 10.6 57 100 170
171 Laji
Warutou
1 20 Onolauwe S- 0. Nias 155.7 128.3 117 < 95.2 86.6 79.8 127 100 77 61 43 7 158.6 15.5 15.1 9.7 18.*5 3 8 m 9.4 4.1 4.4 l. 5.5, r. 6 Z. 3.3, r. 3.3 17.6 10.6 i f 5.1 1.7 49.8 I: 60 34.6 22.5 97.42 80.39 78:52 6.8 6.8 22.2 9.1 10 42 112 171
172 1 25 Saiwahili S. 0. Nias 152 124.6 113.2 91.3 85.4 77.3 125 97.4 74.3 56.8 41.1 6.6 160.6 18.2 14.5 10.5 13.8 3.4 8.2 9.7 4 5.2 Z. 5.3, r. 5.3 Z. 2.9, r. 3 17.4 11.2 7.4 5.2 1.8 52.2 64 34.6 23.2 79.67 76.92 81.16 7.4 7.4 23 9.4 10.2 45 84 172
173 Ironohura 30 Idano Gawo Süd von G. S. 158.3 128.1 114 93.6 87.1 77.8 129.6 101 77 59.5 * 41.5 6.2 165.6 18 14.6 10.6 14.5 3;3 8.6 10 3.8 4.4 Z. 6.5, r. 7.5 Z. 3.4, r. 3.5 19 12.3 8.3 5.3 2 54 : 64 37 23.1 81.11 71.70 84.83 7.2 7.3 22.1 10 12 60 100 173
174 25 Sogaiauwe Süd von G. S.
Onolimbu 0. ’Küste
149 122.4 •107 89.8 79.3 78 122.3 94.8 73.5 57.3 38.1 6 152.1 18.8 14.8 10.5 13.9 3.5 8:8: 10 3.7 5.2 Z. 6.5, r. 7.3 Z. 3.3, r. 3.2 .17.7 11.2 7.2 5 1.5 545 1 63 34 2Ì 78.72 74 80.58 7.3 7 22.4 9.8 11 30 96 174
Ï75 Sare fa 40 159.3 128 119 94.5 9l l 82.4 129 99.4 74.3 -56.6 42 5.6 170.9 18 15.9 10.7 14.3 ' SWÊ 8:3 11.3 4 4.7 Z. 6.5, r. 6 Z. 3.1, r. 3.7 20 12.1 8.3 5.6 M 55 m m 37 26 88.33 71.43 84.62 8 7.3 24.1 8.8 8.7 43
62
76 175
176 Sibua 25 Sifaoroasi C. Nias 153.1 124.5 112.7 94 86.1 78.5 125 96.9 73.3 56.3 41.5 7 164.4 16.6 14.7 8.7 13.2 2 7 7.5 9.8 4 4.4 Z. 5.4, r. 5.5 Z. 3.2, r. 3.3 17.5 11 7.3 5.1 1.5 ; 58 34.5 21 88.55 78.43 83.33 1 7.7 7 22 9 10 99 176
177 25 Ordhili bei G. S. 149.6 120 108.9 86.3 82.3 72.6 120.6 93.6 70.6 53.3 39 6.8 159.8 18. L 14.2 10 13.6 8.2 8.2 9.3. 3.7 4.7 Z. 5.1, r. 5.5 l. 3.1, r. 3.2 18.6 11.2 7.3 4.9 1.8 : 52.3 63 36.1 22.6 78.45 75.51 82.35 1 6.8 7 22 9 9.6
63 104
178 Sindrato 80 Silinaa bei G. S. 156.4 126.2 1Ì2 94.5 88.1 77.5 129 99.5 75.7 59.2 42 6.2 166.2 17.8 14.6 10.2 14 3.2 8.4 10 4 _ Z. 6 Z. 3.2 18.4 11.8 7.3 4.8 2 • 53.6 62 35.4 22.3 82.02 83.33 84.29 7.3 7.4 24 10 10.6 178
179 25 167.6 136.3 123.6 102.5 95.7 87.9 137.7 106.4 80 60.5 45Ì5 7.7 175.8 17.6 15.2 10.6 14 8.5 8.6 10 3.6 5.2 Z. 5.8 7 Z. 3 . 18.8 11.5 6.9 4.7 2 i 53.5 64 37.7 .22 86.36 76.60 82.14 8.5 8.4 26 ' 11.2 11.9 68 108
179
180 Sarefa : 45 Dahana bei G. S. 157 128 112 95.6 89 80.9 128 98.5 73 55.2 42.4 6.8 168.2 17.7 14.9 10 14.4 3.2 8.6 10.2 3.8 5:7 Z. 6.8 Z. 3.4 19.6 11.4 8.6 5.8 53 65 35.7 23.2 84.18 65.52 79.17 7.1 7.3 23.1 9.7 10
80
180 2 J 181 45 151 122.7 106.3 89.2 84.4 75.1 123.2 95. 71.2 54.3 40 . 6 159.1 18.5 14.5 10 13.4 - 3.2 8.1 10 4 .1. 5.3 Z. 6.3 3.3 20.2 13 8.3 5.6 2:2/ 54 68 33.5 21.3 78.38 73.21 97.01 6.8 6.8 21.6
22
8.4
8.6
9.7
9.3
9.3
10.2
10.9
11.3
10.8
8.9
10.3
9.5
43
72
88
112
76
84
84
80
88
181
182
183
184
185
186
187
1 188
189
190
182 40 153.3 124.1 109.2 91.8 84.5 76. 126.3 97.2 73 56.4 41 6.6 160.8 17 15.4 9.7 14.2 3,1 8:2 9.7 3.9 5.3 Z. 6.8 Z. 2.9 17,6 11.7 7.8 5.2 2 52.3 — 35.1 . 22 90.59 75 82.39 7.4 6.7
183 25 167.3 137.2 123 104 95.9 87.3 137.8 107- 81.8 64.4 46.5 7.2 173.3 17.5 16 10.5 14.2 3.2 8.2 8.6 4.1 6 Z. 6.2 Z. 3.3 18.6 12.5 8.2 6 2 53 64 37.7 22 91.43 68.33 88.03 7.3 6.3 24.6 8.8
79 184 22 Ì53.1 123.2 110.6 89.3 85.8 77.8 127.4 98.8 74.6 56.7 42 7 161.2 17.1 16 10.1 13.8 8.6 8.5 9.5 4 4.5 Z. 5.3 Z. 2.9 ‘ 19.3 11.8 7.9 6.4 H 52 f 62 86 21 93.57 74.07 85.51 7.4 7.5 23.2
185 40 158.3 128 114.3 93.5 87.5 .79.8 131.4 100.2 76 58.7 41.5 7 172.3 17.3 15.8 10.7 14.6 3.3 8:5 10.2 4.5 5.7 Z. 6 1 : Z. 3.3 19.1 12.6 8 5.6 1.8 52.5 66 35 : 22.1 91.33 81.82 86.30 7.4 7.7 23.5 82
9.8
9.7
10.2
9.9
8.5
9.6
9.5
23.3
24.1
22.5
23.3
22.3
85
100
63
63
67
186 35 160.6 130.1 116.4 94.4 87.5 79.3 131.6 102 78 62.5 42.3 5.8 163.7 18.4 14.3 10.5 13.7 8.6 8.3 9.5 3.8 4.5 Z. 5.2, r. 5.9 Z. 2.9, r. 3 18 11.5 7.3 5.1 1.8 53A p 3 1 36 20.3 77.72 74.51 83.94 7.2 7.4
7:6
187 40 166.4 135.8 118.4 100.3 93 w 85.2 131.3 106.7 81.3 62.7 45.1 7.4 174.7 18.6 15.6 10.4 15 8 8.3 10.3 4.2 5.2 Z. 6.8 6.6 Z. 8.6 19.5 B H 8 5.8 55 64 37.8 23.4 83.87 79.25 80 7.5
188 22 80 156.9 127.6 115.7 95 88.0 82.2 129.8 100.8 76.6 59.5 42 6.3 158.6 17.5 15.3 10.5 13.8 3.2 8:3 9.7 4 5.2 Z. 5.5 Z. 3.1 17.3 10.6 6.7 4.6 1.5'': 53 ; 63 34.2 20 87.43 86.96 76.81 7.1
189 „ I 40
”
160.4 130.3 114 94.4 89 78.5 129.5 101.2 76.4 59.2 42.1 7.4 166.3 17.7 14.9 11 14.7 3:6 8.4 11.3 4.4 5.5 Z. 6.5 Z. 3.5 18.9 10.6 8 5.4 1.8 52.3 : 65 38 22.8 84.18 81.48 78.91 7.2
190 '■ „ . ' 24 155 124 113 91.3 85.5 78.3 125 95.8 72.5 55.8 40.9 6 169.7 16.9 14.8 10 13.8 2.8 8.2 10.5 3.5 4.7 ; z; 5.2 Z. 2.8 17.2 11.5 7.3 5 1.7.; 50 58 34.4 20.7 87.67 70 83.33 7.3 6.6 76
191 Gamofo
”
25 Ordhili bei G- S. 157.1 125.5 112.3 92.6 85.4 76.3 126.3 98.8 73.8 57 40.6 6.8 160 18.7 14.6 10.6 14.5 8.6 • • 9.2 9.5 3.5 5.5 Z. 6, r. 6.4 Z. 3.2, r. 3.5 19.5 12 7.7 5.2 1.5 64.2 68 34.8 23.7 78.07 67.31
74.07
82.76 7
84.89 6.7
7.1
6.9
21.7
20.5
22
9.6 10.3
9.6
95
55
43 84
191
192 35 192 151.3 121.6 110.4 89.2 83 76.3 126.5 98.8 76 60.1 §9 6.4 156.2 17.5 14.8 10 13.9 3.5 8.2 10.3 4 4.5 Z. 6.2, r. 6 Z. 3, r. 3.3 19.2 11.8 8 5.4 51.8 62 34 23 84.57
8.9
9
62 80 193
193 25 H 156 125 113 93 83 76.3 125.7 98 76 58.7 40 7 159.3 18:5 14.8 10.8 14.5 3.3 8.5 10 3.8 5 Z. 5.8, r. 6.3 Z. 3.3, r. 3.3 18.4 11.6 6:9 4.7
194 Duru 22 9.2 63 84 194 Silimboo S. 0. Nias 149.2 120.5 109.5 90.5 83.2 75.5 122 96 73.5 57 40.8 6.8 152.6 18 15.3 12 14.4 3.8 9 10 3.7 5 Z. 5.1, r. 5.5 I Z. 3.1, r. 3.1 18 11.4 7.6 5.2
1.6 53.5 67 19.6/
1.5 54.2 63 33.7
33.8
36
35
35
32.6
21.5 80
85
84.57
77.77
83.33
83.33
89.71
78.21
rrt'Te S o n dn 7 22.1
23.4
23
20.5
21
21.3
21
21.5
70
70.21
75.47
79.55
85.71
72
84.06 7.6
87.88 6.6
83.33 6.8
75 6.7
80.69 6.4
76.30 6.4
9 9 4 78 72 195
195
196
197
Rarefa 25
30
40
Daliana bei G. S.
”
155
146
150.6
126.2
118.5
120.6
112.7
104.5
107.1
93
87
90.6
88.8
83
85.6
79
74.5
76.6
128
12Ó.8
123
98.8
93.5
93.3
73.2
72.4
70
56
56.5
53
42
88
41.7
5.8
6.2
. 6.3
166
150
161.9
17.5
18
18
14.8
14
15
10.4
9
10.6
13.8
13.2
13.8
8.6
3
8.8
8.4
8
8.4
9.5
9.8
9
3.6
3.3
4.9
4.7
5.2
Z. 5.7
Z. 6 .
1 .6
Z. 8.2
Z. 3
Z. 3.2 •
17.1
17.6
17.6
11.6
li.6
11.5
7.3
8
5
4.7
5.3
1.6
1.8
1.8
52.2
52
52.5
63
61
65
6.8
7.2
7.1
21.2
21.7
21.3
21.6
20.3
9.2
9.2
9.5
9:9
9.8
9.9
55
50
27
64
84
92
196
197
198
198 1 | 40 150.6 121.1 108.6 92 83.9 77 124 96 73.3 57 39 6.6 154.5 18 15 10 14 3.4 8 10.5 3.6 4 9 Z. 6.1, r. 6.9 Z. 2.6, r. 3 16.5 10.5 6.8 4.4 1.7 53 62
95
9.1
9.8 47 112 199
199
200
» I
35
23 ”
154.4
149.8
123
120.5
110.2
107.2
90
88
83
80.2
74.6
72.4
125.6
122
97.2
95
78.6
72.3
57.6
66.5
40
38.2
6.1 161.6
155
17.5
17.9
15.7
14
10.5
10.5
14.5
13.5
8.5
3.6
8.2
9
11.8
10.2
4.2
8.6
5.9 Z. 6.3
Z. 6
Z. 8:2
Z. 3.1
17.7
16.7
11.7
10.3
7 2
6.9
4.9
5
1.6
1.7
53.5
52.3
65
68
36 ;
34.2 7.3 9:8 68 100 200