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ft Stamm. Alter: G el) ti r t s o rt. :© tD :0 Höhe des oberen. | .Brustbeinrandes. I Höhe der rechten Brustwarze. Höhe des Nabels. Hohe des vorderen Darmbeinstachels. | Höhe des oberen Schambeinrandes. Höhe des rechten oberen Acromion. Höhe der rechten Ellenbogengelenk- Höhe des Griffelfortsatzes •fjjge. rechten Speiche. | Höhe der rechten > Mittelfingerspitze. Höhe der rechten Kniegelenkfuge. Höhe des rechten inneren Knöchels. Spannweite der der Arme. Grösste Länge des Kopfes. Grösste Breite des Kopfes. Kleinste Stirnbreite. Grösste Joch- ; bogenbreite. Breite zwischen den inneren Augenwinkeln. ] Breite zwischen | den äusseren Augenwinkeln. | j Winkelbreite der r Unterkiefer. Breite der Nase. Breite der Mundspalte. Physiognomische ! Länge des Ohres, j — - ----------------------1 r Physiognomische Breite des Ohres. [ od '4»Ì .0 0 Morphologische Gesichtshöhe. S :° a | É);Ì ■3 S) f r i Höhe der Nase. Tiefe der Nase. to I 1 . I m O m 'S'ö H Breite zwischen den Papillen. Breite zwischen den Acromien. Breite zwischen den vorderen oberen Darmbeinstacheln. | Index cephalicus. <D *d j ft Morphologischer Gesichtsindex. § to | S Breite der rechten Hand. Länge des rechten Pusses. ® i Breite über den 1 Zehen rechts. I ¿T43 fS ^ 1. 101. 102 Barefa Laidi 40 - 25 Gr. 8. 154.8 158 124.7 131.7 108.4 114.2 .91.3 95.4 86.7 88 80.3 83.1 127.3 127.6 ¡97 ■ 100 72.7 76.7 55.2 59 43 42.3 7.2 164 164 17.7 17.8 15.2 14.9 9.9 10 14.6 13.5 3.1 3.1 8.3 8 11.5 10.2 44 5,3 1 6.1, r. 6.8 ■ l. 5*5 . 7.3.3, r. 3.7 Z. 3 18.2 18 10.7 11.1 7 .5 , 6.1 4.9 2 1.6 52.8 52.5 61 60 68 318 36, - ; 82,8 243 22.5 21 85.88 83.71 76.19 84.27 89.02 83.52 78.43 81.63 76 ; 72 1 70.69 80.39 72.73 75.47 71.70 69.81 73.29 82.22 84.56 84.56 83.78 82.27 84.29 89.71 79.58 81.25 6.9 7.6 ■ 7,1 7.5 6.8 7.6 7.4 25 22.4 24.7 9.7 9.3 9.2 10.3 9.8 9.4 80 I 63 88 88 92 101 102 103 103 Waruwu 20 155.7 125.7 113.5 93.7 88.7 78.6 128.3 100.2 75.8 58.6 53.2 6.8 161.7 18.9 14.4 11.1 13.6 4 9.1 10 3.8 4.5 1. 6 Z. 3 19.4 11.5 7.5 0 1.8 ! 53,5 2L8 24.2 23.2 9 9 9 53 84 104 104 105 Delembanua -20 25. 1 152.4 161.4 ìÉ s : 110.8 118.8 91.2 98.6 85.4 92.4 79 85.1 124 134 97 U04 ; 72.5 79.5 55.3 61.2 40 45.2 6.7 7.5 161.3 168.3 17.8 17.3 15 15.4 9.9 1-1.1 13.6 14.8 3.2 4 8.4 8.9 10.2 10.4 3.6 4.1 4.6 5.1 *•' l. 6.4 - X 6.1 Z. 3.8 7. 8.5 18.6 18.4 11.5 12.4 7.2 8 5.8 1.8 j 53 - 51 62 67 36 36.1 38.1 36 37 35.1 36.4 20.5 22.2 23.1 i x g 9.9 9.5 l o s 10.5 95 68 86 88 105 106 106 Waruwu 20 . £ 157.5 128.2 115.7 93.6 87.1 79.7 129.1 99.6 75.4 59.2 41.4 6,7 165.3 18.2 15.2 10,1 14.1 3,2 8.8 11 4.1 5.2 7. 5.7 7. 3.4 19.2 11.6 7.7 5.1 53.8 62 64 25 10 10.6 63 92 107 107 Onoriamolo 20 Hilinaa bei G. S. 161.7 132 117.8 98.6 91.2 82.8 132.5 103.3 76.8 58.8 43.3 7.1 170.6 18.7 15.1 10.8 14 . 3.6 8.6 10.1 4 4.6 l. 5:4 ■ 7, 8,2 . 18.2 11.8 5.5 1.7 54 54.3 51.5 55 23 20.9 22.2 87:64 8.1 7.3 7.6 7 3 257 10.4 11.6 75 88 108 108 Delembanua 20 Onongeba bei G■ S. 160.4 129.7 115.6 94.5 90.2 82.6 127.7 98.5 73.6 55 43.6 7.9 169.4 17.8 15.6 10.5 13.6 3.7 8.8 9.5 4 4.6 l. 6 7. 3.1 19.8 12.2 7.6 5.8 1.8 65 63 22.7 9 9.2 65 120 109 109 110 Onogea Sega 20 30 Lafau (N. Küste) Onogeba bei G. S. 159.5 154.3 129.9 124 117 110 93.7 90 87 83-r 80 74.6 129.8 123.6 101.3 97.5 77.5 74.6 59.1 58.5 41.9 40 6.2 6.8 162.9 157.9 17.1 18.9 15.1 15.5 10.8 10:6 14.2 14.4 3.7 3.1 ' 0 ' : 8.3 11.2 10.6 3.8 3.7 4.8 4.8 l. 5.6 l. 5.7 7. 3 7, 3 • 16.5 20.3 11.8 11.7 7.8 7.8 5.3 5.8 2.1 1.8 82:01 7.4 BX 7.1 22.2 9 9.7 52 76 110 111 Delembanua 30 Onoioaembo bei G- S. 152.4 124.5 111.2 91 83 77.3 124.6 96 73.2 54.8 40.1 •-7 ’ 160.9 18.3 15.3 11 14.5 4 8.6 i n i -- 4.1 4.8 l. 5:8 1 ? 18.8 11.6 7.7 5.2 1.8 53.5 51.3 52.5 52.3 51.8 54.3 62 61 60 62 56 62 62 ; 65 . 65 64 33.5 34.6 36.4 35.2 31.7 85 33.8 36.8 SR 7 22.8 83.61 85.06 78.45 78.85 70.59 88.89 80 85.19 7.1 7.1 7.4 7.3 22.2 21.5 9.6 9.3 9.7 10.2 63 65 76 88 111 112 112- Mendrofa 30 LölSioua 152.8 123.3 110.5 92.2 85.3 78.8 125 97.1 73.3 56.5 41.3 6.3 161.9 17.4 14.8 10 13.5 3.2 8.3 10.5 3.6 4.7 1.6.1, r. 6.4 7.3.5, r. 3.6 18 11.5 7.4 5.1 4.5 1.9 1.8 1.8 1.8 1.8 1.7 238 22.6 21.1 23.5 20.3 22.5 23.2 m 79.71 8 7.3 22.2 9.4 10.7 92 80 113 113 Maruo 25 Bdlaika 153.3 123 110 88.5 83.4 74.8 123 95.5 72.4 54.7 40 6.5 160.2 18.1 14.2 9.8 13.8 2.9 8.1 9.8 4 5.2 1. 6.2 7: 3.1 18.3 11 6.9 8986 76.88 8415 68A2 64 90^91 7.2 7,1 23.2 9.3 10.2 47 100 114 114 Sibua 30 Tumuri bei G. S. 155.2 126 111.3 95.4 87.8 80 127.4 99.6 76.5 58.9 42 5.2 160.1 17.4 15.6 10.2 14.3 3.5 8.4 9.5 3.9 5.3 Z: 6.1 • 7. 3.2 19.9 ! 13 8.6 5.7 87.31 6.3 20.4 9 10.5 35 72 115 115 „ • 40 n 142.7 1U.4 100.7 84.5 79.4 70.9 116 88.7 67.7 52.8 3712 5.6 147 18 13.8 9.5 13.4 8.1 7.5 9.3 3.2 5 7. 5 7; 3.1 18.9 11.7 7.7 5 73.08 90.30 7 7.2 21.9 23.3 9.2 10.2 67 84 116 116 „ 28 I : . j- 151.1 121 107.4 89.1 83.3 75.5 123.4 94 71.2 54.4 40.5 5.8 159.9 18.3 15.4 9.6 13.4 3.2 8.1 9 3.8 4.6 Z. 5.9 ,7. 3.1 ' 20 12.1 7.6 6*2 86.93 85 69.81 8L48 7.3 7 9.2 9.8 37 84 117 117 20 I 152.1 12à3 110.9 91.1 85.8 78 123.4 97.6 75.7 58 40.6 6 151.4 17.6 15:3 10.7 13.5 3.5 8.4 10.5 3.7 4.8 Z. 4,8 7. 3.3 18.3 11 7.3 5.8 54.5 54.3 53.5 72*73 81.88 7.3 7.8 23 9.8 10.5 62 60 118 118 Delembanua 40 » 161.2 130.5 117.5 ; 97 91.7 84.1 131.1 100.6 76.2 59 43.5 7:3 167.6 18 15.3 10.5 13.8 3.5 8.5 10.8 4 4.8 l. 6 7. 3.1 181 11.3 1:8 5.5 78.95 74.07 90;51 7.1 8 23.2 10.1 10.5 72 80 119 119 Faruicu 30 • :- 158.6 128 115.5 95.5 89.5 82.2 130.6 100.4 76.1 59.3 44 '6>9. 167.1 19 15 10.2 13.7 3.3' 8.4 10.1 4 5.3 7. 6 7. 3 19 12.4 5.2 86 87.43 7L15 78.17 7.7 * 7.3 23.3 9.2 9.2 73 68 120 120 Sibua 30 158.3 129, 114.6 95.1 89.6 81.3 130 100.4 77 58.3 433 6.7 169.1 17.5 15.3 10 14.2 3.1 8.6 10.5 3.7 l. 6 Z.- 3.5 18.2 11.1 7.7 1.5. 121 Ononamolo 30 ” 152.7 128.7 111.9 92.6 86.9 79.4 124.4 96.5 74 56 42.2 ß.2' 162.6 18.3 15.1 10.3 14 . 3.5 •8.2 10 4 5' l. 6.1, r. 6.2 7.3.2, r. 3.5 18 11 7.1 5.2 5:1 ö l 5.1 1.8 2.1 52.5 66 y 63 64 67 35.9 38.5 35.8 37 21.8 24.5 82.51 81.08 76.92 82.35 78.57 83.69 7.2 7.4 6.9 7.9 23.7 23.3 9.3 . 9.8 9.9 10.6 65 68 100 100 121 122 122 Sibua 45 156.2 127.4 109.1 92.6 86.6 77.5 129 98.8 75.2 57 40.5 6-7 167.4 18.5 15 10.2 14.1 8.3 8 10.1 4.2 4.9 ' 7: 6.7 7. 3.7 I9.I 11.8 7.6 7,2 52.8 51.7 53.3 53 52 23.3 93.45 74.51 76.92 7.3 24.6 9.2 10.1 62 88 123 123 „ •20 » • 156.1 126.2 113.4 90.6 86.5 77.4 127.5 99.9 75.3 57.8 41.3 7 163 16.8 15.7 10.8 14.3 3.6 8.5 10.2 3.8 7. 5.8 7. 3.5 17:6 11 10.7 1.8 24.5 87.50 80.39 71.33 1 7.4 24 9.8 11 58 72 124 124 „ 25 • 160 130.2 119.1 99.3 91.8 83.3 132 102.1 75.2 57 44.2 7.2 166.5 17.6 15.4 f l* 15 3.8 8.9 11.1 4.1 5.1 l. 5.8 7. 3.4 17.2 7:6 7.8 7.2 7.6 63 67 62 33.1 37.5 21.5 84.70 71.15 81.38 6.7 7.4 22.1 9.3 9.7 68 ' — 1 125 125 „ H 40 n 154.6 129:6 110.8 93 89.1 79.6 128 . 99 75.1 57.6 42.1 6' 164.1 18.3 15.5 10.4 14.5 3.5 8.5 9.5 3.7 5.7 7. 6.1 7. 3.5 19.5 11.8 5.7 c 1.8 1.8 1.8 1.6 1.7 23 84Ì75 66.67 .85.71 7.3 7.5 23.1 10 10.7 72 88 126 126 „ 35 1H . ■ 160.4 130.2 115.6 95.5 90.1 81.8 129.9 101 77.2 60 43.8 6.5 163 17.7 15 10.2 14 3.4 8.4 9.5 3.8 5.1 7. 6,4 7. 3.4 20 12 36.1 23.2 79.89 78 84.56 7.4 '7*6 22 9.7 10.7 .68 80 127 127 . „ 25 152.7 12Ó.3 109 90.5 85.8 76.6 123.3 94.4 72 54.4 41.6 7.5 163.3 17.9 14.3 10 13.6 3.5 8.1 9.5 3.9 4.7 7. 6.4 7, 3.1 18 11.5 11.5 O 5.2 62 35.6 218 83.80 80.77 83.33 7.8 7 22 9 10 62 84 128 128 „ 35 ■ n 151.6 122.6 109.3 90.3 85.5 77.2 123.6 96 78 65.6 39.7 5.8 160 17.9 Ì5 10.4 13.8 3.4 8.2 9.2 4.2 4:9 7. 5.2 7. 3-8 18.5 526 51.5 67 61 35 36.7 22 85.88 72.73 80 8 7.5 23 9.3 10.8 52 72 129 129 „ HO 154.5 12Î.1 110.1 90 86 78.6 126 97 72 54.5 40.9 6.7 166.8 17.7 15.2 10.2 14.5 4 9 9.6 44 7. 5.9 7. 3.2 17.4 11.6 7.5 7.5 5Ì3 228 86.78 75.47 84.67 8.1 7.7 24.4 9.5 10.2 57 84 130 130 „ 20 159.5 129.5 117 94.5 89.4 80.8 180.6 102 76.8 58.1 42 r , 166 17.4 15,1 10 13.7 3,2 8.1 10.1 4.8 7. 6.6 7. 3.3 18.3 11.6 100 116 131 131 20 151.1 122.7 110.3 91.7 86.5 78.7, 122.7 96.4 73.3 56.4 41.3 6.3 157.8 16.2 i 9.7 12.5 3.2 8.4 9.6 3.6 5: ‘ 7. 5.4 7. 3.1, 17.3 10.8 132 11.5 7.1 7.5 5.Ì 1.7 2 48.5 54 51.8 51.8 51.5 60 65 34 36.4 19 22.5 92.59 90.23 70.59 74.55 86.40 79.31 7.1 7.4 7.3 22.8 23.1 8.7 9.5 10.1 10.1 47 72 132 1 » 1 25 154 124.7 110.8 92.1 86.3 77,2 127 96.5 73 55.5 41.5 6.8 166.3 17.4 15.7 10.5 14.5 3.4 8.5 10 4.1 5.1 7. 5.9 7. 3,5 17.7 5.1 5.1 4.7 5.3 1 01 35 22.4 88.33 80.39 80.85 7.4 7T8 22.4 9.6 10.6 58 96 133 133 „ 40 150.6 121.2 106.2 90 83 76.5 122 93 70.7 53 39.6 7 163.5 17.4 14.5 9.6 14.1 3 7.8 10.6 4.1 4*6 7. 6.5 7.- 3.1 19.2 11.4 12 10.7 12.5 11.8 11.8 7.5 2.2 1.7 63 36 21 87.06 72.55 81.08 8.2 8 24 10 10 77 132 134 134 „ 24 „ 159.1 130.1 117 96.3 91.3 84 131 102 78 58 44.1 6.9 167.5 17 ' 14.8 10.3 13.8 3.6 8.5 10.5 3.7 7.- 5.5 7. 3.5 18 n 63 35.5 18.2 79.78 85.11 80.45 7 7 ' 22 9 9.2 47 84 135 135 „ 20 I 150.7 12L 108.2 87.4 82.6 75.3 120.3 94 70.3 54.1 39 5.9 157.5 17.8 14.2 10.1 13.3 :3; - 8.5 9 4 5.4 7 5,8 7. 3.1 17.5 7.8 7.5 7.6 8.4 7.7 2 1 52.5 55 ■ 62 35.8 21 80.11 69.81 89.29 7 7.3 21.5 9.8 10.8 62 76 136 136 „ 35 40 151.3 122 107 90.1 80.4 71.9 123.2 95.3 72.3 54.9 39 6.9 160 18.1 14.5 10.3 14 3.1 8.1 9.5 3.7 5.2 7. 5.9 ,7, 8 18.3 1.6 1.7 2 3 2.2 66 36 ' 21.8 88.27 76.92 80.82 7.8 7.3 23.1 9.6 10 73 80 137 137 ,, 159.5 120.3 105.4 86 81 72.6 118.9 91.2 67.9 51.2 37.6 6.4 161.4 17.9 15.8 11 14.6 8,7 8.7 10.9 4 5.6 7. 5.8 7. 3.1 18.8 K 1 55.7 53 51.3 65 35.6 23 88.59 72.55 84.29 7.4 7.2 24.1 9 10 67 84 138 138 V 25 B ’ ' « 158 128.8 113.4 94.3 90.1 82.8 130 101 76.1 58.1 43.6 6.7 166 18.4 16.3 10.5 14 3.2 8.6 9.4 3.7 3.4 5.2 7.5, r. 5.4 7. 3.2, r. 3.3 18 6 • 62 38.1 23.3 93.02 56.67 86.21 '7.5 7.1, 24.3 9.9 10.7 87 80 139 139 „ 35 „ 163.6 132.5 118 96.6 91.3 84 132.6 103 78.2 60 43.4 7.2 171.3 17.2 16 10.5 14.5 3.3 8 10.5 4.9 Z. 6.1 7. 3.2 18.5 19.6 12.5 12.2 5.1 p 6 2 37 21.7 87.13 70.59 88.41 7.7 7.2 22.3 9 10.3 53 76 140 140 35 158 127.2 113.8 94.7 90.2 82.1 128 99.7 74- 55.2 43.1 6.8 170.2 17.1 14.9 10.1 13.8 3 8.3 9.5- 3.6 4.7 Z. 6 7. 8.2 10.2 9.4 68 57 112 96 141 141 20 ' 156.6 126.9 114.2 92.3 89 80.2 126.5 99.1 76 58.5 42- •7 159 16.7 .15 10.2 13.3 3.2 8.2 9.5 8.2 4.7 l: 5.4 Z. 3.4 18 11.2 142 10.7 12.1 18.3 12.1 11.5 11.5 12.5 11.6 12 - 7.3 7.2 8.3 8.2 7.8 5 2 1.4 51.8 51 £"68 , 5 8 35.6 32.7 19.5 19.2 89.82 93.25 64 74 84.21 82.31 7 7.1 6.7 6.8 21.8 21.2 9.6 8.9 142 „ 20 » 148.1 119.3 106.3 88.1 82.3 74.2 121.3 92.6 70.8 54.8 39.5 6.4 154.6 16.3 15.2 9 13 2,9 7.5 8.5 3.7 4.5 4.9 7. 5.2 7. 3.1 17.4 5.8 6.6 5.6 5.4 5.2 2.2 52.5 64 84.75 68.97 84 03 7 7.3 23 9.7 10.6 9.7 62 72 .143 143 „ 45 -4 159.5 128 112.7 97 92 82 131.2 44,3 7.4 UHM 17.7 15 9.8 14.4 3.1 8.2 10.2 4 7. 6.4 7. 3.8 19.2 2.5 538 50 1 65 39.6 24.1 78.38 78.18 90.48 7.8 7.8 25.5 12.4 87 140 144 144 „ 40 166 I34.I 116.6 97.2 92.4 82.2 135 105 •79.8 61 44.5 7.4 175.6 18.5 14.5 10.5 14.7 3.6 8.7 10.7 4.3 5.9 7. 61 7. 3.6 20.1 2.Ì 2 61 35.7 21.7 88.24 62.50 86.43 7.1 7.6 22.3 9.6 9.9 70 80 145 145 „ 25 Lulömojo bei G. S. 150.2 120.2 107.4 87.5 81.4 75 122.3 94.5 71.2 53 40.1 7.2 158 17 15 9.7 14 8.1 8 10 3.5 4.7 7. 6 7. 3.5 19.5 60 33.3 23.3 90.29 75.93 ,79.31 7.1 7.6 23 93 10.6 57 92 146 146 45 152 128 110 90 82.5 75 123.8 96.6 73.3 56.5 39 6 157.3 17.5 15.8 9.9 14.5 3.8 7.8 9.4 4.1 5.6 7. 6, r. 7 7.3.3, r. 3.7 17.4 in 8,2 8.1 7.7 1.8 2.1 1.8 1.8 50.2 66 36.2 23.2 83.53 76.92 88 46 7.2 :■ 7 • 22.2 8.5 9.6 73 80 147 147 20 155.3 126 114.4 92.2 88 79 127.3 97.5 78 57 42 6 164 17 14.2 10.3 18 3.8 8.6 9.5 4 5 7. 5,6 ¡7. '3 ■ . 7. 8.4 18 56 5.6 5.4 50.5 60 35.1 20.5 93.33 62.50 92.59 7.3 7 23.5 9.5 10.5 60 88 148 149 150 148 „ 30 ,, 156.2 126.1 115.5 93.5 88 78.5 129.5 100 76.2 58.8 42 6.5 163.2 16.5 15.4 10 13.5 8 7.8 10 3.5 4.5 - 7. 6 20.2 18.2 18 508 65 36.1 22.1 87.88 76 86.57 ,■■'7:1 7.3 24 9.1 10.2 38 104 149 „ •25 „ 147.2 118.8 107.3 86.6 81.8 73.3 118 91 68.6 H l 39 6 155.9 16.6 14.5 10 18.4 3.4 8.5 9.5 4.2 5 7. 5.8 7. 3,8 100 62.8 63 36.5 22.5 85.23 70.37 85.71 :7.3 7.3 22.3 9.5 10 43 150 30 ” 148.2 119.4 107.2 85.7 81.7 75 120.9 95 72.3 56.2 39.5 6.1 156.2 17.6 15 -Vr.V 10 14 3,2 8.1 10 3 8 4.6 7. 6.2 7, 3.2