![](//upload.wikimedia.org/wikipedia/commons/d/d7/EB1911_-_Fibres_-_Fig._7.jpg) |
![](//upload.wikimedia.org/wikipedia/commons/b/b7/EB1911_-_Fibres_-_Fig._8.jpg) |
Fig. 7.—JUTE. Bast bundles. Section of bast region, × 235, showing agglomerated bundles of bast fibre, each bundle representing a spinning unit or filament. |
Fig. 8.—MAIZE STEM. Zea mais. Fibro-vascular bundle in section. × 110, typical of monocotyledonous structure. |
![](//upload.wikimedia.org/wikipedia/commons/9/90/EB1911_-_Fibres_-_Fig._9.jpg) |
![](//upload.wikimedia.org/wikipedia/commons/c/cb/EB1911_-_Fibres_-_Fig._10.jpg) |
Fig. 9.—COTTON. FLAX. RAMIE. JUTE. Ultimate fibres in the length, × 110. Portions selected to show typical structural characteristics. |
Fig. 10.—COTTON. FLAX. RAMIE. JUTE. Ultimate fibres—transverse section, × 110. Note similarity of ramie to cotton and jute to flax. |
![](//upload.wikimedia.org/wikipedia/commons/2/27/EB1911_-_Fibres_-_Fig._11.jpg) |
![](//upload.wikimedia.org/wikipedia/commons/8/85/EB1911_-_Fibres_-_Fig._12.jpg) |
Fig. 11.—ESPARTO. Cellulose. Ultimate fibres of paper making pulp. Typical fusiform bast fibres. × 65. |
Fig. 12.—SECTION OF HAND-MADE PAPER. × 110. Ultimate component fibres disposed in every plane. |