INTERCELLULAR SPACES. 



99 



system. To this system should perhaps be referred also numer- 

 ous cases of pigment-cells, like those in the roots of madder and 

 rhubarb ; also the peculiar bodies seen in the periphery of the 

 pith of Sambucus, and the milk-sacs of some species of Acer. 



297. Mucilage-cells are larger than the surrounding cells, and 

 sometimes closely resemble intercellular spaces filled with muci- 

 laginous matter. In some instances the mucilage is distinctly 

 referable to changes in the contents of the cell, in others to a 

 disorganization of a portion of the wall, while in still others 

 both sources may be recognized. 1 



298. Cells containing tannin in very large amount are fre- 

 quently met with, but they do not call for special remark. 



299. Resins and the like are found not only in single cells 

 but also in spaces formed by the breaking down of the interven- 

 ing walls of cell-clusters of various shapes ; hence various forms 

 of receptacles for these substances may be looked for. 



INTERCELLULAR SPACES. 



300. The walls of cells still capable of division are generally in 

 unbroken contact ; but as differentiation goes on they may be- 

 come separated more or 



less by unequal growth 

 or by a breaking down 

 of intermediate cells. 2 

 The intercellular spaces 

 thus formed may be mere 

 chinks, or they may be- 

 come chambers of large 

 size. They may con- 

 tain merely air, or air 

 and water}- sap, or most 

 of the matters described 

 in the previous sections. 

 Air-spaces in the 

 looser tissues of plants 

 are general^ so con- 8l 



1 The details of this subject can be found in Prings. Jahrb., v. 161 (Frank), 

 and Annales des Sc. nat., ser. 6, tome i. p. 176 (Prillieux). 



8 The first mode of development of intercellular spaces has been termed 

 schizogenic, the latter lytiycnic ; moreover, a distinction may be made between 

 those intercellular spaces which are formed when the tissues begin to differen- 

 tiate, protoiiciifi; and tho-e formed in older tissues, hysteroyenic. 



FIG. 81. Transverse section through th stem of Etatiue Aisiuastrum, showing large 

 intercellular spaces. /(, containing ;ur. (Reinke.) 



