FOLIAGE AND SCALE LEAVES. 65 
vascular bundles or veins, which, as we have seen, may be dis- 
tributed in various ways. 
The epidermis, which can be conveniently examined both in 
sections and by peeling off pieces, is composed, as seen under the 
microscope, of flattened cells, the boundaries between which may 
be straight or curved (fig. 7, F). The outer walls of the cells are 
covered by a cuticle, and besides this, especially in leathery leaves 
like those of the holly, are often much thickened and euticularized, 
i.e., their cellulose is more or less completely converted into 
cutin (cf. p. 30). The prickles upon many leaves owe their 
firmness to the thickness of the epidermic cell-walls. Protoplasm 
and cell-sap are contained in the cells, but, as a general rule, 
chlorophyll granules are absent. In the under epidermis of a 
leaf, and often to a less extent in the upper epidermis as well, a 
large number of minute openings are found. These stomata 
(fig. 7, G) are intercellular spaces formed as small splits between 
adjacent cells.) Each stoma is bounded by two kidney-shaped 
guard-cells, the concavities of which face one another. These two 
cells not only differ in shape from the ordinary epidermic cells, 
but also in the possession of chlorophyll granules. In many 
cases some of the neighbouring cells are of different character 
from those making up most of the epidermis. Stomata are not 
confined to the foliage leaves, but occur with more or less fre- 
quency in the epidermis of all organs except roots. They are 
also absent in entirely submerged leaves and stems, while the 
stomata of floating leaves only occur in the upper epidermis. 
The hair structures, developed from the epidermis of many 
leaves, present the same variety as in the case of the stem 
(p. 28). The structure of the stinging hairs of the nettle will 
be described further on (p. 72). 
The ground-tissue (fig. 7, G) or mesophyll, like the epidermis, 
is not constructed in exactly the same manner above and below. 
An ordinary horizontal foliage leaf is, in fact, b¢facial in struc- 
ture. The upper part of the mesophyll is composed of one or 
more layers of cells elongated at right angles to the surface, 
and termed from their appearance palisade parenchyma. Their 
cellulose walls are thin, and they contain a great many chlorophyll 
granules. The lower part of the mesophyll is made up of cells 
differing from the preceding in their very irregular shape. 
This spongy parenchyma is traversed in all directions by inter- 
cellular spaces which communicate with one another, and, by 
means of the stomata, with the exterior. Under each stoma 
there is a specially large intercellular space known as a respira- 
1 The stomata of the white lily are favourable objects for study. They are 
large enough to be seen with a lens. 
ER 
