20 PLAN OF VEGETATION. 



below the flower, become simple bracts, still retaining every essential mark of a 

 leaf. Next, by an easy gradation, they appear in the sepals of the calyx, the otiter 

 envelope of the flower, still essentially the same. Then, by a transition rather 

 more abrupt, they pass into the delicate and highly colored petals of the corolla, 

 retaining still the form and organization of the leaf. To the petals next succeed- 

 those slender organs called stamens, known to be undeveloped leaves from the 

 fact of their being often converted into petals. Lastly, those two central organs, 

 termed pistils, are each the result of the infolding of a leaf, the midrib and the 

 united edges being yet discernible. 



26. ^Tien the flower has accomplished its brief but impor- 

 tant office in reproduction, its deciduous parts fall away, and 

 the remaining energies of the plant are directed to the devel- 

 opment of the germ into the perfect fruit. Tliis being accom- 

 pHshed, the whole plant speedily perishes, if it be an amiual, 

 or, if not, it continues to put forth new branches, from other 

 growing points, wlrich, in thek twcn, are to be terminated by 

 flowers and fruit the following year. 



a. Such is a very brief outline of the plan of vegetation, or the process of nature 

 in the germination, growth, fructification, and decay of plants. And it is impos- 

 sible to contemplate it, without admiring that simplicity of design in the midst of 

 the most diversified results which every where characterizes the works of God. 

 Every part of the vegetable fabric may be tdtimatcly traced to one elementary 

 organic fonn, of which the leaf is the type. The lamina, or blade, in various 

 stages of transition, constitutes the several organs of fructification, while the 

 united bases of all the leaves constitute the axis itself. 



27. When we more minutely examine the internal organization of plants, we 

 find their different parts, however various in appearance, all constnicted of the 

 same materials. The leaf, for example, consists of a foot-stalk prolonged into a 

 framework of veins, a fleshy substance filling up the interstices, and a cuticle, or 

 skin, covering the whole. Now this framework is composed of woody fibre, aque- 

 ducts, and air-vessels, all of which may be traced through the foot-stalk iuto the 

 stem, where they equally exist, — this part of the leaf being only a prolongation 

 of the stem. The fleshy substance is of the same nature mth the pith of the 

 stem, or the pulp of the fruit ; and, finally, the cuticle con*esponds exactly to the 

 thin covering of the newly formed branches, of the various parts of the flower, 

 and even of the roots. 



a. These several kinds of structure, of which the various 

 organs are composed, are called the elementary tissues. Tliey 

 are five in number ; — cellular tissue, woody tissue, vasiform tissue, 

 vascular tissue, and laticiferous tissue. 



28. The chemical basis of the vegetable tissues is proved by 



