AND WHAT THET DO. 89 



circulation of the two kinds of sap ; and no crude sap exists separately in any 

 part of the plant. Even in the root, where it enters, this mingles at once with 

 some elaborated sap already there, and as it rises through the stem they mix more 

 and more. But whatever is not assimilated must be, before the plant can use it ; 

 that which has been assimilated, can be used wherever it may be. 



274. The elaborated sap, like the crude, is contained in the cavities, cells, or 

 short closed tubes which make up the fabric of the plant, and circulates or passes 

 from one to another through the partitions. How it passes through, and what at- 

 tracts it where it is wanted, we do not very Avell know. And what we do know 

 could not be well explained to the young beginner, for whom this book is written. 

 The same may be said about 



275. Gl'OWtll. Growth is the increase of a living thintj in size and substance. 

 In plants it is done by the increase in the number of the cells (or cavities divided 

 off by partitions) which make up the fabric, and by the increase of each in size to 

 a certain extent. That is, growth is the building-up of the plant, or of additions to 

 it, out of vegetable matter. And this vegetable matter was made in the leaves 

 (either of the same plant or of its parent), out of mineral matter drawn from the 

 earth and the air, — was mostly made of air and water. For the earthy part 

 which is left behind when we burn a plant (and so turn all the vegetable matter 

 back into air and vapor of water again) forms only a very small part of its bulk. 



276. If the pupil would learn more particularly how growth takes place, and 

 how plants change mineral into vegetable mattei*, they must study three or four les- 

 sons of the Lessons in Botany already referred to. But our short and simple 

 account of the plant in action, i. e. vegetating, is sufficient for answering the main 

 question, viz. : — 



277. What PlillltS do. Vegetation consists essentially of two things, namely, as- 

 similation unA groivth. In assimilation ])lants are changing mineral matter — air, 

 water, and a little earth — into vegetable matter; and in growth this vegetable 

 matter is wrought into all manner of beautiful and useful forms. This is the work 

 which the vast variety and infinite number of plants over all the earth are busily 

 engaged in. It is their peculiar work ; for only plants can live upon (or assimilate) 

 mineral matter ; they only have the power of changing air, water, and earth into 

 organic matter. 



278. What is the effect of this action of plants, especially upon the air we 

 breathe ? And what becomes of all the vast amount of vegetable matter which 



