xlvii OUTLINES OF BOTANY. > 
is forrned towards the end of the stem, or irregularly mingled with the old. 
The stem consequently either only becomes more dense without increasing 
in thickness, or only increases by gradual distention, which is never very 
considerable. It affords therefore no certain criterion for judging of the age 
of the tree. 
213. Flowers have generally all their parts formed, or indicated by pro- 
tuberances or growing cells at a very early stage of the bud. These parts 
are then usually more regularly placed than in the fully developed flower. 
Parts which afterwards unite are then distinct, many are present in this 
rudimentary state which are never further developed, and parts which are 
afterwards very unequal or dissimilar are perfectly alike at this early period. 
On this account flowers in this very early stage are supposed by some mo- 
dern botanists to be more normal, that is, more in conformity to a supposed 
type; and the study of the early formation and growth of the floral organs, 
called Organogenesis, has been considered essential for the correct apprecia- 
tion of the affinities of plants. In some cases, however, it would appear 
that modifications of development, not to be detected in the very young 
bud, are yet of great importance in the distinction of large groups of plants, 
and that Organogenesis, although it may often assist in clearing upa doubt- 
ful point of affinity, cannot nevertheless be exclusively relied on in estimat- 
ing the real value of peculiarities of structure. : 
214. The flower is considered as a bud ( flower-bud, alabastrum) until the 
perianth expands, the period of flowering (anthesis) is that which elapses 
from the first expanding of the perianth, till the pistil is set or begins to 
enlarge, or, when it does not set, until the stamens and pistil wither or fall. 
After that, the enlarged ovary takes the name of young fruit. 
215. At the close of the season of growth, at the same time as the leaf- 
buds or seeds are formed containing the germ of future branches or plants, 
many plants form also, at or near the bud or seed, large deposits, chiefly of 
starch. In many cases—such as the tubers of a potato or other rootstock, 
the scales or thickened base of a bulb, the albumen or the thick cotyledons 
of a seed—this deposit appears to be a store of nutriment, which is partially . 
absorbed by the young branch or plant during its first stage of growth, be- 
fore the roots are sufficiently developed to supply it from without. In some 
cases, however, such as the fleshy thickening of some stems or peduncles, 
the pericarps of fruit which perish long before germination (the first growth 
of the seed), neither the use nor the cause of these deposits hag as yet been 
clearly explained. 
& 
§ 4, Functions of the Organs. 
216. The functions of the root are:—-1. To fix the plant in or to the soil 
or other substance on which it grows. 2. To absorb nourishment from the 
soil, water, or air, into which the fibres have penetrated (or from other 
plants in the case ‘of parasites), and to transmit it rapidly to the stem. The 
absorption takes place through the young growing extremities of the fibres, 
and through a peculiar kind of hairs or absorbing organs which are formed 
at or near those growing extremities. The transmission to the stem is 
through the tissues of the root itself. The nutriment absorbed consists 
chiefly of carbonic acid and nitrogen or nitrogenous compounds dissolved 
in water. 8. In some cases roots secrete or exude small quantities of mutter 
in a manner and with a purpose not satisfactorily ascertained. 
217. The Stem and its branches support the leaves, flowers, and fruit, 
