of BotANt. tlvii 



Jjfoeeed irregularly from any part of their surface without previous indica- 

 tion, and when their growth has been stopped for a time, either wholly by the 

 close of the season, or partially by a deficiency of nutriment at any particu- 

 lar spot, it will, on the return of favourable circumstances, be resumed at 

 the same point, if the growing extremities be uninjured. If during the 

 dead season, or at any other time, the growing extremity is cut off, dried up, 

 or otherwise injured, or stopped by a rock or other obstacle opposing ita 

 progress, lateral fibres will be formed on the still living portion ; thus en- 

 abling the root as a whole to diverge in any direction, and travel far and 

 wide when lured on by appropriate nutriment. 



208. This growth is not however by the successive formation of terminal 

 cells attaining at once their full size. The cells first formed on a fibre com- 

 mencing or renewing its growth, will often dry up and form a kind of ter- 

 minal cap, which is pushed on as cells are formed immediately under it ; 

 and the new cells, constituting a greater or lesser portion of the ends of the 

 fibres, remain some time in a growing state before they have attained their 

 full size. 



209. The roots of Exogens, when perennial, increase in thickness like 

 Btems by the addition of concentric layers, but these are usually much less 

 distinctly marked ; and in a large number of perennial Exogens and most 

 Endogens the roots are annual, perishing at the close of the season, fresh 

 adventitious roots springing from the stock when vegetation commences the 

 following season. 



210. The Stem, including its branches and appendages (leaves, floral 

 organs, etc.), grows in length by additions to its extremity, but a much 

 greater proportion of the extremity and branches remains in a growing and 

 expanding state for a much longer time than in the case of the root. At 

 the close of one season, leaf-buds or seeds are formed, each containing the 

 germ of a branch or young plant to be produced the following season. At 

 a very early stage of the development of these buds or seeds, a commence- 

 ment may be found of many of the leaves it is to bear ; and before a leaf 

 unfolds, every leaflet of which it is to consist, every lobe or tooth which is 

 to mark its margin, may often be traced in miniature, and thenceforth till 

 it attains its full size, the branch grows and expands in every part. In 

 some cases however the lower part of a branch and more rarely (e. g. in 

 Borne Meliaceee) the lower part of a compound leaf attains ita full size before 

 the young leaves or leaflets of the extremity are yet formed. 



211. The perennial stem, if exogenous (198), grows in thickness by the 

 addition every season of a new layer or ring of wood between the outermost 

 preceding layer and the inner surface of the bark, and by the formation of 

 a cew layer or ring of bark within the innermost preceding layer and out- 

 side the new ring of wood, thus forming a succession of concentric circles. 

 The sap elaborated by the leaves finds its way, in a manner not as yet abso- 

 lutely ascertained, into the cambium-region, a zone of tender thin-walled 

 cells connecting the wood with the bark, by the division and enlargement 

 of which new cells (190) are formed. These cells separate in layers, the 

 inner ones constituting the new ring of wood, and the outer ones the new 

 bark or liber. In most exogenous trees, in temperate climates, the seasons 

 of growth correspond with the years, and the rings of wood remain suffi- 

 ciently distinct to indicate the age of the tree ; but in many tropical and 

 cme evergreen trees, two or more rings of wood are formed in one year 



212. In endogenous perennial stems (199), the new wood or woody fibr* 



