808 THE STRUCTURE OF FLOWERS. 



anastomose with tlie dorsal cord ; these, together with the 

 greatly thickened cellular margins now constituting the 

 placentas which snj)ply the conducting tissue for the pollen- 

 tubes, all show a form of hypertrophy in the edges of the 

 carpellary leaves, a condition of things widely different from 

 the usually thin and more or less impovei-islied margins of . 

 true leaves. 



If we may recognize a fibro- vascular cord as the " funda- 

 mental unit," and as a basis for the construction of any 

 organ, and moreover as also containing within it poten- 

 tially the power of evolving any number of similar organs by 

 repeatedly branching; then, when hypertrophy affects such a 

 " unit," it may branch once, twice, or any number of times, 

 when each branch passing off to tbe surface can lay the founda- 

 tion of a repetition of the organ from which it takes its rise.* 

 Attention has already been called to this origin of the 

 numerous stamens of the Malvacece, and how certain forms 

 of double flowers originate from the multi- 

 plication of the petaline cords, each branch 

 of which issues in a distinct petal, as in 

 Snowdrops. 



Similai'ly for cai'pels and ovules, the 

 process of multiplication can be witnessed 

 both normally and abnormally. On the 

 Fig. 88.— Multifold carpels one hand, that of carpels into five groups 



with ovullferous margins . i ,i 



from a malformed rrim- occurs m the Hollyhock through the 



chorisis of the original carpellary cord ; on 



the other. Fig. 88 represents a multifold carpel of a Pi'im- 



rose, due, there is no doubt, to a like chorisis of the cords 



belonging to one individual carpel. 



Similarly for ovules, while two only are normally charac- 



* I must again remind the reader that I am here speaking meta- 

 phorically ; as we do not know wherein this potentiality really lies, but 

 can only describe what is actually visible. 



