I 
THK OKTCJI-N" OF TIIK BROODS. 23 
case, tho Cicada would Innc n|)|)(>ar(Ml (^vcrvwluM-c over its ran;i;<' in l lie 
saino year and j)r()l)al)l\ at about t he same t iine. In t he lon<i; coui'sc of 
ages, with the conseciuent important chanii-es i:;eo<^rai)hic. chmatic, 
and t()j)oii:raj)hi(' this orii^inal brood Ix'came ^rachially broken u|) into 
nuiny broods, with constantly incnMisini^ (nv(M-<z:(Mice in the dates of 
appearance, so that at \\\o present time nearly e\-ei"y yeai- has its 
])r()()d, or l)roods, each of which is limitcMl, as a rule, to well-defined 
districts, and each r(Mi|)p(\irinii- at the |)r()per intervals with absolute 
reii;ulai'ity. Of th(> upward of twenty broods which ha\'e been dill'er- 
entiated, most of them have Ixhmi carefully studied, chronological 
records collected, and tlie limits of distribution fairly well determined. 
For conveni(Mice of refercMice, these broods have been designated by 
Koman numerals, as Brood VI, Brood XXVI, etc. 
The origin of distinct broods m an insect possessing as long a 
developing period as the one under discussion is not difficult of expla- 
nation. It is a well-knoA\-n phenomenon in connection with insect life 
that, whatever may ])e the period of development of a species, certain 
individuals will often, for some reason or other, such as insufficient 
or unsuitable food, unfavorable temperature, or other conditions, be 
delayed or retarded, while others, for reasons the converse of the last, 
namely, conditions exceptionally favorable, will develop more rapidly 
or will ])e accelerated and appear earlier. Therefore, under the former 
conditions we have a longer and under the latter conditions a shorter 
life period. 
This is true to a slight degree at the present time of the periodical 
Cicada, and especially with the larger broods has it been noticed that 
scattering individuals appear the year before and others the year after 
the great brood year. It is not difficult to imagine, therefore, that 
under exceptional conditions some of the earlier appearing individuals 
or the later ones may occur in sufficient numbers to establish a w^ell- 
marked peculiarity in this direction and form a new brood appearing a 
year earlier or a yeariater than the original one. If in the long course 
of years some accident should happen to the parent brood in that 
portion of its range the derivative brood might be left to hold the 
territory alone or to become the predominant swarm. 
This explanation is supported also by the fact that it often happens 
that the broods of two successive years occupy contiguous territory, 
as, for example, the 13-year Brood XXII, which last appeared in 1897, 
is distributed between Vicksburg and New Orleans, or just south of 
the 13-year brood which appeared in 1898. It is reasonable to infer, 
therefore, that Brood XXI I is sim[)ly a strong, well-established colony 
of accelerated individuals from the southern end of Brood XXITI, 
with a 13-year period terminating one year earlier than that of the 
parent brood. The conditions w^hich led to the emergence of the 
insect below \'icksburg in twelve years some time in the remote past 
