MUSEUM OF COMPARATIVE ZOOLOGY. Zz 
Concerning the space into which the free end of the cirrus projects I 
can only conclude, from comparison with other cases where a flame cell 
occurs, that this must represent the lumen of an excretory tubule. I 
have not, however, been able in any instance to trace an individual 
tubule to any considerable distance, or until it opens into any other 
organ. One thing seems fairly certain, there is no morphological differ- 
ence between those elongated clear spaces into which the cirri project 
and the elongated vacuolated cells to which reference has already been 
made. I am therefore inclined to regard it as probable that they are 
one and the same thing. The vacuolated cells are developed by the 
breaking down of the plasma of the elongated cells of the young stalk. 
Before the metamorphosis is completed, one finds cells filled with clear 
contents, in which lie scattered granules (Plate IL. Fig. 15, cl. tb. left). 
Finally, even these seem to disappear (Fig. 15, cl. tb. right). Since 
the tubules agree in size with these elongated, later vacuolated cells, 
I conclude that their lumina are intracellular. Since the so called 
vacuolated cells —many of which at least are, according to my view, 
tubules — pass uninterruptedly from one segment to the next through 
the central opening of the septa, there may easily exist continuous 
tubules running from the basal segments into the calyx. 
The only excretory tubules which have been heretofore mentioned as 
occurring in Endoprocta are the pair which lie in the calyx and open 
into the atrium between mouth and rectum. Farther on, I shall 
have occasion to inquire into the probable significance of the facts here 
recorded. 
In specimens of Urnatella gathered in the fall and examined while 
living, I found the basal segments filled with yolk granules (Plate I. 
Fig. 4). Even in stocks collected in July, the basal segmeuts contained 
a greater or less amount of yolk. In passing from the distal towards 
the proximal end of the stalk, one can trace the development of this 
yolk, and since this is a matter of some general interest I have paid a 
little attention to it. 
If we examine one of the middle segments of a stem whose basal 
segment is full of large yolk spherules, we shall find reserve stuff form- 
ing in some of the elongated cells. It appears as a fine granulation 
throughout the whole cell, except immediately surrounding the nucleus 
(Plate II. Fig. 13). Not all of the cells appear thus granular, for 
others are at this stage vacuolated. Still later (Fig. 14) many of 
the fine granules appear to have fused into larger ones, and these are 
separated by clear spaces. The cells have enlarged very greatly (those 
