a 



Fig. 862. Spiral path followed by swim 



— ■ ■'ifer. as seen in D' " '' ' 



(After Jennings.; 



ming rotifer, as seen in Diurella tiKris 

 MUller. -■- - - 



FRESH-WATER BIOLOGY 



have filled it. The contractions take 

 place frequently, so that a large amount 

 of fluid is expelled. 



Besides its organs for the nutritive 

 processes, the rotifer has of course or- 

 gans for causing and controlling move- 

 ments. The chief organ of locomotion 

 is the cihated corona. By its aid the 

 rotifer may either creep along over 

 surfaces, or swim freely through the 

 water. When swimming freely the ro- 

 ^ tifer usually revolves on its long axis, 

 so as to follow a spiral course (Fig. 862). 

 Changes of form and movements of 

 parts of the body are brought about 

 i by many slender muscles (Fig. 857, C, 



I ms). These muscles are either applied 



closely to the body wall or pass from 

 the body wall through the body cavity 

 to other parts. The muscles are often 

 striated. 



An important organ for producing or 

 guiding motion is found in the foot 

 with its toes. The foot of the notom- 

 matid is usually short; it is nothing 

 more than that part of the body be- 

 hind the cloaca. It usually tapers 

 somewhat, but is not clearly marked 

 off from the rest of the body, as it is 

 in some rotifers of other families. At 

 its posterior end it bears side by side 

 the tapering, pointed toes, which are 

 usually small in the Notommatidae. 

 The toes serve as a steering apparatus 

 in swimming, and as points of sup- 

 port and attachment in creeping. For 

 attachment the toes are supplied with 



