136 CILIARY MOVEMENT. [BOOK i. 



find other kinds of movement, such as a to and fro movement, 

 equally rapid in both directions, a cork-screw movement, a simple 

 undulatory movement, and many others. In each case the kind of 

 movement seems adapted to secure a special end. Thus even in 

 the mammal while the one-sided blow of the cilia of the epithelial 

 cells secures a How of fluid over the epithelium, the tail of the 

 spermatozoon, which is practically a single cilium, by moving to 

 and iro in an undulatory fashion drives the head of the sperma- 

 tozoon onwards in a straight line, like a boat driven by a single 

 oar worked at the stern. 



Why and exactly how the cilium of the epithelial cells bends 

 swiftly and straightens slowly, always acting in the same direction, 

 is a problem difficult at present to answer fully. Some have thought 

 that the body of the cell is contractile, or contains contractile 

 mechanisms pulling upon the cilia, which are thus simple passive 

 puppets in the hands of the cells. But there is no satisfactory 

 evidence for such a view. On the w r hole the evidence is in favour 

 of the view that the action is carried out by the cilium itself, tha^? 

 the bending is a contraction of the. cilium, and that the straight- j 

 enmg corresponds to the relaxation of a muscular fibre. But even 

 then the exact manner in which* the contraction bends and the 

 relaxation straightens the filafnent is not fully explained. We 

 have no positive evidence that a longitudinal half, the inside we 

 might say, of the filament "is contractile, and the other half, the 

 outside, elastic, a supposition which has been made to explain the 

 bending and straightening. In fact no adequate explanation of 

 the matter has as yet been given, and it is really only on general 

 grounds we conclude that the action is an effect of contractility. 



In the vertebrate' animal, cilia are, so far as we know, wholly 

 independent of the nervous system, and their movement is prob- 

 ably ceaseless. In such animals however as Infusoria, Hydiozoa, 

 &c. the movements in a ciliary tract may often be seen to stop and 

 to go on again, to be now fast now slow, according to the needs 

 of the economy, and, as it almost seems, according to the will of 

 the creature ; indeed in some of these animals the ciliary move- 

 ments are clearly under the influence of the nervous system. 



Observations with galvanic currents, constant and interrupted, 

 have not led to any satisfactory results, and, so far as we know at 

 present, ciliary action is most affected by changes of temperature 

 and chemical media. Moderate heat quickens the movements, but 

 a rise of temperature beyond a certain limit (about 40C. in the case 

 of the pharyngeal membrane of the frog) becomes injurious; cold 

 retards. Very dilute alkalis are favourable, acids are injurious. 

 An excess of carbonic acid or an absence of oxygen diminishes or 

 arrests the movements, either temporarily or permanently, accord- 

 ing to the length of the exposure. Chloroform or ether in slight 

 doses diminishes or suspends the action temporarily, in excess 

 kills and disorganises the cells. 



