MdVEMEXTS (IF I'lit iTi M'LASM IX CELL-CAVITIEf?. 35 



stuily it is apparent that the granulös which seem to be travelHng on the proto- 

 phi.siuic thread are covered by a delicate and transparent protoplasmic pellicle. 

 Thus, these granules imbedded in the substance of protoplasts have no independent 

 motion, but are pushed along by the spreading protoplasm. 



Each stream of protoplasm is shut off from its environment and limited by 

 a layer tougher than the rest. But this does not prevent the currents, with their 

 crowds of drifting granules, from changing their direction. In fact we have 

 only to follow for a short time the course of one such granular stream to remark 

 a continuous series of changes: a current from being in a straight line bends 

 suddenly to one side, it broadens and contracts again, now it runs close alongside 

 another channel, now breaks away once more, divides into two little arms, and 

 loses itself finally in the primordial utricle. On the other hand, fresh folds start 

 from the primordial utricle, sti-etch and grow until they have pushed across the 

 cell-cavity to the other side in the form of bands, or the protoplasm may be 

 drawn out into threads, which elongate until they encounter other similar strings 

 and form a junction with them. The same processes then that are observed in 

 free creeping protoplasts take place to some extent here. Imagine a protoplast 

 captured whilst on its travels — creeping along the level ground — and imprisoned 

 in a completely closed vessel; it would spread iteelf out over the inner surface 

 of the vessel, would branch and creep about and have just the same appearance 

 as the protoplasts, just described, which inhabit cell-cavities from their earliest 

 youth. This is but the converse of the power possessed by a protoplast set free 

 from its cell, which enables it to move, stretch out, and draw in its various parts, 

 and so to effect locomotion. 



Another motion, differing from the creeping, gliding, and streaming action 

 of protoplasts, manifests itself in the so-called swarming of gi-anules contained 

 in the protoplasm. It may be best observed in the cells of the genera Penimn 

 and Closterium,, both of which are shown in Plate I., figs, i, k, though 

 the same phenomenon is to be seen in many allied forms, living in lakes and 

 poiKls either singly or congregated in colonies, and remarkable for their bright 

 green colour. The above-mentioned genus Closterium includes delicate unicellular 

 forms having a curved or scimitar shape unusual in plants, whence one of its 

 species, in which the semi-lunar form is most striking, has been named Closterium 

 lunula. The cell-membrane in all these little water-plants is clear and quite 

 transparent. The greater part of the cell-contents consists of a dark-green 

 chlorophyll body longitudinally grooved; but the protoplasm which is visible in 

 the two sharply tapering ends of the cell-cavity is coloui-less, and embedded 

 within it is a swarm of microsomata. These granules or microsomata appear to 

 be in a most curious state of motion so long as the protoplast lives. They are 

 to be seen plainly within the limits of the tiny cavity, jumping up and down, 

 whirling, dancing, and rushing aViout without really changing their position. One 

 is I'eminded of the apparently purposeless journeyings to and fro within reach 

 of their homes of ants or bees, and the movement has been called not inaptly 



