424 SECOND PART. — MFCETOZOA. 



become loss frequent, most of the swarm-cells have the creeping form in which ilicy arc 

 without cilia, and many have increased in size and contain single large strongly 



refringejit granules. Then they approach close lo one another in groups com- 

 posed of two or more and again separate, till at length two or three are seen to come 

 into close contact with one another and become fused together into a single body, 

 the young plasmodium. This body exercises an attraction in a way not yet 

 explained upon other swarm-cells of the same species, and they attach themselves one 

 by one to its surface and coalesce with it. The newly formed plasmodium is 

 distinguished by its greater size from the swarm cells without cilia, while it exhibits 

 essentially the same movements and changes of shape. 



The plasmodia when once formed by the coalescence of the swarm-cells begin 

 to increase in size, and as they grow assume the form usually of branched strands, 

 their dimensions far exceeding those of the swarm-cells (Fig. 183, 12, and Fig. 185). 

 The latter is especially the case in some of the Physareae (Calcareae of Rostafmski) ; 

 the stouter branches may in these species even exceed the thickness of a strong bristle, 

 and the plasmodium in the form of a copiously branched reticulated or frill-like 

 expansion covers surfaces varying in extent from an inch to a foot. This is the case 

 in Fuligo varians (Aethalium septicum of authors), Leocarpus vernicosus, Didymium 

 Serpula and D. praecox and Diachea elegans. Other species of Physareae as 

 Chondrioderma difforme and Didymium leucopus, Fr. have usually much smaller 

 plasmodia, just large enough to be clearly seen with the naked eye or invisible to it, 

 and this is the case with all the other forms which have been hitherto examined not 

 belonging to the Physareae. 



The plasmodia of the Physareae if sufficiently supplied with water spread over 

 the surface of the substratum, usually decaying parts of plants, in the form of veins and 

 net-works of veins which have been well known since Micheli's time and especially from 

 Fries' excellent descriptions, and fromtheirmesenlerydike appearance have been termed 

 Mesentericae. As they spread also readily on the microscopic slide, their structure 

 and conformation have been specially investigated (Figs. 184, 185). They are chiefly 

 composed of a soft protoplasm of the consistence of cream, which may be readily 

 spread out into a shapeless smear and is usually colourless but sometimes yellow, as 

 in Fuligo, Leocarpus vernicosus, and Didymium Serpula, or a reddish yellow as in 

 Physarum psittacinum. The microscope enables us to distinguish in them a colour- 

 less homogeneous slightly turbid fundamental hyaloplasm which usually appears 

 distinct as a bounding layer of varying breadth, and a granular protoplasm which 

 forms the chief mass of the plasmodium. Vacuoles are formed not unfrequcntly in 

 the granular plasm and sometimes also in the hyaloplasm, some of which alternately 

 disappear and reappear while others are more stable. The granules are more or less 

 numerous in different species and individuals, but are always present in sufficient 

 quantities to make the great mass of the plasmodium highly turbid, and in the stouter 

 branches of some species (Fuligo) quite opaque. The composition of the granules 

 is in some cases not precisely determinable; in others they consist of calcium 

 carbonate. These granules of lime form the larger part of the granular mass in the 

 Physareae, where they are spherical with dark contours, glistening, and of tolerably 

 uniform size. Where the yellow colouring matter occurs it generally accompanies 

 the granules of lime, partly appearing as a thin coaling on the single granules, partly 



