REPORT ON THE RADIOLARIA. 1529 



The minute structure of the parapyliB (or " Neben-OefFnungen") has been described 

 already very accurately by Hertwig (loc. cit., p. 95, Taf. x. figs. 1-T1&). The two 

 membranes of the capsule are in direct and immediate connection on each parapyle. 

 The strong outer membrane arises in the form of a ring or of a short cylindrical tubule 

 (coUare paraboscidis or " Oeffnungshals "), is then reflected . inwards, and connected at 

 the bottom of the cjdindi'ical cavity with the delicate inner membrane. From this 

 connective ring arises a short conical or cylindrical tubule, which we call shortly the 

 "paraboscis." According to Hertwig (who calls it " Oefi'nungskegel") the paraboscis is 

 a direct prolongation of the inner membrane only. My own observations have led 

 me to the opinion, that the paraboscis of each j^arapyle is a direct prolongation of the 

 outer membrane (similarly to the larger proboscis of the astropyle), and that the basal 

 connective ring is, therefore, the inner opening of the paraboscis, through which the 

 entosarc enters, being protruded through its outer circular opening. Usually the 

 paraboscis of each parapyle is only a short cylinder, arising by a conical base ; but 

 sometimes, especially in some Aulosphserida and Sagosph^erida, it is prolonged into a 

 slender tubule, nearly as long as the radius of the central capsule. It has been already 

 figured by Hertwig (loc. cit., Taf. x. figs. 6—8). It seems, therefore, that the 

 paraboscis of the accessory openings is developed in a way similar to the proboscis of 

 the main-opening, and that the chief difference between the two is indicated by the 

 large radiate operculum of the latter. 



The cavity of the endocapsa, or the spheroidal space enclosed by the inner 

 membrane of the central capsule, is filled up in its central part by the big nucleus, in 

 its peripheral part by the endoplasm, or by the internal protoplasm, which is in com- 

 munication with the outer or extracapsular protoplasm by the openings of that capsule. 

 The endoplasm, or the intracapsular sarcode, is rather opaque, finely granulated, and 

 usually filled up by numerous small clear spherules of equal size, which are more or 

 less regularly arranged and equidistant. These spherules have usually a diameter of 

 O'Ol to 0"015, rarely more than 0'02 or less than 0"005 mm. ; their size is generally 

 equal in each capsule. They have been abeady described and figured in my Monograph, 

 as " wasserhelle kugelige Bliischen," and are probabl)^ vacuoles or small vesicles filled up 

 by jelly or by a clear fluid. Usually each vesicle contains a small dark granule of fat, 

 or a group of such granules connected together ; and in these Hertwig observed a 

 vibrating molecular motion. The central capsule of many PniEODARiA contains, besides 

 the vacuoles, often granules of pigment (usually red or yellow) and sometimes numerous 

 groups of small crystals, placed mainly beyond the operculum of the astropyle (PL 127, 

 figs. 4—7). The outer layer of the endoplasm, placed immediately beyond the 

 endocapsa, often exhibits a fine striation, as if composed of delicate fibrillse. This 

 fibrillar striation is usually most distinct on the base of the openings, where also the 

 endoplasm becomes stained very iutensely by carmine. The astropyle as well as 



(ZOOL. CHALL. EXP. — PART XI-. — 1886.) Kr 192 



