398 



GOMPAEA TI VE A NA TOMY 



CHAP. 



The pedicellari;e of the Echinoiclea are always stalked, and three-, less frequently 

 two-, or four-, bladed. Two principal forms may be distinguished : seizing pedi- 



cellariae (Fig. 345 A and C) and glandular pedi 

 cellarise (Fig. 345 B and Fig. 346). 



a. The seizing pedicellariae. The form of tin- 

 blades varies greatly in details. They are some- 

 times long and slender (p. tridactylre, tetradactylse), 

 sometimes spoon-shaped and toothed (p. ophioce- 

 phalre, sen buccales, seu triphyllae), or in other 

 cases broadened out like leaves (p. trifoliate . 

 Each blade is always^ supported by a skeletal 

 piece, which determines its general shape and the 

 ^pi'cial form of its teeth, hooks, etc. The stalk 

 also is always supported by an axial calcareous 

 rod, which sometimes penetrates the whole of its 

 basal half (p. tridactyLe), sometimes only reaches 

 a short way into the base of the stalk. 



The tridactyle pedicellariae of Centroste- 

 phanus longispinus (Fig. 345 C) will serve to 

 illustrate the structure of the seizing pedicellariae. 

 The three slender blades are connected at their 

 bases, and on the sides turned to the axis of the 

 whole forceps, by three transverse adductor 

 muscles, each of which is attached on the inner 

 (axial) sides of two neighbouring blades. The 

 three muscles together form a triangle. These 

 adductor muscles are counteracted by opening 

 muscles, which run down on the outer sides of the 

 bases of the blades longitudinally. A nerve enters 

 each blade, running towards its tip, and innervat- 

 ing the musculature and epithelial sensory cells. 

 The inner surface of each blade is ciliated. Within 

 the stalk, the supporting calcareous rod reaches 

 Fio. 340. Organisation of a glan- only half way up, ending in a knob. The con- 

 dular pedicellaria of Sphserechinus tinuation of the calcareous rod is formed by an 

 granularis, section. 1, Distal tactile elagtic m wMch consists of modifie d connective 

 prominence ; 2, aperture of the gland 



of the forceps; 3, proximal tactile tissue, and is enveloped m a sheath of longitudinal 

 prominence; 4, adductor muscle; muscle til ires. This arrangement makes it possible 

 5, ski-letal piece of the forceps; G, epi- f or the distal portion of the stalk with the head 

 theliu.u of th, forceps; 7, cavity of to lieml in various directions, and even to bend 

 the gland of the forceps ; 8, epithelium . ,, , , ., , . ,. ,,,, 



of the same; 9, muscle layer of the "g ht back . u l' on the basal P ortlon - AUien tlie 

 forceps gland ; 10 and 11, opening muscles which bring about such movement are 

 muscles ; 12, nerve ; 13, calcareous rod relaxed, the distal part resumes the upright 



by means of the elastic pillar it 



in the stalk ; 14, aperture of the stalk 

 irland (lii) ; l.'j, epithelium of the gland. 

 (The distal tactile prominence here 

 represented is wanting in this species.) 



position 



contains. 



The adductor muscles of these pedicellarise 



consist of transversely striated muscle fibres ; 

 consequently these tridactyle pedicellariae are very active seizing organs. 



b. The glandular pedicellarise have been carefully investigated, up to the present 

 time, onlyin a small number of Echinoids (Spkcereckinus ijranidaris, Eclinm* aciitus, 

 E. melo, Dorocidaris papiUata, Strninjiifin; ii/i-ntim /iriihis, Ecliinocardium flavcscens), 

 but it is probable that in time they will be found more widely distributed. In 

 general structure they resemble tin- ordinary seizing pedicellarise possessing three 



