24 The Structure and Special Physiology of Insects 



m-^ 



to be innervated by long nerves running from the thorax. The thoracic 

 ganglia may fuse to form one, and in extreme cases all the abdominal and 

 thoracic ganglia may be fused into one large mid- 

 thoracic center. 



In tracing the development of the nervous 

 svstem during the ontogeny of one of the s])ccial- 

 ized insects, the changes from generalized condi- 

 tion, i.e., presence of numerous distinct ganglia 

 segmentally disposed, shown in the newly hatched 



Fig. 



48. Fig 49. 



Fig. 48. — Part of sympathetic nervous system of larva of harlequin-fly, Chironomns 

 dorsalis. oes., oesophagus; /.,?., frontal ganglion; r.n., recurrent nerve; d.v., dorsal 

 vessel; n*, nerve passing from brain to frontal ganglion (Newport's fourth nerve); 

 br., brain; rn., point of division of recurrent ner\'e; Ir., trachea;; pg., paired ganglia; 

 d.v.n., nerve of dorsal vessel; d.v.g., ganglia of dorsal vessel; g.n., gastric nerve 

 to cardiic chamber. The course of the recurrent nerve beneath the dorsal vessel is 

 dotted. (After Miall and Hammond; greatly magnified.) 



Fig. 49. — Stages in the development of the nervous system of the honey-bee, A pis melli- 

 fica; I showing the ventral nerve-cord in the youngest larval stage, and 7 the system 

 in the adult, (.•\fter Brandt; much enlarged.) 



larva, to specialized condition, i.e., extreme concentration and cephaiization, 

 that is, migration forward and fusion of the ganglia, shown in the adult, 

 are readily followed (Figs. 40 and 50). 



The special senses of insects and the sense-organs are of particular inter- 

 est because of the marked unusualness of the character of the specialization 

 of both the organs and senses, as compared with the more familiar condi- 

 tions of the corresponding organs and functions of our body. The world 

 is known to animals only by the impressions made by it on the sense-organs, 



