The Two-winged Flies 



315 



larvae squirm slowly around, feeding on diatoms and other microscopic water 



Fig. 430. Fig. 431. 



Fig. 430. — Larva of net-winged midge, Bibiocephala comstocki. At left, dorsal view; 

 at right, ventral view, oh/., antennae; /./>., lateral processes; t.g., trarheal gills; 

 s., sucker. (Natural length, | to i inch.) 



Fig. 431.— Cross-section of body of larva of net-winged midge, showing anatomical 

 details of sucker and other parts, /j., heart; al.c, aUmentar>- canal; /./>., lateral 

 process; v.c, ventral nerve-cord; r., rim of sucker; s., stopper of sucker; m.s.c, 

 muscles for retracting sucker and contracting body; /., tendon at end of muscles. 

 (Much enlarged.) 



organisms, and never suffering themselves to get into slow water. Trans- 

 planted from the highly aerated swift water of the 

 stream's center to the slow water of eddies or pools 

 along the bank, they die very soon. When ready 

 to pupate they gather in small patches, still keeping 

 in the swift water, and each changes into a curious 

 flattened, turtle-shaped, motionless, non-feeding pupa 

 (Fig. 4,32) which is safely glued to the rock face by 

 its under surface. The dorsal wall is thick and black, 

 and projecting from it at the broad front head end 

 is a i)air of breathing-organs, each composed of three 

 or four thin plate-like gills. When the fly is ready 

 to emerge the pupal skin splits longitudinally along the p,(, 432._Pupa, dorsal 

 back, and the delicate body pushes up through this aspect, of _net-winged 

 slit, and through the shallow swift water until the 

 wings can be outspread. All this is cjuickly done, 

 the fly being enchained by its long legs, which cling 

 to the pupal shell until it can lly away. But the 



midge, Bibiocephala 

 comstocki. Note re- 

 spiratory leaves on 

 dorsum of prothorax. 

 (Natural length, J inch.) 



