359 



T. laternae in Platopbrys laternae T. rbamdiae in Rbamdia quelen, 



T. leucisci in roach Brazil 



T. limandae in Limanda 'plates- T. saccobranchi in Saccobranchus 



soides fossilis, Ceylon 



T. macrodonis in Macrodon mala- T. scardinii in Scardinius 



baricus, Brazil erythrophthalmus 



T. phoxim in Pboxinus laevis, T . scyllii in Scyllium canicula 



minnow and S. stellar e, dog-fish 



T. percae in Perca fluviatilis T. soleae (Fig. 112) in Solea 

 T. platessae in Platessa vulgaris, vulgaris, sole 



plaice T. squalii in Squalius cephalus, 

 T. remaki in Esox Indus, pike chub 



T. rajae in Raja punctata, etc., T. tincae in Tinea tinea, tench 



ray 



In Indian fish : Ophiocephalus striatus, Macrones seenghala, 

 M. tengara, Trichogaster fasciatus. 



In Singhalese fish : Macrones cavasius and Gobius ginris. 



In Nile fish : The noke (Mugil), the dabib (Polypterus), the 

 bagara (Bageus bagard\ the gargur (lynodontis schal). 



TRYPANOSOMATA OF BIRDS 



1. T. avium (Laveran). Occurs in the owl 

 (Syrnium alucd). 33-45^ long (flagellum included). 

 The undulating membrane is well-developed, and has 

 several folds. The posterior extremity is pointed 

 (Fig. 112). 



2. T. -johnstoni (Button and Todd). In the 

 blood of Estrelda estrelda in Gambia. It resembles a 

 spirochaete in appearance. There is no free flagellum. 

 36-38^ long, by i "4- 1*6^ broad. 



3. T. paddae (Laveran and Mesnil). In the 

 blood of Padda oryzivora (Java sparrow). 30-40^ 

 long, by 5-7^ broad. Posterior end very pointed. 

 Undulating membrane narrow and folded, but difficult 

 to stain. Division takes place longitudinally. Patho- 

 genic (?). 



