359 
P. laternae in Platophrys laternae 
P. leucisci in roach. 
7". limandae in Limanda plates- 
soides 
P. macrodonis in MacrodGn mala- 
baricus, Brazil 
P. phoxini in Phoxinus laevis , 
minnow 
P. percae in Perea fluviatilis 
P. platessae in Platessa vulgaris, 
plaice 
P. remaki in Esox lucius, pike 
7". rajae in Raja punctata , etc., 
ray 
P. rhamdiae in Rhamdia quelen , 
Brazil 
P. saccobranchi in Saccobranchus 
fossilis , Ceylon 
T. scardinii in Scardinius 
ery throp h thalmus 
P. scyllii in Scyllium canicula 
and S. stellare, dog-fish 
P. soleae (Fig. 112 ) in Sole a 
vulgaris , sole 
T. squalii in Squalius cephalus, 
chub 
7". tincae in Pine a tinea, tench 
In Indian fish :— Ophiocephalus striatus, Macrones seenghala, 
M. tengara, Prichogaster fasciatus. 
In Singhalese fish :— Macrones cavasius and G-obius ginris. 
In Nile fish :—The noke ( Mugil ), the dabib ( Polypterus ), the 
bagara (Bageus bagard), the gargur (lynodontif schal). 
Trypanosomata of Birds 
1. T. avium (Laveran).—Occurs in the owl 
(■Syrnium aluco). 33-45/n long (flagellum included). 
The undulating membrane is well-developed, and has 
several folds. The posterior extremity is pointed 
(Fig. 112). 
2. 7 ". johnstoni (Dutton 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 1 ‘4-1 *6^ broad. 
3. T. paddae (Laveran and Mesnil).—In the 
blood of Padda oryzivora (Java sparrow). 30-40/^ 
long, by 5-7/A broad. Posterior end very pointed. 
Undulating membrane narrow and folded, but difficult 
to stain. Division takes place longitudinally. Patho- 
genic (?). 
