384 
NOTES. 
35 The few animals in which the digestive cavity is wanting are called 
agastric , and agree in having a very simple structure. Such are some Ento- 
zoa (as Tape-worm) and unicellular Protozoa (as Gregarina). They absorb 
the juices, already prepared, by the physical process of endosmose. There 
are other minute organisms which seem to be able to extract the necessary 
elements, CHON, from the medium in which they live. 
36 The cavity of a Sponge is perhaps homologous with the digestive cavity, 
but is not functionally such. Each cell lining it does its own digestion, tak¬ 
ing the food from the water circulating in the cavity. 
37 “Nothing is more curious and entertaining than to watch the neatness 
and accuracy with which this process is performed. One may see the rejected 
bits of food passing rapidly along the lines upon which these pedicellariae 
occur in greatest number, as if they were so many little roads for the con¬ 
veying away of the refuse matters; nor do the forks cease from their labor 
till the surface of the animal is completely clean and free from any foreign 
substance.” —Agassiz’s Sea-side Studies. 
89 In the larva of the Bee, the anal orifice is wanting. 
39 The length of the canal in Insects is not so indicative of the habits as in 
Mammals. Thus, it is nearly as long and more complicated in the carnivo¬ 
rous Beetles than in the honey-sipping Butterflies. 
40 The object of this is unknown. It does not occur in the Oyster. 
41 In the Nautilus, this is preceded by a capacious crop. 
42 In the Shark, this is impossible, owing to a great number of fringes in 
the gullet hanging down towards the stomach. 
43 At the beginning of the large intestine in the Lizards (and in many Ver¬ 
tebrates above them, especially the vegetarian orders), there is a blind sac, 
called caecum. 
44 The Crocodile is said to swallow stones sometimes, like Birds, to aid 
the gastric mill. 
45 In the crop of the common Fowl, vegetable food is detained sixteen 
hours, or twice as long as animal food. The Dormouse, among Mammals, 
has an approach to a crop. 
46 In Invertebrates, the gizzard, when present, is situated between the crop 
and the true stomach; in Birds, it comes after the stomach. 
47 The Tape-worm has no digestive apparatus, but absorbs the already di¬ 
gested food of its host. This is no exception to the rule. The chemical 
preparation of the food has preceded its absorption. 
48 We find the most abundant saliva in those Mammals that feed on herbs 
and grain, but its action on starch is extremely feeble. 
49 The acid in the gastric juice has an important function in killing or pre¬ 
venting the growth of bacteria which are taken in with the food. The gastric 
juice also dissolves the albuminous walls of fat cells, thus permitting the con¬ 
tained fats to escape. The drops of fat fuse together into larger masses, 
which are later broken up into droplets or emulsified by the pancreatic juice. 
60 It is probable that the digestive part of the alimentary canal in all 
animals manifests a similar mechanical movement. It is most remarkable 
in the gizzard of a fowl, which corresponds to the pyloric end of the human 
stomach. This muscular organ, supplying the want of a masticatory appa- 
