| moticed in the article ArcvonNTUum. 
| and less as we descend in the scale. 
| sions from without are received immediately by the 
| organs of sense, which become more numerous and 
| hunger of winter. 
| serpents and crocodiles, which lie buried in the dry 
| mud during the summer droughts of the tropics. 
| be mentioned, the faculty of giving light (glowworm, 
| which they are composed ; second, to investigate the 
  
ANIMAL AND ANIMAL KINGDOM—ANIMAL CHEMISTRY. 
  
| limits; often to one circumscribed range of climate, 
| one species of food, one medium. To go beyond 
  
| from which even man with all his powers of adapta- 
| of mind : in those high in the scale, this mental life 
  
Light also is essential to many, though most of the 
colourless animals of the lower classes can dispense 
with it. With regard to outward pressure, the 
limits are wide, as is seen in the condor soaring to a 
height of 20,000 feet, and the whale descending to a 
depth of 1000 feet below the surface of the sea. But 
individual animals are confined to much narrower 
those limits, though it does not always occasion 
death, yet gives rise to various degrees of degeneracy, 
tion is not exempt. 
Most animals give more or less strong indications 
rises to intellect capable of cultivation, while, in the 
lower classes, it appears as instinet confined to a few 
operations. For communicating with the outer world, 
vertebrated animals are provided with a mnervous 
system in connection with a central brain—a cerebral 
nervous system ; the ganmglionic nervous system of 
the lower animals seems to serve this purpose less 
The impres- 
complex the higher the animal stands in the scale; 
among the highest, five senses are usually distin- 
guished, which are variously developed in different 
species—in none so harmoniously as in man. 
Nocturnal sleep, being the means of gathering 
strength for the activity of the waking hours, stands 
in intimate relation to that activity, and therefore 
is wanting in beings low in the scale. Winter sleep, 
or hybernation (q.v.), serves many animals instead of 
migration, to enable them to outlive the cold and 
Analogous is the summer sleep of 
Of the other vital manifestations of animals may 
meduse), and that of developing electricity, both 
possessed only by a few ; also voice, belonging almost 
exclusively to vertebrate animals, and of them chiefly 
to the warm-blooded. 
A very remarkable peculiarity occurs in some of 
the lowest kinds of animals, in what may be termed 
a composite life ; individuals which separately mani- 
fest many of the powers of life, being united in part 
of their frame, many of them together into one living 
mass. Of this, examples are numerous among the 
Zoophytes (q. v.), some of which have already been 
Apart from the transforming and modifying influ- 
ence of man, the animals and plants of a district— 
its fauna and flora—give it life and character. To 
man himself, animals stand in a variety of relations 
of the highest importance. Some are directly useful 
to him for labour, food, the chase, &c. ; others hurt- 
ful, as destroyers of vegetation, as beasts of prey, as 
vermin, or by their poisons.—The number of known 
species of animals amounts at present to about 
130,000. To describe and classify these on scientific 
principles, is the object of Zoology (q. v.). 
ANIMAL CHEMISTRY. The object of re- 
searches into the chemical nature of animal sub- 
stances is twofold : First, to classify the proximate 
or immediate component ingredients of the animal 
body, study their properties, their mutual relations 
and metamorphoses, and the ultimate elements of 
processes that go on during the elaboration and 
assimilation of new materials, and the wearing out 
and excretion of old—processes that, taken together, 
constitute nutrition, or the vegetative side of animal 
life. Without a pretty complete knowledge of the 
the second ; and it is chiefly owing to the great pro- 
gress that has been made within the last thirty years 
in the knowledge of the chemical properties of the 
animal compounds containing nitrogen, that we owe 
the recent advance in our knowledge of the chemical 
processes of life. That advance is not the less decided 
that we are still far from a complete understanding 
of them. The general laws of chemistry are now 
traced into the province of organic nature much 
further than formerly, and the abrupt partition 
between the two is removed. It is still acknowledged 
that these laws operate differently within the sphere 
of organic life, from what they do without; but 
instead of resting contented with saying, that owing 
to the vital force this could not be otherwise, the 
aim is now to trace the why and wherefore of this 
modified action as far as possible. 
In the animal body, two classes of substances may 
be distinguished : those that properly compose the 
body, and those that are on the way either into it 
or out of it. The former, or actual components of 
the body, are, again, of two kinds: 1. Substances 
that compose the actual tissues of the organs, and in 
which the vital functions seem properly to inhere ; 
the substances, namely, of muscle, of nerve, of brain, 
of membranes, sinews, and the organic part of the 
bones. All these agree in consisting chiefly of 
carbon, hydrogen, nitrogen, and oxygen, with usu- 
ally minute proportions of sulphur and phosphorus. 
But in respect of their mode of composition, they 
fall into two classes—those that yield gelatine on 
boiling, and those that do not. To the former belong 
the substance of the cartilages, bones, sinews, and 
skin; to the latter, the fibrin of the muscles and of 
the blood corpuscles, the albumen of the nerves 
and blood, the caseine of milk, &c. These last are 
the so-called compounds of proteine (q.v.). In 
the living tissues, all these matters are combined 
with about 90 per cent. of water. 2. Besides the 
above, which are the real animalised or wvital 
substances, the animal body contains substances 
which are merely deposited in the cells and inter- 
stices of the former for imparting colour, solidity, 
elasticity, &c. Of this kind are fat, the earthy 
matter of the bones, pigment, &c. Whether the 
minute quantities of common salt and of phosphates 
that are found in all parts of animals essentially 
belong to the constitution of the substance they are 
associated with, is not yet made out, but it is 
extremely probable they do; at all events, they play 
a very important part. 
The substances that are on their way into and 
out of the body, form on the one hand the contents 
of the digestive organs, and on the other those of 
the organs of excretion. The vascular system forms 
the means of communication between both and the 
substance of the body, and the blood is the carrier 
of all that enters that substance or leaves it. In 
the digestive organs, accordingly, we find, along with 
the unaltered materials of the food, the various 
products of their digestion, and at last the useless 
refuse, not absorbable by the vascular system, and 
the various fluids—some acid, some alkaline —added 
to the food to effect its digestion, such as the saliva, 
gastric juice, and bile. 
The matters prepared in the digestive organs for 
being taken up into the blood, either enter the 
venous system directly, or get there by first going 
through the lymphatic system. This last contains a 
fluid which is chemically very like the blood, but 
colourless—the chyle, namely. This fluid and the 
blood contain the so-called proteine compounds 
derived from the food, partly in solution, and partly 
solid in the blood corpuscles. Arterial blood 
contains, besides, all those salts and other substances 
  
first part, no successful researches can be made in 
266 
that must be supplied for the nourishment of the 
  
  
  
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