As the animal came on land and breathed the air, more completely oxygenated blood was carried to the organs, and their activity was greatly heightened.  As more and more heat was produced by the combustion in muscular and nervous tissues, and less was lost by conduction, the temperature of the body rose, and in birds and mammals becomes constant several degrees above the highest summer temperature of the surrounding air.

The changes in the brain affect mainly the large and small brain.  The cerebellum increases with the greater locomotive powers of the animal.  But its development is evidently limited.  The large brain, or cerebrum, is in fish hardly as heavy as the mid-brain; in amphibia the reverse is true.  In higher recent reptiles the cerebrum would somewhat outweigh all the other portions of the brain put together.  In mammals it extends upward and backward, has already in lower forms overspread the mid-brain, and is beginning to cover the small brain.  But this was not so in the earliest mammals.  Here the cerebrum was small, more like that of reptiles.  But during the tertiary period the large brain began to increase with marvellous rapidity.  It was very late in arriving at the period of rapid development, but it kept on after all the other organs of the body had settled down into comparative rest, perhaps retrogression.

We have given thus a rapid sketch in outline of the changes in the most characteristic systems between fish and mammals.  Some of the changes which took place in mammals were along the same lines, but one at least is so new and unexpected that this highest class demands more careful and detailed examination.

The mammal is a vertebrate.  Hence all its organs are at their best.  But mammals stand, all things considered, at the head of vertebrates.  The skeleton is firm and compact.  The muscles are beautifully moulded and fitted to the skeleton so as to produce the greatest effect with the least mass and weight of tissue.  The sense-organs are keen, and the eye and ear especially delicate, and fitted for perception at long range.  Yet in all these respects they are surpassed by birds.  As a mere anatomical machine the bird always seems to me superior to the mammal.  It is not easy to see why it failed, as it has, to reach the goal of possibility of indefinite development and dominance in the animal world.  Why he stopped short of the higher brain development I cannot tell.  The fact remains that the mammal is pre-eminent in brain power, and that this gave him the supremacy.

But mammals came very late to the throne, and the probability of their ever gaining it must for ages have appeared very doubtful.  They seem to have been a fairly old group with a very slow early development.  Reptiles especially, and even birds, were far more precocious than these slower and weaker forms which crept along the earth.  But reptiles and birds, like many other precocious children, soon reached the limit of their development.  They had muscle, the mammal brain and nerve; the mammal had the staying power and the future.  Bitter and discouraging must have been the struggle of these feeble early mammals with their larger, swifter, and more powerful, reptilian relatives.  And yet, perhaps, by this very struggle the mammal was trained to shrewdness and endurance.