Volume Ii Part 6 (1/2)
CHARACTERS AS HEREDITARY AND ACQUIRED (_continued_).
(C.) _Experimental Evidence in favour of the Inheritance of Acquired Characters._
Notwithstanding the fact already noticed, that no experiments have hitherto been published with reference to the question of the transmission of acquired characters[63], there are several researches which, with other objects in view, have incidentally yielded seemingly good evidence of such transmission. The best-known of these researches--and therefore the one with which I shall begin--is that of Brown-Sequard touching the effects of certain injuries of the nervous system in guinea-pigs.
[63] The experiments of Galton and Weismann upon this subject are nugatory, as will be shown later on. But since the above was written an important research has been published by Mr.
Cunningham, of the Marine Biological a.s.sociation. For a full account I must refer the reader to his forthcoming paper in the _Philosophical Transactions_. The following is his own statement of the princ.i.p.al results:--
”A case which I have myself recently investigated experimentally seems to me to support very strongly the theory of the inheritance of acquired characters, I have shown that in normal flat-fishes, if the lower side be artificially exposed to light for a long time, pigmentation is developed on that side; but when the exposure is commenced while the specimens are still in process of metamorphosis, when pigment-cells are still present on the lower side, the action of light does not prevent the disappearance of these pigment-cells. They disappear as in individuals living under normal conditions, but after prolonged exposure pigment-cells reappear. The first fact proves that the disappearance of the pigment-cells from the lower side in the metamorphosis is an hereditary character, and not a change produced in each individual by the withdrawal of the lower side from the action of light. On the other hand, the experiments show that the absence of pigment-cells from the lower side throughout life is due to the fact that light does not act upon that side, for, when it is allowed to act, pigment-cells appear. It seems to me the only reasonable conclusion from these facts is, that the disappearance of pigment-cells was originally due to the absence of light, and that this change has now become hereditary. The pigment-cells produced by the action of light on the lower side are in all respects similar to those normally present on the upper side of the fish. If the disappearance of the pigment-cells were due entirely to a variation of the germ-plasm, no external influence could cause them to reappear, and, on the other hand, if there were no hereditary tendency, the colouration of the lower side of the flat-fish when exposed would be rapid and complete.”--_Natural Science_, Oct. 1893.
During a period of thirty years Brown-Sequard bred many thousands of guinea-pigs as material for his various researches; and in those whose parents had not been operated upon in the ways to be immediately mentioned, he never saw any of the peculiarities which are about to be described. Therefore the hypothesis of coincidence, at all events, must be excluded. The following is his own summary of the results with which we are concerned:--
1st. Appearance of epilepsy in animals born of parents which had been rendered epileptic by an injury to the spinal cord.
2nd. Appearance of epilepsy also in animals born of parents which had been rendered epileptic by section of the sciatic nerve.
3rd. A change in the shape of the ear in animals born of parents in which such a change was the effect of a division of the cervical sympathetic nerve.
4th. Partial closure of the eyelids in animals born of parents in which that state of the eyelids had been caused either by section of the cervical sympathetic nerve, or the removal of the superior cervical ganglion.
5th. Exophthalmia in animals born of parents in which an injury to the restiform body had produced that protrusion of the eyeball.
This interesting fact I have witnessed a good many times, and seen the transmission of the morbid state of the eye continue through four generations. In these animals, modified by heredity, the two eyes generally protruded, although in the parents usually only one showed exophthalmia, the lesion having been made in most cases only on one of the corpora restiformia.
6th. Haematoma and dry gangrene of the ears in animals born of parents in which these ear-alterations had been caused by an injury to the restiform body near the nib of the calamus.
7th. Absence of two toes out of the three of the hind leg, and sometimes of the three, in animals whose parents had eaten up their hind-leg toes which had become anaesthetic from a section of the sciatic nerve alone, or of that nerve and also of the crural.
Sometimes, instead of complete absence of the toes, only a part of one or two or three was missing in the young, although in the parent not only the toes but the whole foot were absent (partly eaten off, partly destroyed by inflammation, ulceration, or gangrene.)
8th. Appearance of various morbid states of the skin and hair of the neck and face in animals born of parents having had similar alterations in the same parts, as effects of an injury to the sciatic nerve.
These results[64] have been independently vouched for by two of Brown-Sequard's former a.s.sistants--Dr. Dupuy, and the late Professor Westphal. Moreover, his results with regard to epilepsy have been corroborated also by Obersteiner[65]. I may observe, in pa.s.sing, that this labour of testing Brown-Sequard's statements is one which, in my opinion, ought rather to have been undertaken, if not by Weismann himself, at all events by some of his followers. Both he and they are incessant in their demand for evidence of the transmission of acquired characters; yet they have virtually ignored the foregoing very remarkable statements. However, be this as it may, all that we have now to do is to consider what the school of Weismann has had to say with regard to these experiments on the grounds of general reasoning which they have thus far been satisfied to occupy.
[64] For Professor Weismann's statement of and discussion of these results see _Essays_, vol. i. p. 313.
[65] _Oesterreichische medicinische Jahrbucher_, 1875, 179.
In view of Obersteiner's corroboration of Brown-Sequard's results touching the artificial production and subsequent transmission of epilepsy, Weismann accepts the facts, but, in order to save his theory of heredity, he argues that the transmission may be due to a traumatic introduction of ”some unknown microbe” which causes the epilepsy in the parent, and, by invading the ova or spermatozoa as the case may be, also produces epilepsy in the offspring. Here, of course, there would be transmission of epilepsy, but it would not be, technically speaking, an hereditary transmission. The case would resemble that of syphilis, where the s.e.xual elements remain unaffected as to their congenital endowments, although they have been made the vehicles for conveying an organic poison to the next generation.
Now it would seem that this suggestion is not, on the face of it, a probable one. For ”some unknown microbe” it indeed must be, which is always on hand to enter a guinea-pig when certain operations are being performed on certain parts of the nervous system, but yet will never enter when operations of any kind are being effected elsewhere.
Moreover, Westphal has produced the epilepsy _without any incision_, by striking the heads of the animals with a hammer[66]. This latter fact, it appears to me, entirely abolishes the intrinsically improbable suggestion touching an unknown--and strangely eclectic--microbe.
However, it is but fair to state what Weismann himself has made of this fact. The following is what he says:--
[66] _Loc. cit._
”It is obvious that the presence of microbes can have nothing to do with such an attack, but the shock alone must have caused morphological and functional changes in the centre of the pons and medulla oblongata, identical with those produced by microbes in the other cases.... Various stimuli might cause the nervous centres concerned to develop the convulsive attack which, together with its after-effects, we call epilepsy. In Westphal's case, such a stimulus would be given by a powerful mechanical shock (viz. blows on the head with a hammer); in Brown-Sequard's experiments, by the penetration of microbes[67].”
[67] _Essays_, vol. i. p. 315.
But from this pa.s.sage it would seem that Weismann has failed to notice that in ”Westphal's case,” as in ”Brown-Sequard's experiments,” the epilepsy was _transmitted to progeny_. That epilepsy may be produced in guinea-pigs by a method which does not involve any cutting (i.e.