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Book IV chapter 4

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democritus said that monstrosities arose because two emissions of seminal fluid met together, the one succeeding the other at an interval of time; that the later entering into the uterus reinforced the earlier so that the parts of the embryo grow together and get confused with one another. but in birds, he says, since copulation takes place quickly, both the eggs and their colour always cross one another. but if it is the fact, as it manifestly is, that several young are produced from one emission of semen and a single act of intercourse, it is better not to desert the short road to go a long way about, for in such cases it is absolutely necessary that this should occur when the semen is not separated but all enters the female at once.

if, then, we must attribute the cause to the semen of the male, this will be the way we shall have to state it, but we must rather by all means suppose that the cause lies in the material contributed by the female and in the embryo as it is forming. hence also such monstrosities appear very rarely in animals producing only one young one, more frequently in those producing many, most of all in birds and among birds in the common fowl. for this bird produces many young, not only because it lays often like the pigeon family, but also because it has many embryos at once and copulates all the year round. therefore it produces many double eggs, for the embryos grow together because they are near one another, as often happens with many fruits. in such double eggs, when the yolks are separated by the membrane, two separate chickens are produced with nothing abnormal about them; when the yolks are continuous, with no division between them, the chickens produced are monstrous, having one body and head but four legs and four wings; this is because the upper parts are formed earlier from the white, their nourishment being drawn from the yolk, whereas the lower part comes into being later and its nourishment is one and indivisible.

a snake has also been observed with two heads for the same reason, this class also being oviparous and producing many young. monstrosities, however, are rarer among them owing to the shape of the uterus, for by reason of its length the numerous eggs are set in a line.

nothing of the kind occurs with bees and wasps, because their brood is in separate cells. but in the fowl the opposite is the case, whereby it is plain that we must hold the cause of such phenomena to lie in the material. so, too, monstrosities are commoner in other animals if they produce many young. hence they are less common in man, for he produces for the most part only one young one and that perfect; even in man monstrosities occur more often in regions where the women give birth to more than one at a time, as in egypt. and they are commoner in sheep and goats, since they produce more young. still more does this apply to the fissipeds, for such animals produce many young and imperfect, as the dog, the young of these creatures being generally blind. why this happens and why they produce many young must be stated later, but in them nature has made an advance towards the production of monstrosities in that what they generate, being imperfect, is so far unlike the parent; now monstrosities also belong to the class of things unlike the parent. therefore this accident also often invades animals of such a nature. so, too, it is in these that the so-called ‘metachoera’ are most frequent, and the condition of these also is in a way monstrous, since both deficiency and excess are monstrous. for the monstrosity belongs to the class of things contrary to nature, not any and every kind of nature, but nature in her usual operations; nothing can happen contrary to nature considered as eternal and necessary, but we speak of things being contrary to her in those cases where things generally happen in a certain way but may also happen in another way. in fact, even in the case of monstrosities, whenever things occur contrary indeed to the established order but still always in a certain way and not at random, the result seems to be less of a monstrosity because even that which is contrary to nature is in a certain sense according to nature, whenever, that is, the formal nature has not mastered the material nature. therefore they do not call such things monstrosities any more than in the other cases where a phenomenon occurs habitually, as in fruits; for instance, there is a vine which some call ‘capneos’; if this bear black grapes they do not judge it a monstrosity because it is in the habit of doing this very often. the reason is that it is in its nature intermediate between white and black; thus the change is not a violent one nor, so to say, contrary to nature; at least, is it not a change into another nature. but in animals producing many young not only do the same phenomena occur, but also the numerous embryos hinder one another from becoming perfect and interfere with the generative motions imparted by the semen.

a difficulty may be raised concerning (1) the production of many young and the multiplication of the parts in a single young one, and (2) the production of few young or only one and the deficiency of the parts. sometimes animals are born with too many toes, sometimes with one alone, and so on with the other parts, for they may be multiplied or they may be absent. again, they may have the generative parts doubled, the one being male, the other female; this is known in men and especially in goats. for what are called ‘tragaenae’ are such because they have both male and female generative parts; there is a case also of a goat being born with a horn upon its leg. changes and deficiencies are found also in the internal parts, animals either not possessing some at all, or possessing them in a rudimentary condition, or too numerous or in the wrong place. no animal, indeed, has ever been born without a heart, but they are born without a spleen or with two spleens or with one kidney; there is no case again of total absence of the liver, but there are cases of its being incomplete. and all these phenomena have been seen in animals perfect and alive. animals also which naturally have a gall-bladder are found without one; others are found to have more than one. cases are known, too, of the organs changing places, the liver being on the left, the spleen on the right. these phenomena have been observed, as stated above, in animals whose growth is perfected; at the time of birth great confusion of every kind has been found. those deficiency which only depart a little from nature commonly live; not so those which depart further, when the unnatural condition is in the parts which are sovereign over life.

the question then about all these cases is this. are we to suppose that a single cause is responsible for the production of a single young one and for the deficiency of the parts, and another but still a single cause for the production of many young and the multiplication of parts, or not?

in the first place it seems only reasonable to wonder why some animals produce many young, others only one. for it is the largest animals that produce one, e.g. the elephant, camel, horse, and the other solid-hoofed ungulates; of these some are larger than all other animals, while the others are of a remarkable size. but the dog, the wolf, and practically all the fissipeds, produce many, even the small members of the class, as the mouse family. the cloven-footed animals again produce few, except the pig, which belongs to those that produce many. this certainly seems surprising, for we should expect the large animals to be able to generate more young and to secrete more semen. but precisely what we wonder at is the reason for not wondering; it is just because of their size that they do not produce many young, for the nutriment is expended in such animals upon increasing the body. but in the smaller animals nature takes away from the size and adds the excess so gained to the seminal secretion. moreover, more semen must needs be used in generation by the larger animal, and little by the smaller. therefore many small ones may be produced together, but it is hard for many large ones to be so, and to those intermediate in size nature has assigned the intermediate number. we have formerly given the reason why some animals are large, some smaller, and some between the two, and speaking generally, with regard to the number of young produced, the solid-hoofed produce one, the cloven-footed few, the many-toed many. (the reason of this is that, generally speaking, their sizes correspond to this difference.) it is not so, however, in all cases; for it is the largeness and smallness of the body that is cause of few or many young being born, not the fact that the kind of animal has one, two, or many toes. a proof of this is that the elephant is the largest of animals and yet is many-toed, and the camel, the next largest, is cloven-footed. and not only in animals that walk but also in those that fly or swim the large ones produce few, the small many, for the same reason. in like manner also it is not the largest plants that bear most fruit.

we have explained then why some animals naturally produce many young, some but few, and some only one; in the difficulty now stated we may rather be surprised with reason at those which produce many, since such animals are often seen to conceive from a single copulation. whether the semen of the male contributes to the material of the embryo by itself becoming a part of it and mixing with the semen of the female, or whether, as we say, it does not act in this way but brings together and fashions the material within the female and the generative secretion as the fig-juice does the liquid substance of milk, what is the reason why it does not form a single animal of considerable size? for certainly in the parallel case the fig-juice is not separated if it has to curdle a large quantity of milk, but the more the milk and the more the fig-juice put into it, so much the greater is the curdled mass. now it is no use to say that the several regions of the uterus attract the semen and therefore more young than one are formed, because the regions are many and the cotyledons are more than one. for two embryos are often formed in the same region of the uterus, and they may be seen lying in a row in animals that produce many, when the uterus is filled with the embryos. (this is plain from the dissections.) rather the truth is this. as animals complete their growth there are certain limits to their size, both upwards and downwards, beyond which they cannot go, but it is in the space between these limits that they exceed or fall short of one another in size, and it is within these limits that one man (or any other animal) is larger or smaller than another. so also the generative material from which each animal is formed is not without a quantitative limit in both directions, nor can it be formed from any quantity you please. whenever then an animal, for the cause assigned, discharges more of the female secretion than is needed for beginning the existence of a single animal, it is not possible that only one should be formed out of all this, but a number limited by the appropriate size in each case; nor will the semen of the male, or the power residing in the semen, form anything either more or less than what is according to nature. in like manner, if the male emits more semen than is necessary, or more powers in different parts of the semen as it is divided, however much it is it will not make anything greater; on the contrary it will dry up the material of the female and destroy it. so fire also does not continue to make water hotter in proportion as it is itself increased, but there is a fixed limit to the heat of which water is capable; if that is once reached and the fire is then increased, the water no longer gets hotter but rather evaporates and at last disappears and is dried up. now since it appears that the secretion of the female and that from the male need to stand in some proportionate relation to one another (i mean in animals of which the male emits semen), what happens in those that produce many young is this: from the very first the semen emitted by the male has power, being divided, to form several embryos, and the material contributed by the female is so much that several can be formed out of it. (the parallel of curdling milk, which we spoke of before, is no longer in point here, for what is formed by the heat of the semen is not only of a certain quantity but also of a certain quality, whereas with fig-juice and rennet quantity alone is concerned.) this then is just the reason why in such animals the embryos formed are numerous and do not all unite into one whole; it is because an embryo is not formed out of any quantity you please, but whether there is too much or too little, in either case there will be no result, for there is a limit set alike to the power of the heat which acts on the material and to the material so acted upon.

on the same principle many embryos are not formed, though the secretion is much, in the large animals which produce only one young one, for in them also both the material and that which works upon it are of a certain quantity. so then they do not secrete such material in too great quantity for the reason previously stated, and what they do secrete is naturally just enough for one embryo alone to be formed from it. if ever too much is secreted, then twins are born. hence such cases seem to be more portentous, because they are contrary to the general and customary rule.

man belongs to all three classes, for he produces one only and sometimes many or few, though naturally he almost always produces one. because of the moisture and heat of his body he may produce many [for semen is naturally fluid and hot], but because of his size he produces few or one. on account of this it results that in man alone among animals the period of gestation is irregular; whereas the period is fixed in the rest, there are several periods in man, for children are born at seven months and at ten months and at the times between, for even those of eight months do live though less often than the rest. the reason may be gathered from what has just been said, and the question has been discussed in the problems. let this explanation suffice for these points.

the cause why the parts may be multiplied contrary to nature is the same as the cause of the birth of twins. for the reason exists already in the embryo, whenever it aggregates more material at any point of itself than is required by the nature of the part. the result is then that either one of its parts is larger than the others, as a finger or hand or foot or any of the other extremities or limbs; or again if the embryo is cleft there may come into being more than one such part, as eddies do in rivers; as the water in these is carried along with a certain motion, if it dash against anything two systems or eddies come into being out of one, each retaining the same motion; the same thing happens also with the embryos. the abnormal parts generally are attached near those they resemble, but sometimes at a distance because of the movement — taking place in the embryo, and especially because of the excess of material returning to that place whence it was taken away while retaining the form of that part whence it arose as a superfluity.

in certain cases we find a double set of generative organs [one male and the other female]. when such duplication occurs the one is always functional but not the other, because it is always insufficiently supplied with nourishment as being contrary to nature; it is attached like a growth (for such growths also receive nourishment though they are a later development than the body proper and contrary to nature.) if the formative power prevails, both are similar; if it is altogether vanquished, both are similar; but if it prevail here and be vanquished there, then the one is female and the other male. (for whether we consider the reason why the whole animal is male or female, or why the parts are so, makes no difference.)

when we meet with deficiency in such parts, e.g. an extremity or one of the other members, we must assume the same cause as when the embryo is altogether aborted (abortion of embryos happens frequently).

outgrowths differ from the production of many young in the manner stated before; monsters differ from these in that most of them are due to embryos growing together. some however are also of the following kind, when the monstrosity affects greater and more sovereign parts, as for instance some monsters have two spleens or more than two kidneys. further, the parts may migrate, the movements which form the embryo being diverted and the material changing its place. we must decide whether the monstrous animal is one or is composed of several grown together by considering the vital principle; thus, if the heart is a part of such a kind then that which has one heart will be one animal, the multiplied parts being mere outgrowths, but those which have more than one heart will be two animals grown together through their embryos having been confused.

it also often happens even in many animals that do not seem to be defective and whose growth is now complete, that some of their passages may have grown together or others may have been diverted from the normal course. thus in some women before now the os uteri has remained closed, so that when the time for the catamenia has arrived pain has attacked them, till either the passage has burst open of its own accord or the physicians have removed the impediment; some such cases have ended in death if the rupture has been made too violently or if it has been impossible to make it at all. in some boys on the other hand the end of the penis has not coincided with the end of the passage where the urine is voided, but the passage has ended below, so that they crouch sitting to void it, and if the testes are drawn up they appear from a distance to have both male and female generative organs. the passage of the solid food also has been closed before now in sheep and some other animals; there was a cow in perinthus which passed fine matter, as if it were sifted, through the bladder, and when the anus was cut open it quickly closed up again nor could they succeed in keeping it open.

we have now spoken of the production of few and many young, and of the outgrowth of superfluous parts or of their deficiency, and also of monstrosities.

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