Various Works Page 62
have an external discharge; this is put into form by the power of
the male residing in the semen secreted by him, or, as is clearly seen
to happen in some insects, by the part in the female analogous to
the uterus being inserted into the male.
It has been previously stated that the discharge accompanying sexual
pleasure in the female contributes nothing to the embryo. The chief
argument for the opposite view is that what are called bad dreams
occur by night with women as with men; but this is no proof, for the
same thing happens to young men also who do not yet emit semen, and to
those who do emit semen but whose semen is infertile.
It is impossible to conceive without the emission of the male in
union and without the secretion of the corresponding female
material, whether it be discharged externally or whether there is only
enough within the body. Women conceive, however, without
experiencing the pleasure usual in such intercourse, if the part
chance to be in heat and the uterus to have descended. But generally
speaking the opposite is the case, because the os uteri is not
closed when the discharge takes place which is usually accompanied
by pleasure in women as well as men, and when this is so there is a
readier way for the semen of the male to be drawn into the uterus.
The actual discharge does not take place within the uterus as some
think, the os uteri being too narrow, but it is in the region in front
of this, where the female discharges the moisture found in some cases,
that the male emits the semen. Sometimes it remains in this place;
at other times, if the uterus chance to be conveniently placed and hot
on account of the purgation of the catamenia, it draws it within
itself. A proof of this is that pessaries, though wet when applied,
are removed dry. Moreover, in all those animals which have the
uterus near the hypozoma, as birds and viviparous fishes, it is
impossible that the semen should be so discharged as to enter it; it
must be drawn into it. This region, on account of the heat which is in
it, attracts the semen. The discharge and collection of the
catamenia also excite heat in this part. Hence it acts like
cone-shaped vessels which, when they have been washed out with hot
water, their mouth being turned downwards, draw water into themselves.
And this is the way things are drawn up, but some say that nothing
of the kind happens with the organic parts concerned in copulation.
Precisely the opposite is the case of those who say the woman emits
semen as well as the man, for if she emits it outside the uterus
this must then draw it back again into itself if it is to be mixed
with the semen of the male. But this is a superfluous proceeding,
and Nature does nothing superfluous.
When the material secreted by the female in the uterus has been
fixed by the semen of the male (this acts in the same way as rennet
acts upon milk, for rennet is a kind of milk containing vital heat,
which brings into one mass and fixes the similar material, and the
relation of the semen to the catamenia is the same, milk and the
catamenia being of the same nature)- when, I say, the more solid
part comes together, the liquid is separated off from it, and as the
earthy parts solidify membranes form all round it; this is both a
necessary result and for a final cause, the former because the surface
of a mass must solidify on heating as well as on cooling, the latter
because the foetus must not be in a liquid but be separated from it.
Some of these are called membranes and others choria, the difference
being one of more or less, and they exist in ovipara and vivipara
alike.
When the embryo is once formed, it acts like the seeds of plants.
For seeds also contain the first principle of growth in themselves,
and when this (which previously exists in them only potentially) has
been differentiated, the shoot and the root are sent off from it,
and it is by the root that the plant gets nourishment; for it needs
growth. So also in the embryo all the parts exist potentially in a way
at the same time, but the first principle is furthest on the road to
realization. Therefore the heart is first differentiated in actuality.
This is clear not only to the senses (for it is so) but also on
theoretical grounds. For whenever the young animal has been
separated from both parents it must be able to manage itself, like a
son who has set up house away from his father. Hence it must have a
first principle from which comes the ordering of the body at a later
stage also, for if it is to come in from outside at later period to
dwell in it, not only may the question be asked at what time it is
to do so, but also we may object that, when each of the parts is
separating from the rest, it is necessary that this principle should
exist first from which comes growth and movement to the other parts.
(Wherefore all who say, as did Democritus, that the external parts of
animals are first differentiated and the internal later, are much
mistaken; it is as if they were talking of animals of stone or wood.
For such as these have no principle of growth at all, but all
animals have, and have it within themselves.) Therefore it is that
the heart appears first distinctly marked off in all the sanguinea,
for this is the first principle or origin of both homogeneous and
heterogeneous parts, since from the moment that the animal or organism
needs nourishment, from that moment does this deserve to be called its
principle or origin. For the animal grows, and the nutriment, in its
final stage, of an animal is the blood or its analogue, and of this
the blood-vessels are the receptacle, wherefore the heart is the
principle or origin of these also. (This is clear from the
Enquiries and the anatomical drawings.)
Since the embryo is already potentially an animal but an imperfect
one, it must obtain its nourishment from elsewhere; accordingly it
makes use of the uterus and the mother, as a plant does of the
earth, to get nourishment, until it is perfected to the point of being
now an animal potentially locomotive. So Nature has first designed the
two blood-vessels from the heart, and from these smaller vessels
branch off to the uterus. These are what is called the umbilicus,
for this is a blood-vessel, consisting of one or more vessels in
different animals. Round these is a skin-like integument, because
the weakness of the vessels needs protection and shelter. The
vessels join on to the uterus like the roots of plants, and through
them the embryo receives its nourishment. This is why the animal
remains in the uterus, not, as Democritus says, that the parts of
the embryo may be moulded in conformity with those of the mother. This
is plain in the ovipara, for they have their parts differentiated in
the egg after separation from the matrix.
Here a difficulty may be raised. If the blood is the nourishment,
and if the heart, which first comes into being, already contains
blood, and the nourishment comes from outside
, whence did the first
nourishment enter? Perhaps it is not true that all of it comes from
outside just as in the seeds of plants there is something of this
nature, the substance which at first appears milky, so also in the
material of the animal embryo the superfluous matter of which it is
formed is its nourishment from the first.
The embryo, then, grows by means of the umbilicus in the same way as
a plant by its roots, or as animals themselves when separated from the
nutriment within the mother, of which we must speak later at the
time appropriate for discussing them. But the parts are not
differentiated, as some suppose, because like is naturally carried
to like. Besides many other difficulties involved in this theory, it
results from it that the homogeneous parts ought to come into being
each one separate from the rest, as bones and sinews by themselves,
and flesh by itself, if one should accept this cause. The real cause
why each of them comes into being is that the secretion of the
female is potentially such as the animal is naturally, and all the
parts are potentially present in it, but none actually. It is also
because when the active and the passive come in contact with each
other in that way in which the one is active and the other passive (I
mean in the right manner, in the right place, and at the right time),
straightway the one acts and the other is acted upon. The female,
then, provides matter, the male the principle of motion. And as the
products of art are made by means of the tools of the artist, or to
put it more truly by means of their movement, and this is the activity
of the art, and the art is the form of what is made in something else,
so is it with the power of the nutritive soul. As later on in the case
of mature animals and plants this soul causes growth from the
nutriment, using heat and cold as its tools (for in these is the
movement of the soul), and each thing comes into being in
accordance with a certain formula, so also from the beginning does
it form the product of nature. For the material by which this latter
grows is the same as that from which it is constituted at first;
consequently also the power which acts upon it is identical with
that which originally generated it; if then this acting power is the
nutritive soul, this is also the generative soul, and this is the
nature of every organism, existing in all animals and plants. [But
the other parts of the soul exist in some animals, not in others.] In
plants, then, the female is not separated from the male, but in
those animals in which it is separated the male needs the female
besides.
5
And yet the question may be raised why it is that, if indeed the
female possesses the same soul and if it is the secretion of the
female which is the material of the embryo, she needs the male besides
instead of generating entirely from herself. The reason is that the
animal differs from the plant by having sense-perception; if the
sensitive soul is not present, either actually or potentially, and
either with or without qualification, it is impossible for face, hand,
flesh, or any other part to exist; it will be no better than a
corpse or part of a corpse. If then, when the sexes are separated,
it is the male that has the power of making the sensitive soul, it
is impossible for the female to generate an animal from itself
alone, for the process in question was seen to involve the male
quality. Certainly that there is a good deal in the difficulty
stated is plain in the case of the birds that lay wind-eggs, showing
that the female can generate up to a certain point unaided. But this
still involves a difficulty; in what way are we to say that their eggs
live? It neither possible that they should live in the same way as
fertile eggs (for then they would produce a chick actually alive),
nor yet can they be called eggs only in the sense in which an egg of
wood or stone is so called, for the fact that these eggs go bad
shows that they previously participate in some way in life. It is
plain, then, that they have some soul potentially. What sort of soul
will this be? It must be the lowest surely, and this is the nutritive,
for this exists in all animals and plants alike. Why then does it
not perfect the parts and the animal? Because they must have a
sensitive soul, for the parts of animals are not like those of a
plant. And so the female animal needs the help of the male, for in
these animals we are speaking of the male is separate. This is exactly
what we find, for the wind-eggs become fertile if the male tread the
female in a certain space of time. About the cause of these things,
however, we shall enter into detail later.
If there is any kind of animal which is female and has no male
separate from it, it is possible that this may generate a young one
from itself without copulation. No instance of this worthy of credit
has been observed up to the present at any rate, but one case in the
class of fishes makes us hesitate. No male of the so-called erythrinus
has ever yet been seen, but females, and specimens full of roe, have
been seen. Of this, however, we have as yet no proof worthy of credit.
Again, some members of the class of fishes are neither male nor
female, as eels and a kind of mullets found in stagnant waters. But
whenever the sexes are separate the female cannot generate perfectly
by herself alone, for then the male would exist in vain, and Nature
makes nothing in vain. Hence in such animals the male always
perfects the work of generation, for he imparts the sensitive soul,
either by means of the semen or without it. Now the parts of the
embryo already exist potentially in the material, and so when once the
principle of movement has been imparted to them they develop in a
chain one after another, as the wheels are moved one by another in the
automatic machines. When some of the natural philosophers say that
like is brought to like, this must be understood, not in the sense
that the parts are moved as changing place, but that they stay where
they are and the movement is a change of quality (such as softness,
hardness, colour, and the other differences of the homogeneous parts);
thus they become in actuality what they previously were in
potentiality. And what comes into being first is the first
principle; this is the heart in the sanguinea and its analogue in
the rest, as has been often said already. This is plain not only to
the senses (that it is first to come into being), but also in view
of its end; for life fails in the heart last of all, and it happens in
all cases that what comes into being last fails first, and the first
last, Nature running a double course, so to say, and turning back to
the point from whence she started. For the process of becoming is from
the non-existent to the existent, and that of perishing is back
again from the existent to the non-existent.
6
After this, as said already, the internal parts come into being
before
the external. The greater become visible before the less,
even if some of them do not come into being before them. First the
parts above the hypozoma are differentiated and are superior in
size; the part below is both smaller and less differentiated. This
happens in all animals in which exists the distinction of upper and
lower, except in the insects; the growth of those that produce a
scolex is towards the upper part, for this is smaller in the
beginning. The cephalopoda are the only locomotive animals in which
the distinction of upper and lower does not exist.
What has been said applies to plants also, that the upper portion is
earlier in development than the lower, for the roots push out from the
seed before the shoots.
The agency by which the parts of animals are differentiated is
air, not however that of the mother nor yet of the embryo itself, as
some of the physicists say. This is manifest in birds, fishes, and
insects. For some of these are separated from the mother and
produced from an egg, within which the differentiation takes place;
other animals do not breathe at all, but are produced as a scolex or
an egg; those which do breathe and whose parts are differentiated
within the mother's uterus yet do not breathe until the lung is
perfected, and the lung and the preceding parts are differentiated
before they breathe. Moreover, all polydactylous quadrupeds, as dog,
lion, wolf, fox, jackal, produce their young blind, and the eyelids do
not separate till after birth. Manifestly the same holds also in all
the other parts; as the qualitative, so also the quantitative
differentia comes into being, pre-existing potentially but being
actualized later by the same causes by which the qualitative
distinction is produced, and so the eyelids become two instead of one.
Of course air must be present, because heat and moisture are
present, the former acting and the latter being acted upon.
Some of the ancient nature-philosolphers made an attempt to state
which part comes into being after which, but were not sufficiently
acquainted with the facts. It is with the parts as with other