By Thomas H. Huxley
I HAVE endeavoured to show, in the preceding Essay,
that the ANTHROPINI,or Man Family, form a very well defined group of the
Primates, between
which and the immediately following Family, the CATARHINI,
there is, in
the existing world, the same entire absence of any
transitional form or
connecting link, as between the CATARHINI and PLATYRHINI.
It is a commonly received doctrine, however, that
the structural
intervals between the various existing modifications
of organic beings
may be diminished, or even obliterated, if we take
into account the long
and varied succession of animals and plants which
have preceded those
now living and which are known to us only by their
fossilized remains.
How far this doctrine is well based, how far, on the
other hand, as our
knowledge at present stands, it is an overstatement
of the real facts of
the case, and an exaggeration of the conclusions fairly
deducible from
them, are points of grave importance, but into the
discussion of which
I do not, at present, propose to enter. It is
enough that such a view of
the relations of extinct to living beings has been
propounded, to lead
us to inquire, with anxiety, how far the recent discoveries
of human
remains in a fossil state bear out, or oppose, that
view.
I shall confine myself, in discussing this question,
to those
fragmentary Human skulls from the caves of Engis in
the valley of
the Meuse, in Belgium, and of the Neanderthal near
Dusseldorf, the
geological relations of which have been examined with
so much care
by Sir Charles Lyell; upon whose high authority I
shall take it for
granted, that the Engis skull belonged to a contemporary
of the Mammoth
(’Elephas primigenius’) and of the woolly
Rhinoceros (’Rhinoceros
tichorhinus’), with the bones of which it was
found associated; and that
the Neanderthal skull is of great, though uncertain,
antiquity. Whatever
be the geological age of the latter skull, I conceive
it is quite safe
(on the ordinary principles of paleontological reasoning)
to assume
that the former takes us to, at least, the further
side of the vague
biological limit, which separates the present geological
epoch from
that which immediately preceded it. And there
can be no doubt that the
physical geography of Europe has changed wonderfully,
since the bones
of Men and Mammoths, Hyaenas and Rhinoceroses were
washed pell-mell into
the cave of Engis.
The skull from the cave of Engis was originally discovered
by Professor
Schmerling, and was described by him, together with
other human remains
disinterred at the same time, in his valuable work,
’Recherches sur les
ossemens fossiles decouverts dans les cavernes de
la Province de
Liege’, published in 1833 , ’et
seq.’), from which the following
paragraphs are extracted, the precise expressions
of the author being,
as far as possible, preserved.
“In the first place, I must remark that these
human remains, which are
in my possession, are characterized like thousands
of bones which I have
lately been disinterring, by the extent of the decomposition
which
they have undergone, which is precisely the same as
that of the extinct
species: all, with a few exceptions, are broken;
some few are rounded,
as is frequently found to be the case in fossil remains
of other
species. The fractures are vertical or oblique;
none of them are eroded;
their colour does not differ from that of other fossil
bones, and varies
from whitish yellow to blackish. All are lighter
than recent bones, with
the exception of those which have a calcareous incrustation,
and the
cavities of which are filled with such matter.
“The cranium which I have caused to be figured,
Plate I., Fig, 2, is
that of an old person. The sutures are beginning
to be effaced: all the
facial bones are wanting, and of the temporal bones
only a fragment of
that of the right side is preserved.
“The face and the base of the cranium had been
detached before the
skull was deposited in the cave, for we were unable
to find those parts,
though the whole cavern was regularly searched.
The cranium was met with
at a depth of a metre and a half [five feet nearly],
hidden under
an osseous breccia, composed of the remains of small
animals, and
containing one rhinoceros tusk, with several teeth
of horses and of
ruminants. This breccia, which has been spoken
of above , was a
metre [3 1/4 feet about] wide, and rose to the height
of a metre and
a half above the floor of the cavern, to the walls
of which it adhered
strongly.
“The earth which contained this human skull
exhibited no trace of
disturbance: teeth of rhinoceros, horse, hyaena,
and bear, surrounded it
on all sides.
“The famous Blumenbach has directed attention
to the differences
presented by the form and the dimensions of human
crania of different
races. This important work would have assisted
us greatly, if the
face, a part essential for the determination of race,
with more or less
accuracy, had not been wanting in our fossil cranium.
“We are convinced that even if the skull had
been complete, it would not
have been possible to pronounce, with certainty, upon
a single specimen;
for individual variations are so numerous in the crania
of one and the
same race, that one cannot, without laying oneself
open to large chances
of error, draw any inference from a single fragment
of a cranium to the
general form of the head to which it belonged.
“Nevertheless, in order to neglect no point
respecting the form of this
fossil skull, we may observe that, from the first,
the elongated and
narrow form of the forehead attracted our attention.
“In fact, the slight elevation of the frontal,
its narrowness, and
the form of the orbit, approximate it more nearly
to the cranium of
an Ethiopian than to that of an European: the
elongated form and the
produced occiput are also characters which we believe
to be observable
in our fossil cranium; but to remove all doubt upon
that subject I have
caused the contours of the cranium of an European
and of an Ethiopian to
be drawn and the foreheads represented. Plate
II., Fig and 2, and,
in the same plate, Fig and 4, will render the
differences easily
distinguishable; and a single glance at the figures
will be more
instructive than a long and wearisome description.
“At whatever conclusion we may arrive as to
the origin of the man from
whence this fossil skull proceeded, we may express
an opinion without
exposing ourselves to a fruitless controversy.
Each may adopt the
hypothesis which seems to him most probable:
for my own part, I hold it
to be demonstrated that this cranium has belonged
to a person of limited
intellectual faculties, and we conclude thence that
it belonged to a
man of a low degree of civilization: a deduction
which is borne out
by contrasting the capacity of the frontal with that
of the occipital
region.
“Another cranium of a young individual was discovered
in the floor of
the cavern beside the tooth of an elephant; the skull
was entire when
found, but the moment it was lifted it fell into pieces,
which I have
not, as yet, been able to put together again.
But I have represented the
bones of the upper jaw, Plate I., Fi. The
state of the alveoli and
the teeth, shows that the molars had not yet pierced
the gum. Detached
milk molars and some fragments of a human skull proceed
from this same
place. The Figure 3 represents a human superior
incisor tooth, the size
of which is truly remarkable.
“Figure 4 is a fragment of a superior maxillary
bone, the molar teeth of
which are worn down to the roots.
“I possess two vertebrae, a first and last dorsal.
“A clavicle of the left side (see Plate III.,
Fi; although it
belonged to a young individual, this bone shows that
he must have been
of great stature.
“Two fragments of the radius, badly preserved,
do not indicate that the
height of the man, to whom they belonged, exceeded
five feet and a half.
“As to the remains of the upper extremities,
those which are in my
possession consist merely of a fragment of an ulna
and of a radius
(Plate III., Fig and 6).
“Figure 2, Plate IV., represents a metacarpal
bone, contained in the
breccia, of which we have spoken; it was found in
the lower part above
the cranium: add to this some metacarpal bones,
found at very different
distances, half-a-dozen metatarsals, three phalanges
of the hand, and
one of the foot.
“This is a brief enumeration of the remains
of human bones collected
in the cavern of Engis, which has preserved for us
the remains of three
individuals, surrounded by those of the Elephant,
of the Rhinoceros, and
of Carnivora of species unknown in the present creation.”
From the cave of Engihoul, opposite that of Engis,
on the right bank of
the Meuse, Schmerling obtained the remains of three
other individuals
of Man, among which were only two fragments of parietal
bones, but many
bones of the extremities. In one case a broken
fragment of an ulna
was soldered to a like fragment of a radius by stalagmite,
a condition
frequently observed among the bones of the Cave Bear
(’Ursus spelaeus’),
found in the Belgian caverns.
It was in the cavern of Engis that Professor Schmerling
found, incrusted
with stalagmite and joined to a stone, the pointed
bone implement, which
he has figured in Fi of his Plate XXXVI., and
worked flints were
found by him in all those Belgian caves, which contained
an abundance of
fossil bones.
A short letter from M. Geoffroy St. Hilaire, published
in the ’Comptes
Rendus’ of the Academy of Sciences of Paris,
for July 2nd, 1838, speaks
of a visit (and apparently a very hasty one) paid
to the collection of
Professor ‘Schermidt’ (which is presumably
a misprint for Schmerling)
at Liege. The writer briefly criticises the drawings
which illustrate
Schmerling’s work, and affirms that the “human
cranium is a little
longer than it is represented” in Schmerling’s
figure. The only other
remark worth quoting is this: “The
aspect of the human bones differs
little from that of the cave bones, with which we
are familiar, and of
which there is a considerable collection in the same
place. With respect
to their special forms, compared with those of the
varieties of recent
human crania, few ‘certain’ conclusions
can be put forward; for
much greater differences exist between the different
specimens of
well-characterized varieties, than between the fossil
cranium of Liege
and that of one of those varieties selected as a term
of comparison.”
Geoffroy St. Hilaire’s remarks are, it will
be observed, little but an
echo of the philosophic doubts of the describer and
discoverer of the
remains. As to the critique upon Schmerling’s
figures, I find that the
side view given by the latter is really about 3/10ths
of an inch shorter
than the original, and that the front view is diminished
to about
the same extent. Otherwise the representation
is not, in any way,
inaccurate, but corresponds very well with the cast
which is in my
possession.
A piece of the occipital bone, which Schmerling seems
to have missed,
has since been fitted on to the rest of the cranium
by an accomplished
anatomist, Dr. Spring, of Liege, under whose direction
an excellent
plaster cast was made for Sir Charles Lyell.
It is upon and from a
duplicate of that cast that my own observations and
the accompanying
figures, the outlines of which are copied from very
accurate Camera
lucida drawings, by my friend Mr. Busk, reduced to
one-half of the
natural size, are made.
As Professor Schmerling observes, the base of the
skull is destroyed,
and the facial bones are entirely absent; but the
roof of the cranium,
consisting of the frontal, parietal, and the greater
part of the
occipital bones, as far as the middle of the occipital
foramen, is
entire or nearly so. The left temporal bone is
wanting. Of the right
temporal, the parts in the immediate neighbourhood
of the auditory
foramen, the mastoid process, and a considerable portion
of the squamous
element of the temporal are well preserved (Fi.
The lines of fracture which remain between the coadjusted
pieces of the
skull, and are faithfully displayed in Schmerling’s
figure, are readily
traceable in the cast. The sutures are also discernible,
but the complex
disposition of their serrations, shown in the figure,
is not obvious
in the cast. Though the ridges which give attachment
to muscles are not
excessively prominent, they are well marked, and taken
together with
the apparently well developed frontal sinuses, and
the condition of the
sutures, leave no doubt on my mind that the skull
is that of an adult,
if not middle-aged man.
The extreme length of the skull is 7.7 inches.
Its extreme breadth,
which corresponds very nearly with the interval between
the parietal
protuberances, is not more than 5.4 inches. The
proportion of the length
to the breadth is therefore very nearly as 100 to
70. If a line be drawn
from the point at which the brow curves in towards
the root of the nose,
and which is called the ‘glabella’ (’a’)
(Fi, to the occipital
protuberance (’b’), and the distance to
the highest point of the arch of
the skull be measured perpendicularly from this line,
it will be found
to be 4.75 inches. Viewed from above, Fi,
A, the forehead presents
an evenly rounded curve, and passes into the contour
of the sides and
back of the skull, which describes a tolerably regular
elliptical curve.
The front view (Fi, B) shows that the roof of
the skull was very
regularly and elegantly arched in the transverse direction,
and that the
transverse diameter was a little less below the parietal
protuberances,
than above them. The forehead cannot be called
narrow in relation to the
rest of the skull, nor can it be called a retreating
forehead; on the
contrary, the antero-posterior contour of the skull
is well arched, so
that the distance along that contour, from the nasal
depression to the
occipital protuberance, measures about 13.75 inches.
The transverse arc
of the skull, measured from one auditory foramen to
the other, across
the middle of the sagittal suture, is about 13 inches.
The sagittal
suture itself is 5.5 inches long.
The supraciliary prominences or brow-ridges (on each
side of ‘a’, Fi are well, but not excessively, developed, and
are separated by a
median depression. Their principal elevation
is disposed so obliquely
that I judge them to be due to large frontal sinuses.
If a line joining the glabella and the occipital protuberance
(’a’, ‘b’,
Fi be made horizontal, no part of the occipital
region projects
more than 1/10th of an inch behind the posterior extremity
of that line,
and the upper edge of the auditory foramen (’c’)
is almost in contact
with a line drawn parallel with this upon the outer
surface of the
skull.
A transverse line drawn from one auditory foramen
to the other
traverses, as usual, the forepart of the occipital
foramen. The capacity
of the interior of this fragmentary skull has not
been ascertained.
The history of the Human remains from the cavern in
the Neanderthal may
best be given in the words of their original describer,
Dr Schaaffhausen
, as translated by Mr. Busk.
“In the early part of the year 1857, a human
skeleton was discovered in
a limestone cave in the Neanderthal, near Hochdal,
between Dusseldorf
and Elberfeld. Of this, however, I was unable
to procure more than a
plaster cast of the cranium, taken at Elberfeld, from
which I drew up
an account of its remarkable conformation, which was,
in the first
instance, read on the 4th of February, 1857, at the
meeting of the Lower
Rhine Medical and Natural History Society, at Bonn.
Subsequently Dr. Fuhlrott, to whom science is indebted
for the
preservation of these bones, which were not at first
regarded as human,
and into whose possession they afterwards came, brought
the cranium from
Elberfeld to Bonn, and entrusted it to me for more
accurate anatomical
examination. At the General Meeting of the Natural
History Society of
Prussian Rhineland and Westphalia, at Bonn, on the
2nd of June, 1857,
Dr Fuhlrott himself gave a full account of the
locality, and of the
circumstances under which the discovery was made.
He was of opinion that the bones might be regarded
as fossil; and in
coming to this conclusion, he laid especial stress
upon the existence of
dendritic deposits, with which their surface was covered,
and which
were first noticed upon them by Professor Meyer.
To this communication
I appended a brief report on the results of my anatomical
examination
of the bones. The conclusions at which I arrived
were: 1st. That
the extraordinary form of the skull was due to a natural
conformation
hitherto not known to exist, even in the most barbarous
racend. That
these remarkable human remains belonged to a period
antecedent to the
time of the Celts and Germans, and were in all probability
derived
from one of the wild races of North-western Europe,
spoken of by Latin
writers; and which were encountered as autochthones
by the German
immigrants. And 3rdly. That it was beyond
doubt that these human relics
were traceable to a period at which the latest animals
of the diluvium
still existed; but that no proof of this assumption,
nor consequently
of their so-termed ‘fossil’ condition,
was afforded by the circumstances
under which the bones were discovered.
“As Dr. Fuhlrott has not yet published his description
of these
circumstances, I borrow the following account of them
from one of his
letters. ’A small cave or grotto, high
enough to admit a man, and about
15 feet deep from the entrance, which is 7 or 8 feet
wide, exists in
the southern wall of the gorge of the Neanderthal,
as it is termed, at a
distance of about 100 feet from the Dussel, and about
60 feet above
the bottom of the valley. In its earlier and
uninjured condition, this
cavern opened upon a narrow plateau lying in front
of it, and from which
the rocky wall descended almost perpendicularly into
the river. It could
be reached, though with difficulty, from above.
The uneven floor was
covered to a thickness of 4 or 5 feet with a deposit
of mud, sparingly
intermixed with rounded fragments of chert. In
the removing of this
deposit, the bones were discovered. The skull
was first noticed, placed
nearest to the entrance of the cavern; and further
in, the other bones,
lying in the same horizontal plane. Of this I
was assured, in the most
positive terms, by two labourers who were employed
to clear out the
grotto, and who were questioned by me on the spot.
At first no idea was
entertained of the bones being human; and it was not
till several weeks
after their discovery that they were recognised as
such by me, and
placed in security. But, as the importance of
the discovery was not at
the time perceived, the labourers were very careless
in the collecting,
and secured chiefly only the larger bones; and to
this circumstance it
may be attributed that fragments merely of the probably
perfect skeleton
came into my possession.’
“My anatomical examination of these bones afforded
the following
results:
“The cranium is of unusual size, and of a long
elliptical form. A
most remarkable peculiarity is at once obvious in
the extraordinary
development of the frontal sinuses, owing to which
the superciliary
ridges, which coalesce completely in the middle, are
rendered so
prominent, that the frontal bone exhibits a considerable
hollow or
depression above, or rather behind them, whilst a
deep depression is
also formed in the situation of the root of the nose.
The forehead is
narrow and low, though the middle and hinder portions
of the cranial
arch are well developed. Unfortunately, the fragment
of the skull that
has been preserved consists only of the portion situated
above the
roof of the orbits and the superior occipital ridges,
which are greatly
developed, and almost conjoined so as to form a horizontal
eminence. It
includes almost the whole of the frontal bone, both
parietals, a small
part of the squamous and the upper-third of the occipital.
The recently
fractured surfaces show that the skull was broken
at the time of its
disinterment. The cavity holds 16,876 grains
of water, whence its
cubical contents may be estimated at 57.64 inches,
or 1033.24 cubic
centimetres. In making this estimation, the water
is supposed to stand
on a level with the orbital plate of the frontal,
with the deepest
notch in the squamous margin of the parietal, and
with the superior
semicircular ridges of the occipital. Estimated
in dried millet-seed,
the contents equalled 31 ounces, Prussian Apothecaries’
weight. The
semicircular line indicating the upper boundary of
the attachment of the
temporal muscle, though not very strongly marked,
ascends nevertheless
to more than half the height of the parietal bone.
On the right
superciliary ridge is observable an oblique furrow
or depression,
indicative of an injury received during life.
mm.
The length of the skull from the nasal
process of the frontal over the vertex to the
superior semicircular lines of the occipital measures.............................303
(300) = 12.0”. Circumference over the
orbital ridges and the superior semicircular lines
of the occipital......................................590
(590) = 23.37” or 23”. Width of
the frontal from the middle of the temporal line
on one side to the same point on the opposite.....................104
(114) = 4.1”--4.5”. Length of
the frontal from the nasal. process to the coronal
suture..................133 (125) = 5.25”--5”.
Extreme width of the frontal sinuses...........25
(23) = 1.0”--0.9”. Vertical height
above a line joining the deepest notches in the
squamous border of the parietals...............................70
= 2.75”. Width of hinder part
of skull from one parietal protuberance to the
other.............138 (150) = 5.4”--5.9”
Distance from the upper angle of the occipital
to the superior semicircular lines..........................................51
(60) = 1.9”--2.4”. Thickness of
the bone at the parietal protuberance...................................8.
--at the angle of the occipital................9.
at the superior semicircular line of
the occipital..................................10
= 0.3”
“Besides the cranium, the following bones have
been secured:
“1. Both thigh-bones, perfect. These,
like the skull, and all the other
bones, are characterized by their unusual thickness,
and the great
development of all the elevations and depressions
for the attachment
of muscles. In the Anatomical Museum at Bonn,
under the designation of
‘Giant’s-bones,’ are some recent
thigh-bones, with which in thickness
the foregoing pretty nearly correspond, although they
are shorter.
Giant’s
bones. Fossil bones.
mm.
mm.
Length.....................................542
= 21.4"......438 = 17.4”
Diameter of head of femur.................. 54
= 2.14"..... 53 = 2.0”
" of lower articular end, from
one condyle to the other................ 89
= 3.5"....... 87 = 3.4”
Diameter of femur in the middle............ 33
= 1.2"....... 30 = 1.1”
“2. A perfect right humerus,
whose size shows that it belongs to the
thigh-bones.
mm.
Length.....................................312
= 12.3”
Thickness in the middle....................
26 = 1.0”
Diameter of head...........................
49 = 1.9”
“Also a perfect right radius of corresponding
dimensions, and the
upper-third of a right ulna corresponding to the humerus
and radius.
“3. A left humerus of which the upper-third
is wanting, and which is
so much slenderer than the right as apparently to
belong to a distinct
individual; a left ‘ulna’, which, though
complete, is pathologically
deformed, the coronoid process being so much enlarged
by bony
growth, that flexure of the elbow beyond a right angle
must have been
impossible; the anterior fossa of the humerus for
the reception of the
coronoid process being also filled up with a similar
bony growth. At
the same time, the olecranon is curved strongly downwards.
As the bone
presents no sign of rachitic degeneration, it may
be supposed that an
injury sustained during life was the cause of the
anchylosis. When the
left ulna is compared with the right radius, it might
at first sight be
concluded that the bones respectively belonged to
different individuals,
the ulna being more than half an inch too short for
articulation with a
corresponding radius. But it is clear that this
shortening, as well
as the attenuation of the left humerus, are both consequent
upon the
pathological condition above described.
“4. A left ‘ilium’, almost
perfect, and belonging to the femur: a
fragment of the right ‘scapula’; the anterior
extremity of a rib of the
right side; and the same part of a rib of the left
side; the hinder
part of a rib of the right side; and lastly, two hinder
portions and one
middle portion of ribs, which from their unusually
rounded shape, and
abrupt curvature, more resemble the ribs of a carnivorous
animal than
those of a man. Dr. H. v. Meyer, however,
to whose judgment I defer,
will not venture to declare them to be ribs of any
animal; and it only
remains to suppose that this abnormal condition has
arisen from an
unusually powerful development of the thoracic muscles.
“The bones adhere strongly to the tongue, although,
as proved by the
use of hydrochloric acid, the greater part of the
cartilage is still
retained in them, which appears, however, to have
undergone that
transformation into gelatine which has been observed
by v. Bibra in
fossil bones. The surface of all the bones is
in many spots covered with
minute black specks, which, more especially under
a lens, are seen to
be formed of very delicate ‘dendrites’.
These deposits, which were
first observed on the bones by Dr. Meyer, are most
distinct on the inner
surface of the cranial bones. They consist of
a ferruginous compound,
and, from their black colour, may be supposed to contain
manganese.
Similar dendritic formations also occur, not unfrequently,
on laminated
rocks, and are usually found in minute fissures and
cracks. At the
meeting of the Lower Rhine Society at Bonn, on the
1st April, 1857,
Prof. Meyer stated that he had noticed in the
museum of Poppelsdorf
similar dendritic crystallizations on several fossil
bones of animals,
and particularly on those of ‘Ursus spelaeus’,
but still more abundantly
and beautifully displayed on the fossil bones and
teeth of ’Equus
adamiticus’, ‘Elephas primigenius’,
etc., from the caves of Bolve and
Sundwig. Faint indications of similar ‘dendrites’
were visible in a
Roman skull from Siegburg; whilst other ancient skulls,
which had lain
for centuries in the earth, presented no trace of
them.
“The incipient formation of dendritic deposits,
which were formerly
regarded as a sign of a truly fossil condition, is
interesting. It has
even been supposed that in diluvial deposits the presence
of ‘dendrites’
might be regarded as affording a certain mark of distinction
between
bones mixed with the diluvium at a somewhat later
period and the true
diluvial relics, to which alone it was supposed that
these deposits were
confined. But I have long been convinced that
neither can the absence of
‘dendrites’ be regarded as indicative
of recent age, nor their presence
as sufficient to establish the great antiquity of
the objects upon which
they occur. I have myself noticed upon paper,
which could scarcely
be more than a year old, dendritic deposits, which
could not be
distinguished from those on fossil bones. Thus
I possess a dog’s
skull from the Roman colony of the neighbouring Heddersheim,
’Castrum
Hadrianum’, which is in no way distinguishable
from the fossil bones
from the Frankish caves; it presents the same colour,
and adheres to the
tongue just as they do; so that this character also,
which, at a former
meeting of German naturalists at Bonn, gave rise to
amusing scenes
between Buckland and Schmerling, is no longer of any
value. In disputed
cases, therefore, the condition of the bone can scarcely
afford the
means for determining with certainty whether it be
fossil, that is to
say, whether it belong to geological antiquity or
to the historical
period.’
“As we cannot now look upon the primitive world
as representing a wholly
different condition of things, from which no transition
exists to
the organic life of the present time, the designation
of ‘fossil’, as
applied to ‘a bone’, has no longer the
sense it conveyed in the time of
Cuvier. Sufficient grounds exist for the assumption
that man coexisted
with the animals found in the ‘diluvium’;
and many a barbarous race may,
before all historical time, have disappeared, together
with the animals
of the ancient world, whilst the races whose organization
is improved
have continued the genus. The bones which form
the subject of this paper
present characters which, although not decisive as
regards a geological
epoch, are, nevertheless, such as indicate a very
high antiquity. It may
also be remarked that, common as is the occurrence
of diluvial animal
bones in the muddy deposits of caverns, such remains
have not hitherto
been met with in the caves of the Neanderthal; and
that the bones, which
were covered by a deposit of mud not more than four
or five feet thick,
and without any protective covering of stalagmite,
have retained the
greatest part of their organic substance.
“These circumstances might be adduced against
the probability of a
geological antiquity. Nor should we be justified
in regarding the
cranial conformation as perhaps representing the most
savage primitive
type of the human race, since crania exist among living
savages, which,
though not exhibiting, such a remarkable conformation
of the forehead,
which gives the skull somewhat the aspect of that
of the large apes,
still in other respects, as for instance in the greater
depth of the
temporal fossae, the crest-like, prominent temporal
ridges, and a
generally less capacious cranial cavity, exhibit an
equally low stage
of development. There is no reason for supposing
that the deep frontal
hollow is due to any artificial flattening, such as
is practised in
various modes by barbarous nations in the Old and
New World. The skull
is quite symmetrical, and shows no indication of counter-pressure
at the
occiput, whilst, according to Morton, in the Flat-heads
of the
Columbia, the frontal and parietal bones are always
unsymmetrical. Its
conformation exhibits the sparing development of the
anterior part of
the head which has been so often observed in very
ancient crania, and
affords one of the most striking proofs of the influence
of culture and
civilization on the form of the human skull.”
In a subsequent passage, Dr. Schaaffhausen remarks:
“There is no reason whatever for regarding the
unusual development of
the frontal sinuses in the remarkable skull from the
Neanderthal as an
individual or pathological deformity; it is unquestionably
a typical
race-character, and is physiologically connected with
the uncommon
thickness of the other bones of the skeleton, which
exceeds by about
one-half the usual proportions. This expansion
of the frontal sinuses,
which are appendages of the air-passages, also indicates
an unusual
force and power of endurance in the movements of the
body, as may
be concluded from the size of all the ridges and processes
for the
attachment of the muscles or bones. That this
conclusion may be drawn
from the existence of large frontal sinuses, and a
prominence of the
lower frontal region, is confirmed in many ways by
other observations.
By the same characters, according to Pallas, the wild
horse is
distinguished from the domesticated, and, according
to Cuvier, the
fossil cave-bear from every recent species of bear,
whilst, according
to Roulin, the pig, which has become wild in America,
and regained a
resemblance to the wild boar, is thus distinguished
from the same animal
in the domesticated state, as is the chamois from
the goat; and,
lastly, the bull-dog, which is characterised by its
large bones and
strongly-developed muscles from every other kind of
dog. The estimation
of the facial angle, the determination of which, according
to Professor
Owen, is also difficult in the great apes, owing to
the very prominent
supra-orbital ridges, in the present case is rendered
still more
difficult from the absence both of the auditory opening
and of the nasal
spine. But if the proper horizontal position
of the skull be taken from
the remaining portions of the orbital plates, and
the ascending line
made to touch the surface of the frontal bone behind
the prominent
supra-orbital ridges, the facial angle is not found
to exceed 56
degrees. Unfortunately, no portions of the facial
bones, whose
conformation is so decisive as regards the form and
expression of the
head, have been preserved. The cranial capacity,
compared with the
uncommon strength of the corporeal frame, would seem
to indicate a small
cerebral development. The skull, as it is, holds
about 31 ounces of
millet-seed; and as, from the proportionate size of
the wanting bones,
the whole cranial cavity should have about 6 ounces
more added, the
contents, were it perfect, may be taken at 37 ounces.
Tiedemann assigns,
as the cranial contents in the Negro, 40, 38, and
35 ounces. The cranium
holds rather more than 36 ounces of water, which corresponds
to a
capacity of 1033.24 cubic centimetres. Huschke
estimates the cranial contents of a Negress at 1127
cubic centimetres; of an old Negro at 1146 cubic centimetres.
The capacity of the Malay skulls, estimated by water,
equalled 36, 33 ounces, whilst in the diminutive Hindoos
it falls to as little as 27 ounces.”
After comparing the Neanderthal cranium
with many others, ancient and modern, Professor Schaaffhausen
concludes thus:
“But the human bones and cranium
from the Neanderthal exceed all the rest in those
peculiarities of conformation which lead to the conclusion
of their belonging to a barbarous and savage race.
Whether the cavern in which they were found, unaccompanied
with any trace of human art, were the place of their
interment, or whether, like the bones of extinct animals
elsewhere, they had been washed into it, they may still
be regarded as the most ancient memorial of the early
inhabitants of Europe.”
Mr. Busk, the translator of Dr. Schaaffhausen’s
paper, has enabled us to form a very vivid conception
of the degraded character of the Neanderthal skull,
by placing side by side with its outline, that of the
skull of a Chimpanzee, drawn to the same absolute size.
Some time after the publication of
the translation of Professor Schaaffhausen’s
Memoir, I was led to study the cast of the Neanderthal
cranium with more attention than I had previously bestowed
upon it, in consequence of wishing to supply Sir Charles
Lyell with a diagram, exhibiting the special peculiarities
of this skull, as compared with other human skulls.
In order to do this it was necessary to identify,
with precision, those points in the skulls compared
which corresponded anatomically. Of these points,
the glabella was obvious enough; but when I had distinguished
another, defined by the occipital protuberance and
superior semicircular line, and had placed the outline
of the Neanderthal skull against that of the Engis
skull, in such a position that the glabella and occipital
protuberance of both were intersected by the same
straight line, the difference was so vast and the flattening
of the Neanderthal skull so prodigious (compare Fig and 25, A.), that I at first imagined I must have
fallen into some error. And I was the more inclined
to suspect this, as, in ordinary human skulls, the
occipital protuberance and superior semicircular curved
line on the exterior of the occiput correspond pretty
closely with the ’lateral sinuses’ and
the line of attachment of the tentorium internally.
But on the tentorium rests, as I have said in
the preceding Essay, the posterior lobe of the brain;
and hence, the occipital protuberance, and the curved
line in question, indicate, approximately, the lower
limits of that lobe. Was it possible for a human
being to have the brain thus flattened and depressed;
or, on the other hand, had the muscular ridges shifted
their position? In order to solve these doubts,
and to decide the question whether the great supraciliary
projections did, or did not, arise from the development
of the frontal sinuses, I requested Sir Charles Lyell
to be so good as to obtain for me from Dr. Fuhlrott,
the possessor of the skull, answers to certain queries,
and if possible a cast, or at any rate drawings, or
photographs, of the interior of the skull.
Dr. Fuhlrott replied with a courtesy
and readiness for which I am infinitely indebted to
him, to my inquiries, and furthermore sent three excellent
photographs. One of these gives a side view of
the skull, and from it Fi, A. has been shaded.
The second (Fi, A.) exhibits the wide openings
of the frontal sinuses upon the inferior surface of
the frontal part of the skull, into which, Dr. Fuhlrott
writes, “a probe may be introduced to the depth
of an inch,” and demonstrates the great extension
of the thickened supraciliary ridges beyond the cerebral
cavity. The third, lastly (Fi, B.) exhibits
the edge and the interior of the posterior, or occipital,
part of the skull, and shows very clearly the two
depressions for the lateral sinuses, sweeping inwards
towards the middle line of the roof of the skull, to
form the longitudinal sinus. It was clear, therefore,
that I had not erred in my interpretation, and that
the posterior lobe of the brain of the Neanderthal
man must have been as much flattened as I suspected
it to be.
In truth, the Neanderthal cranium
has most extraordinary characters. It has an
extreme length of 8 inches, while its breadth is only
5.75 inches, or, in other words, its length is to
its breadth as 100:72. It is exceedingly depressed,
measuring only about 3.4 inches from the glabello-occipital
line to the vertex. The longitudinal arc, measured
in the same way as in the Engis skull, is 12 inches;
the transverse arc cannot be exactly ascertained,
in consequence of the absence of the temporal bones,
but was probably about the same, and certainly exceeded
10 1/4 inches. The horizontal circumference is
23 inches. But this great circumference arises
largely from the vast development of the supraciliary
ridges, though the perimeter of the brain case itself
is not small. The large supraciliary ridges give
the forehead a far more retreating appearance than
its internal contour would bear out.
To an anatomical eye the posterior
part of the skull is even more striking than the anterior.
The occipital protuberance occupies the extreme posterior
end of the skull, when the glabello-occipital line
is made horizontal, and so far from any part of the
occipital region extending beyond it, this region
of the skull slopes obliquely upward and forward,
so that the lambdoidal suture is situated well upon
the upper surface of the cranium. At the same
time, notwithstanding the great length of the skull,
the sagittal suture is remarkably short (4 1/2 inches),
and the squamosal suture is very straight.
In reply to my questions Dr. Fuhlrott
writes that the occipital bone “is in a state
of perfect preservation as far as the upper semicircular
line, which is a very strong ridge, linear at its extremities,
but enlarging towards the middle, where it forms two
ridges (bourrelets), united by a linear continuation,
which is slightly depressed in the middle.”
“Below the left ridge the bone
exhibits an obliquely inclined surface, six lines
(French) long, and twelve lines wide.”
This last must be the surface, the
contour of which is shown in Fi, A., below ‘b’.
It is particularly interesting, as it suggests that,
notwithstanding the flattened condition of the occiput,
the posterior cerebral lobes must have projected considerably
beyond the cerebellum, and as it constitutes one among
several points of similarity between the Neanderthal
cranium and certain Australian skulls.
Such are the two best known forms
of human cranium, which have been found in what may
be fairly termed a fossil state. Can either be
shown to fill up or diminish, to any appreciable extent,
the structural interval which exists between Man and
the man-like apes? Or, on the other hand, does
neither depart more widely from the average structure
of the human cranium, than normally formed skulls of
men are known to do at the present day?
It is impossible to form any opinion
on these questions, without some preliminary acquaintance
with the range of variation exhibited by human structure
in general a subject which has been but
imperfectly studied, while even of what is known,
my limits will necessarily allow me to give only a
very imperfect sketch.
The student of anatomy is perfectly
well aware that there is not a single organ of the
human body the structure of which does not vary, to
a greater or less extent, in different individuals.
The skeleton varies in the proportions, and even to
a certain extent in the connexions, of its constituent
bones. The muscles which move the bones vary largely
in their attachments. The varieties in the mode
of distribution of the arteries are carefully classified,
on account of the practical importance of a knowledge
of their shiftings to the surgeon. The characters
of the brain vary immensely, nothing being less constant
than the form and size of the cerebral hemispheres,
and the richness of the convolutions upon their surface,
while the most changeable structures of all in the
human brain, are exactly those on which the unwise
attempt has been made to base the distinctive characters
of humanity, viz. the posterior cornu of the
lateral ventricle, the hippocampus minor, and the
degree of projection of the posterior lobe beyond the
cerebellum. Finally, as all the world knows,
the hair and skin of human beings may present the
most extraordinary diversities in colour and in texture.
So far as our present knowledge goes,
the majority of the structural varieties to which
allusion is here made, are individual. The ape-like
arrangement of certain muscles which is occasionally
met with in the white races of mankind, is not
known to be more common among Negroes or Australians:
nor because the brain of the Hottentot Venus was found
to be smoother, to have its convolutions more symmetrically
disposed, and to be, so far, more ape-like than that
of ordinary Europeans, are we justified in concluding
a like condition of the brain to prevail universally
among the lower races of mankind, however probable
that conclusion may be.
We are, in fact, sadly wanting in
information respecting the disposition of the soft
and destructible organs of every Race of Mankind but
our own; and even of the skeleton, our Museums are
lamentably deficient in every part but the cranium.
Skulls enough there are, and since the time when Blumenbach
and Camper first called attention to the marked and
singular differences which they exhibit, skull collecting
and skull measuring has been a zealously pursued branch
of Natural History, and the results obtained have
been arranged and classified by various writers, among
whom the late active and able Retzius must always be
the first named.
Human skulls have been found to differ
from one another, not merely in their absolute size
and in the absolute capacity of the brain case, but
in the proportions which the diameters of the latter
bear to one another; in the relative size of the bones
of the face (and more particularly of the jaws and
teeth) as compared with those of the skull; in the
degree to which the upper jaw (which is of course followed
by the lower) is thrown backwards and downwards under
the fore-part of the brain case, or forwards and upward
in front of and beyond it. They differ further
in the relations of the transverse diameter of the
face, taken through the cheek bones, to the transverse
diameter of the skull; in the more rounded or more
gable-like form of the roof of the skull, and in the
degree to which the hinder part of the skull is flattened
or projects beyond the ridge, into and below which,
the muscles of the neck are inserted.
In some skulls the brain case may
be said to be ‘round,’ the extreme length
not exceeding the extreme breadth by a greater proportion
than 100 to 80, while the difference may be much less.
Men possessing such skulls were termed by Retzius
‘brachycephalic,’ and the skull of a Calmuck,
of which a front and side view (reduced outline copies
of which are given in Figure 27) are depicted by Von
Baer in his excellent, “Crania selecta,”
affords a very admirable example of that kind of skull.
Other skulls, such as that of a Negro copied in Fi from Mr. Busk’s ‘Crania typica,’
have a very different, greatly elongated form, and
may be termed ‘oblong.’ In this skull
the extreme length is to the extreme breadth as 100
to not more than 67, and the transverse diameter of
the human skull may fall below even this proportion.
People having such skulls were called by Retzius ‘dolichocephalic.’
The most cursory glance at the side
views of these two skulls will suffice to prove that
they differ, in another respect, to a very striking
extent. The profile of the face of the Calmuck
is almost vertical, the facial bones being thrown
downwards and under the forepart of the skull.
The profile of the face of the Negro, on the other
hand, is singularly inclined, the front part of the
jaws projecting far forward beyond the level of the
fore part of the skull. In the former case the
skull is said to be ‘orthognathous’ or
straight-jawed; in the latter, it is called ‘prognathous,’
a term which has been rendered, with more force than
elegance, by the Saxon equivalent, ’snouty.’
Various methods have been devised
in order to express with some accuracy the degree
of prognathism or orthognathism of any given skull;
most of these methods being essentially modifications
of that devised by Peter Camper, in order to attain
what he called the ‘facial angle.’
But a little consideration will show
that any ‘facial angle’ that has been
devised, can be competent to express the structural
modifications involved in prognathism and orthognathism,
only in a rough and general sort of way. For
the lines, the intersection of which forms the facial
angle, are drawn through points of the skull, the position
of each of which is modified by a number of circumstances,
so that the angle obtained is a complex resultant
of all these circumstances, and is not the expression
of any one definite organic relation of the parts of
the skull.
I have arrived at the conviction that
no comparison of crania is worth very much, that is
not founded upon the establishment of a relatively
fixed base line, to which the measurements, in all
cases, must be referred. Nor do I think it is
a very difficult matter to decide what that base line
should be. The parts of the skull, like those
of the rest of the animal framework, are developed
in succession the base of the skull is formed before
its sides and roof; it is converted into cartilage
earlier and more completely than the sides and roof:
and the cartilaginous base ossifies, and becomes soldered
into one piece long before the roof. I conceive
then that the base of the skull may be demonstrated
developmentally to be its relatively fixed part, the
roof and sides being relatively moveable.
The same truth is exemplified by the
study of the modifications which the skull undergoes
in ascending from the lower animals up to man.
In such a mammal as a Beaver (Fi, a line (’a b’.) drawn through the
bones, termed basioccipital, basisphenoid, and presphenoid,
is very long in proportion to the extreme length of
the cavity which contains the cerebral hemispheres
(’g h’.). The plane of the occipital
foramen (’b c’.) forms a slightly acute
angle with this ‘basicranial axis,’ while
the plane of the tentorium (’i T’.)
is inclined at rather more than 90 degrees to the
‘basicranial axis’; and so is the plane
of the perforated plate (’a d’.), by which
the filaments of the olfactory nerve leave the skull.
Again, a line drawn through the axis of the face,
between the bones called ethmoid and vomer the
“basifacial axis” (’f e’.)
forms an exceedingly obtuse angle, where, when produced,
it cuts the ‘basicranial axis.’
If the angle made by the line ‘b
c’. with ’a b’., be called the ‘occipital
angle,’ and the angle made by the line ‘a
d’. with ‘a b’. be termed the ‘olfactory
angle,’ and that made by ‘i T’. with
‘a b’. the ‘tentorial angle,’
then all these, in the mammal in question, are nearly
right angles, varying between 80 degrees and 110 degrees.
the angle ’e f b’., or that made by the
cranial with the facial axis, and which may be termed
the ‘cranio-facial angle,’ is extremely
obtuse, amounting, in the case of the Beaver, to at
least 150 degrees.
But if a series of sections of mammalian
skulls, intermediate between a Rodent and a Man (Fi, be examined, it will be found that in the higher
crania the basicranial axis becomes shorter relatively
to the cerebral length; that the ‘olfactory
angle’ and ‘occipital angle’ become
more obtuse; and that the ‘cranio-facial
angle’ becomes more acute by the bending down,
as it were, of the facial axis upon the cranial axis.
At the same time, the roof of the cranium becomes more
and more arched, to allow of the increasing height
of the cerebral hemispheres, which is eminently characteristic
of man, as well as of that backward extension, beyond
the cerebellum, which reaches its maximum in the South
America Monkeys. So that, at last, in the human
skull (Fi, the cerebral length is between twice
and thrice as great as the length of the basicranial
axis; the olfactory plane is 20 degrees or 30 degrees
on the ‘under’ side of that axis; the
occipital angle, instead of being less than 90 degrees,
is as much as 150 degrees or 160 degrees; the cranio-facial
angle may be 90 degrees or less, and the vertical height
of the skull may have a large proportion to its length.
It will be obvious, from an inspection
of the diagrams, that the basicranial axis is, in
the ascending series of Mammalia, a relatively fixed
line, on which the bones of the sides and roof of the
cranial cavity, and of the face, may be said to revolve
downwards and forwards or backwards, according to
their position. The arc described by any one
bone or plane, however, is not by any means always
in proportion to the arc described by another.
Now comes the important question,
can we discern, between the lowest and the highest
forms of the human cranium anything answering, in however
slight a degree, to this revolution of the side and
roof bones of the skull upon the basicranial axis
observed upon so great a scale in the mammalian series?
Numerous observations lead me to believe that we must
answer this question in the affirmative.
The diagrams in Figure 30 are reduced
from very carefully made diagrams of sections of four
skulls, two round and orthognathous, two long and
prognathous, taken longitudinally and vertically, through
the middle. The sectional diagrams have then
been superimposed, in such a manner, that the basal
axes of the skulls coincide by their anterior ends,
and in their direction. The deviations of the
rest of the contours (which represent the interior
of the skulls only) show the differences of the skulls
from one another, when these axes are regarded as relatively
fixed lines.
The dark contours are those of an
Australian and of a Negro skull: the light contours
are those of a Tartar skull, in the Museum of the Royal
College of Surgeons; and of a well developed round
skull from a cemetery in Constantinople, of uncertain
race, in my own possession.
It appears, at once, from these views,
that the prognathous skulls, so far as their jaws
are concerned, do really differ from the orthognathous
in much the same way as, though to a far less degree
than, the skulls of the lower mammals differ from
those of Man. Furthermore, the plane of the occipital
foramen (’b c’) forms a somewhat smaller
angle with the axis in these particular prognathous
skulls than in the orthognathous; and the like may
be slightly true of the perforated plate of the ethmoid though
this point is not so clear. But it is singular
to remark that, in another respect, the prognathous
skulls are less ape-like than the orthognathous, the
cerebral cavity projecting decidedly more beyond the
anterior end of the axis in the prognathous, than in
the orthognathous, skulls.
It will be observed that these diagrams
reveal an immense range of variation in the capacity
and relative proportion to the cranial axis, of the
different regions of the cavity which contains the
brain, in the different skulls. Nor is the difference
in the extent to which the cerebral overlaps the cerebellar
cavity less singular. A round skull (Fi,
’Const’.) may have a greater posterior
cerebral projection than a long one (Fi, ’Negro’).
Until human crania have been largely
worked out in a manner similar to that here suggested until
it shall be an opprobrium to an ethnological collection
to possess a single skull which is not bisected longitudinally until
the angles and measurements here mentioned, together
with a number of others of which I cannot speak in
this place, are determined, and tabulated with reference
to the basicranial axis as unity, for large numbers
of skulls of the different races of Mankind, I do
not think we shall have any very safe basis for that
ethnological craniology which aspires to give the
anatomical characters of the crania of the different
Races of Mankind.
At present, I believe that the general
outlines of what may be safely said upon that subject
may be summed up in a very few words. Draw a
line on a globe from the Gold Coast in Western Africa
to the steppes of Tartary. At the southern and
western end of that line there live the most dolichocephalic,
prognathous, curly-haired, dark-skinned of men the
true Negroes. At the northern and eastern end
of the same line there live the most brachycephalic,
orthognathous, straight-haired, yellow-skinned of
men the Tartars and Calmucks. The two
ends of this imaginary line are indeed, so to speak,
ethnological antipodes. A line drawn at right
angles, or nearly so, to this polar line through Europe
and Southern Asia to Hindostan, would give us a sort
of equator, around which round-headed, oval-headed,
and oblong-headed, prognathous and orthognathous,
fair and dark races but none possessing
the excessively marked characters of Calmuck or Negro group
themselves.
It is worthy of notice that the regions
of the antipodal races are antipodal in climate, the
greatest contrast the world affords, perhaps, being
that between the damp, hot, steaming, alluvial coast
plains of the West Coast of Africa and the arid, elevated
steppes and plateaux of Central Asia, bitterly cold
in winter, and as far from the sea as any part of
the world can be.
From Central Asia eastward to the
Pacific Islands and subcontinents on the one hand,
and to America on the other, brachycephaly and orthognathism
gradually diminish, and are replaced by dolichocephaly
and prognathism, less, however, on the American Continent
(throughout the whole length of which a rounded type
of skull prevails largely, but not exclusively)
than in the Pacific region, where, at length, on the
Australian Continent and in the adjacent islands, the
oblong skull, the projecting jaws, and the dark skin
reappear; with so much departure, in other respects,
from the Negro type, that ethnologists assign to these
people the special title of ‘Negritoes.’
The Australian skull is remarkable
for its narrowness and for the thickness of its walls,
especially in the region of the supraciliary ridge,
which is frequently, though not by any means invariably,
solid throughout, the frontal sinuses remaining undeveloped.
The nasal depression, again, is extremely sudden,
so that the brows overhang and give the countenance
a particularly lowering, threatening expression.
The occipital region of the skull, also, not unfrequently
becomes less prominent; so that it not only fails
to project beyond a line drawn perpendicular to the
hinder extremity of the glabello-occipital line, but
even, in some cases, begins to shelve away from it,
forwards, almost immediately. In consequence
of this circumstance, the parts of the occipital bone
which lie above and below the tuberosity make a much
more acute angle with one another than is usual, whereby
the hinder part of the base of the skull appears obliquely
truncated. Many Australian skulls have a considerable
height, quite equal to that of the average of any
other race, but there are others in which the cranial
roof becomes remarkably depressed, the skull, at the
same time, elongating so much that, probably, its
capacity is not diminished. The majority of skulls
possessing these characters, which I have seen, are
from the neighbourhood of Port Adelaide in South Australia,
and have been used by the natives as water vessels;
to which end the face has been knocked away, and a
string passed through the vacuity and the occipital
foramen, so that the skull was suspended by the greater
part of its basis.
Figure 32 represents the contour of
a skull of this kind from Western Port, with the jaw
attached, and of the Neanderthal skull, both reduced
to one-third of the size of nature. A small additional
amount of flattening and lengthening, with a corresponding
increase of the supraciliary ridge, would convert
the Australian brain case into a form identical with
that of the aberrant fossil.
And now, to return to the fossil skulls,
and to the rank which they occupy among, or beyond,
these existing varieties of cranial conformation.
In the first place, I must remark, that, as Professor
Schmerling well observed (’supra’,
in commenting upon the Engis skull, the formation
of a safe judgment upon the question is greatly hindered
by the absence of the jaws from both the crania, so
that there is no means of deciding with certainty,
whether they were more or less prognathous than the
lower existing races of mankind. And yet, as we
have seen, it is more in this respect than any other,
that human skulls vary, towards and from, the brutal
type the brain case of an average dolichocephalic
European differing far less from that of a Negro,
for example, than his jaws do. In the absence
of the jaws, then, any judgment on the relations of
the fossil skulls to recent Races must be accepted
with a certain reservation.
But taking the evidence as it stands,
and turning first to the Engis skull, I confess I
can find no character in the remains of that cranium
which, if it were a recent skull, would give any trustworthy
clue as to the Race to which it might appertain.
Its contours and measurements agree very well with
those of some Australian skulls which I have examined and
especially has it a tendency towards that occipital
flattening, to the great extent of which, in some Australian
skulls, I have alluded. But all Australian skulls
do not present this flattening, and the supraciliary
ridge of the Engis skull is quite unlike that of the
typical Australians.
On the other hand, its measurements
agree equally well with those of some European skulls.
And assuredly, there is no mark of degradation about
any part of its structure. It is, in fact, a fair
average human skull, which might have belonged to
a philosopher, or might have contained the thoughtless
brains of a savage.
The case of the Neanderthal skull
is very different. Under whatever aspect we view
this cranium, whether we regard its vertical depression,
the enormous thickness of its supraciliary ridges,
its sloped occiput, or its long and straight squamosal
suture, we meet with ape-like characters, stamping
it as the most pithecoid of human crania yet discovered.
But Professor Schaaffhausen states (’supra’,
, that the cranium, in its present condition,
holds 1033.24 cubic centimetres of water, or about
63 cubic inches, and as the entire skull could hardly
have held less than an additional 12 cubic inches,
its capacity may be estimated at about 75 cubic inches,
which is the average capacity given by Morton for
Polynesian and Hottentot skulls.
So large a mass of brain as this,
would alone suggest that the pithecoid tendencies,
indicated by this skull, did not extend deep into the
organization; and this conclusion is borne out by the
dimensions of the other bones of the skeleton given
by Professor Schaaffhausen, which show that the absolute
height and relative proportions of the limbs were
quite those of an European of middle stature.
The bones are indeed stouter, but this and the great
development of the muscular ridges noted by Dr. Schaaffhausen,
are characters to be expected in savages. The
Patagonians, exposed without shelter or protection
to a climate possibly not very dissimilar from that
of Europe at the time during which the Neanderthal
man lived, are remarkable for the stoutness of their
limb bones.
In no sense, then, can the Neanderthal
bones be regarded as the remains of a human being
intermediate between Men and Apes. At most, they
demonstrate the existence of a man whose skull may
be said to revert somewhat towards the pithecoid type just
as a Carrier, or a Pouter, or a Tumbler, may sometimes
put on the plumage of its primitive stock, the ‘Columba
livia’. And indeed, though truly the most
pithecoid of known human skulls, the Neanderthal cranium
is by no means so isolated as it appears to be at
first, but forms, in reality, the extreme term of a
series leading gradually from it to the highest and
best developed of human crania. On the one hand,
it is closely approached by the flattened Australian
skulls, of which I have spoken, from which other Australian
forms lead us gradually up to skulls having very much
the type of the Engis cranium. And, on the other
hand, it is even more closely affined to the skulls
of certain ancient people who inhabited Denmark during
the ‘stone period,’ and were probably
either contemporaneous with, or later than, the makers
of the ‘refuse heaps,’ or ‘Kjokkenmoddings’
of that country.
The correspondence between the longitudinal
contour of the Neanderthal skull and that of some
of those skulls from the tumuli at Borreby, very
accurate drawings of which have been made by Mr. Busk,
is very close. The occiput is quite as retreating,
the supraciliary ridges are nearly as prominent, and
the skull is as low. Furthermore, the Borreby
skull resembles the Neanderthal form more closely
than any of the Australian skulls do, by the much
more rapid retrocession of the forehead. On the
other hand, the Borreby skulls are all somewhat broader,
in proportion to their length, than the Neanderthal
skull, while some attain that proportion of breadth
to length (80:100) which constitutes brachycephaly.
In conclusion, I may say, that the
fossil remains of Man hitherto discovered do not seem
to me to take us appreciably nearer to that lower
pithecoid form, by the modification of which he has,
probably, become what he is. And considering
what is now known of the most ancient races of men;
seeing that they fashioned flint axes and flint knives
and bone-skewers, of much the same pattern as those
fabricated by the lowest savages at the present day,
and that we have every reason to believe the habits
and modes of living of such people to have remained
the same from the time of the Mammoth and the tichorhine
Rhinoceros till now, I do not know that this result
is other than might be expected.
Where, then, must we look for primaeval
Man? Was the oldest ’Homo sapiens’
pliocène or miocène, or yet more ancient?
In still older strata do the fossilized bones of an
Ape more anthropoid, or a Man more pithecoid, than
any yet known await the researches of some unborn
paleontologist?
Time will show. But, in the meanwhile,
if any form of the doctrine of progressive development
is correct, we must extend by long epochs the most
liberal estimate that has yet been made of the antiquity
of Man.