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Counterpoints in Science
The
Other People
First Neandertal Tells All
Jerold M. Lowenstein
In 1856 a strange skeleton was blasted out of
a cave in the Neander Valley (Neandertal) near Düsseldorf, Germany.
The skull was as large as that of a present-day human but very different
in shape, longer from front to back, low and flattened on top, with prominent
brow-ridges. The ribs and leg bones were heavier and stronger than those
of a contemporary man.
Neandertal Man, as the skeleton was called, instantly
became the nexus of a controversy that has continued for the last 143
years. Was this beetle-browed creature with the projecting face and receding
chin the precursor to our own species, Homo sapiens, or did it
represent an extinct sidebranch of humanity, Homo neanderthalensis?
That "first" Neandertal, it turned out, wasn't
actually the first. Last summer I attended a conference on Neandertals
in Gibraltar, which was celebrating the 150th anniversary of the 1848
discovery in Forbes' Quarry of a woman's skull now known to be a Neandertal,
eight years before the Neander Valley bones came to light! Unfortunately,
its significance was not appreciated at the time. Otherwise, we might
be arguing today about Homo gibralterensis.
Darwin's great idea, published in 1859, that species
arise from earlier species, change with time, and eventually go extinct,
provided a framework for understanding the Neandertals. Paleontologist
Thomas Henry Huxley, Darwin's friend and supporter, considered them an
extinct human species. But towering over scientific thought in mid-nineteenth-century
Germany was Rudolf Virchow, the father of modern pathology who became
a lifelong opponent of Darwinian evolution. He belonged to the vast majority
who believed that species had been created once and did not change. He
diagnosed the Neandertal skeleton as that of a man suffering from rickets,
a malformation of the bones due to vitamin D deficiency. Some other German
scientists speculated that the deceased was a congenital idiot or a Cossack
fleeing from Napoleon's army, who had crawled into the cave and died.
In later years, numerous additional Neandertals
were discovered in Belgium, Croatia, and France, but Virchow stuck by
his rickety guns. The concept that Neandertals were merely a pathological
version of modern humanity has never completely faded away. Last December,
The New York Times reported on a new theory by geographer
Jerome E. Dobson, that the Neandertals were cretins suffering from iodine
deficiency. According to Dobson, they didn't actually go extinct 30,000
years ago, they just changed their diet to more iodine-rich food-et
voila! Their bones took on a "normal" shape, like ours.
In the past few years, there have been four major
new books on Neandertals-or Neanderthals, the older spelling. The distinguished
authors of these four tomes agree that the Neandertals were fascinating
people who inhabited Europe and the Near East from about 300,000 to 30,000
years ago, when they went extinct. The Neandertals were muscular, heavily
built, with short legs and arms, and cold-adapted like Eskimos. They lived
in caves, used fire, made stone tools, and buried their dead. They apparently
took care of their own, because a number of the skeletons show healed
fractures or severe arthritis, conditions which would have been quickly
fatal in a non-supportive environment.
Authors of these books and innumerable articles
don't agree on the Neandertals' relationship to us. From the same bones
and stones, many eminent experts draw opposite conclusions. Some are convinced
the Neandertals were our direct ancestors. Others think they were an evolutionary
dead end who left no descendants. A third, in-between position is that
there was partial interbreeding between modern humans and Neandertals,
so that there are still some Neandertal genes floating around in present
human populations. One prominent paleontologist who supports this position
claims that he sees a Neandertal when he looks in the mirror each morning!
Several hundred sites have been excavated where
Neandertals lived, all over Europe and the Near East, from Spain to Israel
and Iraq to Uzbekistan. Several hundred partial skeletons and thousands
of stone tools have been recovered. Certainly there should be enough evidence
by now to decide these questions, if they could be decided on the basis
of physical anatomy and archeology.
Neandertal anatomy is distinct from our own in
ways that cannot be explained merely by deficiency diseases. Aside from
the skull, Neandertals differ in the shape of the jaw and pelvis. X-ray
CT scanning has revealed that their inner ear bones are unique. It is
significant that these identifying features are present in infant skeletons
as well as adults. Deficiencies of vitamin D or iodine would be more manifest
in mature adult bones than in incompletely formed infant bone.
Computer reconstruction has been applied to a
Neandertal child's skull from Devil's Tower in Gibraltar. Missing pieces
of this partial skull were filled in by creating mirror images of the
pieces available. The computer program was able to determine brain size
and show that skull thickness was greater and tooth development earlier
than that of a modern child of the same age.
Israel provides some of the most enigmatic pieces
of the jigsaw puzzle of modern and Neandertal relationships. Near Haifa
and the Sea of Galilee, Neandertal and modern skeletons have been found
in caves located close together. In the past, it was difficult to date
cave materials, and it was generally assumed that the Neandertals had
evolved into moderns over a long period of time.
Thermoluminescence and electron spin resonance
tell a different story. These relatively new dating techniques measure
the cumulative effects of radioactivity on teeth and stones. Modern-looking
bones in the caves of Qafzeh and Skhul are dated at about 90,000 years
old, while Neandertals from the nearby caves of Kebara and Amud are only
60,000 years old.
These dates imply that the moderns got into Israel
first, and the Neandertals arrived later. They apparently lived side by
side for many thousands of years, using the same types of stone tools,
before the Neandertals disappeared.
This scenario agrees very well with mitochondrial
DNA evidence that our species, Homo sapiens, originated in Africa
about 150,000 years ago and that some groups left Africa about 100,000
years ago and began to populate the other continents. Israel is on the
direct route out of Africa, and the 90,000-year-old skeletons found there
are the oldest members of our species located outside of Africa.
In Europe, the kind of tools associated with Neandertals
are distinctive from the tools made and used by the moderns. The Neandertals'
tool kit, called Mousterian after the French cave site where they were
first discovered, consisted mostly of discoid stones with their edges
sharpened by flaking off small pieces, and pointed stones sharpened on
the edges. The moderns' kit, called Aurignacian, is characterized by long
retouched blades, short, steep-sided scrapers, and more refined tools
made of bone and antler (see page 22).
If only we had Neandertal mitochondrial DNA to
compare with that of living human populations, we might be able to resolve
these long-simmering disputes about our relationship to them. As readers
of my columns are aware, I have been doing research on fossil molecules
for the past two decades, hoping to clarify these kinds of problems. Using
the technique of radioimmunoassay, I have detected serum albumin in a
Neandertal bone from Shanidar, Iraq. This albumin is not distinguishably
different from that of living humans. Human albumin, however, is only
one percent different from that of chimpanzees, too slow a "molecular
clock" to reveal our genealogical relationship to the Neandertals.
A new chapter in "biomolecular paleontology" began
in 1987, when Allan Wilson and his collaborators at Berkeley were able
to extract mitochondrial DNA from fossils a few hundred to a few thousand
years old. Mitochondrial DNA is a "fast clock" that mutates at about ten
times the rate of nuclear genes such as the albumin gene. Why mitochondrial
DNA changes so rapidly is not known; one hypothesis is that its repair
enzymes are not as efficient as those of nuclear DNA, so that more "typos"
get through without being corrected. Whatever the reason, mitochondrial
DNA's rapid evolution provided the Wilson group with a stopwatch to determine
the date of origin of Homo sapiens.
Two years ago a team led by Svante Pääbo,
a former Allan Wilson student now at the University of Munich, succeeded
in getting mitochondrial DNA from a small piece of an arm bone of the
First Neandertal, the original specimen that exploded out of Feldhofer
Cave in 1856. It was only fitting that the skeleton that raised so many
questions should finally provide some of the answers.
The Munich molecular sleuths used the most modern
techniques, the polymerase chain reaction (PCR) and bacterial cloning,
to amplify DNA fragments so that these copies could then be analyzed and
sequenced. They were able to reconstruct a 378-base-pair sequence, and
match it with the corresponding sequence from living people. They made
comparisons with almost a thousand individuals from around the world.
They particularly wanted to see if Neandertal DNA shows any resemblance
to that of Europeans. If so, this would support the Neandertals-as-ancestors
theory. Neandertals have been found in Africa or East Asia.
To fend off potential criticism that their results
might be incorrect or biased, the Munich group provided some Neandertal
bone to Mark Stoneking, another former Wilson student, at Pennsylvania
State University, where he and his team made an independent analysis.
Results from the two laboratories were in complete
accord. The 378-base-pair Neandertal sequence differed on average from
modern human DNA in 27 places. The modern human sequences differed from
each other in only eight places. Moreover, the Neandertal DNA was no more
similar to that of Europeans than it was to any other geographical group.
These results support only one of the three theories
about Neandertals. They indicate that Neandertals were a completely separate
species from Homo sapiens, four times as different from us genetically
as Africans, Asians, Europeans, and Australian aborigines are from each
other. The Neandertal DNA indicates that the two species, Homo neanderthalensis
and Homo sapiens, had a common ancestor in Africa about 600,000
years ago. There is no DNA evidence of any interbreeding between the two
species. Therefore, when the Neandertals went extinct about 30,000 years
ago, their genes went extinct, too.
The few paleontologists who belong to a hard core
of "multiregionalists" continue to derive their genetics from their interpretations
of fossil bones and teeth. At the Gibraltar conference last August, however,
attended by paleontologists and archaeologists from all over the world,
not one speaker contested the DNA findings. It is important, of course,
to confirm these results with other Neandertal specimens, and numerous
others have been tested, but so far none have yielded any decipherable
DNA. It would be a remarkable coincidence if the first Neandertal should
have the last word about his own evolutionary status.
Though we know now that Neandertals were not merely
a distorted image of ourselves, they were our closest relatives. Their
brains were as large as ours, or a little larger, but their tools were
less sophisticated and they apparently never produced the kind of cave
art that burst out among Homo sapiens about 40,000 years ago in
Africa, Asia, and Europe.
Unfortunately, CT scanning and mitochondrial DNA
can't tell us what the Neandertals were thinking, or what ultimately gave
us the evolutionary edge over them. Had they mastered language? (There's
a theory that they had the wrong kind of larynx.) Did they make and wear
clothes? (Their tool kits are devoid of the bone needles so abundant in
the moderns' tool kit.) Did they make a last stand against their slender
dome-headed competitors, or did they just fade away?
It is not likely that we'll answer any of these
questions very soon. But we do now have a measure of the degree of our
kinship with those stolid cousins who once flourished in the glacial climes
of Eurasia and who (as endless novels and movies have imagined) were driven
into extinction by our ancestors a couple of thousand generations ago.
Jerold
M. Lowenstein is professor of medicine at the University
of California in San Francisco and chairman of the Department of
Nuclear Medicine at California Pacific Medical Center in San Francisco.
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Summer 1999
Vol. 52:3
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