In loving memory of my father, Shlomo Harari
Timeline of History
(Years Before the Present)
13.5 billion → Matter and energy appear. Beginning of physics. Atoms and molecules
appear. Beginning of chemistry.
4.5 billion → Formation of planet Earth.
3.8 billion → Emergence of organisms. Beginning of biology.
6 million → Last common grandmother of humans and chimpanzees.
2.5 million → Evolution of the genus
Homo
in Africa. First stone tools.
2 million → Humans spread from Africa to Eurasia. Evolution of different human
species.
500,000 → Neanderthals evolve in Europe and the Middle East.
300,000 → Daily usage of fire.
200,000 → Homo sapiens
evolves in East Africa.
70,000 → The Cognitive Revolution. Emergence of fictive language.
Beginning of history. Sapiens spread out of Africa.
45,000 → Sapiens settle Australia. Extinction of Australian megafauna.
30,000 → Extinction of Neanderthals.
16,000 → Sapiens settle America. Extinction of American megafauna.
13,000 → Extinction of
Homo floresiensis. Homo sapiens
the only surviving human species.
12,000 → The Agricultural Revolution. Domestication of plants and animals.
Permanent settlements.
5,000 → First kingdoms, script and money. Polytheistic religions.
4,250 → First empire – the Akkadian Empire of Sargon.
2,500 → Invention of coinage – a universal money.
The Persian Empire – a universal political order ‘for the benefit of all
humans’.
Buddhism in India – a universal truth ‘to liberate all beings from suffering’.
2,000 → Han Empire in China. Roman Empire in the Mediterranean. Christianity.
1,400 → Islam.
500 → The Scientific Revolution. Humankind admits its ignorance and begins to
acquire unprecedented power. Europeans begin to conquer America and the
oceans. The entire planet becomes a single historical arena. The rise of
capitalism.
200 → The Industrial Revolution. Family and community are replaced by state and
market. Massive extinction of plants and animals.
The Present
Humans transcend the boundaries of planet Earth. Nuclear weapons threaten
the survival of humankind. Organisms are increasingly shaped by intelligent
design rather than natural selection.
The Future
Intelligent design becomes the basic principle of life?
Homo sapiens
is replaced by superhumans?
Part One: The Cognitive Revolution
1. A human handprint made about 30,000 years ago, on the wall of the
Chauvet-Pont-d’Arc Cave in southern France. Somebody tried to say, ‘I
was here!’
1. An Animal of No Significance
ABOUT 13.5 BILLION YEARS AGO, MATTER, energy, time and space
came into being in what is known as the Big Bang. The story of these
fundamental features of our universe is called physics.
About 300,000 years after their appearance, matter and energy started to
coalesce into complex structures, called atoms, which then combined into
molecules. The story of atoms, molecules and their interactions is called
chemistry.
About 3.8 billion years ago, on a planet called Earth, certain molecules
combined to form particularly large and intricate structures called organisms.
The story of organisms is called biology.
About 70,000 years ago, organisms belonging to the species Homo sapiens
started to form even more elaborate structures called cultures. The subsequent
development of these human cultures is called history.
Three important revolutions shaped the course of history: the Cognitive
Revolution kick-started history about 70,000 years ago. The Agricultural
Revolution sped it up about 12,000 years ago. The Scientific Revolution, which
got under way only 500 years ago, may well end history and start something
completely different. This book tells the story of how these three revolutions
have affected humans and their fellow organisms.
There were humans long before there was history. Animals much like
modern humans first appeared about 2.5 million years ago. But for countless
generations they did not stand out from the myriad other organisms with which
they shared their habitats.
On a hike in East Africa 2 million years ago, you might well have
encountered a familiar cast of human characters: anxious mothers cuddling their
babies and clutches of carefree children playing in the mud; temperamental
youths chafing against the dictates of society and weary elders who just wanted
to be left in peace; chest-thumping machos trying to impress the local beauty and
wise old matriarchs who had already seen it all. These archaic humans loved,
played, formed close friendships and competed for status and power – but so did
chimpanzees, baboons and elephants. There was nothing special about them.
Nobody, least of all humans themselves, had any inkling that their descendants
would one day walk on the moon, split the atom, fathom the genetic code and
write history books. The most important thing to know about prehistoric humans
is that they were insignificant animals with no more impact on their environment
than gorillas, fireflies or jellyfish.
Biologists classify organisms into species. Animals are said to belong to the
same species if they tend to mate with each other, giving birth to fertile
offspring. Horses and donkeys have a recent common ancestor and share many
physical traits. But they show little sexual interest in one another. They will mate
if induced to do so – but their offspring, called mules, are sterile. Mutations in
donkey DNA can therefore never cross over to horses, or vice versa. The two
types of animals are consequently considered two distinct species, moving along
separate evolutionary paths. By contrast, a bulldog and a spaniel may look very
different, but they are members of the same species, sharing the same DNA pool.
They will happily mate and their puppies will grow up to pair off with other
dogs and produce more puppies.
Species that evolved from a common ancestor are bunched together under
the heading ‘genus’ (plural genera). Lions, tigers, leopards and jaguars are
different species within the genus Panthera. Biologists label organisms with a
two-part Latin name, genus followed by species. Lions, for example, are called
Panthera leo, the species leo of the genus Panthera. Presumably, everyone
reading this book is a Homo sapiens – the species sapiens (wise) of the genus
Homo (man).
Genera in their turn are grouped into families, such as the cats (lions,
cheetahs, house cats), the dogs (wolves, foxes, jackals) and the elephants
(elephants, mammoths, mastodons). All members of a family trace their lineage
back to a founding matriarch or patriarch. All cats, for example, from the
smallest house kitten to the most ferocious lion, share a common feline ancestor
who lived about 25 million years ago.
Homo sapiens, too, belongs to a family. This banal fact used to be one of
history’s most closely guarded secrets. Homo sapiens long preferred to view
itself as set apart from animals, an orphan bereft of family, lacking siblings or
cousins, and most importantly, without parents. But that’s just not the case. Like
it or not, we are members of a large and particularly noisy family called the great
apes. Our closest living relatives include chimpanzees, gorillas and orang-utans.
The chimpanzees are the closest. Just 6 million years ago, a single female ape
had two daughters. One became the ancestor of all chimpanzees, the other is our
own grandmother.
Skeletons in the Closet
Homo sapiens has kept hidden an even more disturbing secret. Not only do
we possess an abundance of uncivilised cousins, once upon a time we had quite
a few brothers and sisters as well. We are used to thinking about ourselves as the
only humans, because for the last 10,000 years, our species has indeed been the
only human species around. Yet the real meaning of the word human is ‘an
animal belonging to the genus Homo’, and there used to be many other species
of this genus besides Homo sapiens. Moreover, as we shall see in the last chapter
of the book, in the not so distant future we might again have to contend with
non-sapiens humans. To clarify this point, I will often use the term ‘Sapiens’ to
denote members of the species Homo sapiens, while reserving the term ‘human’
to refer to all extant members of the genus Homo.
Humans first evolved in East Africa about 2.5 million years ago from an
earlier genus of apes called Australopithecus, which means ‘Southern Ape’.
About 2 million years ago, some of these archaic men and women left their
homeland to journey through and settle vast areas of North Africa, Europe and
Asia. Since survival in the snowy forests of northern Europe required different
traits than those needed to stay alive in Indonesia’s steaming jungles, human
populations evolved in different directions. The result was several distinct
species, to each of which scientists have assigned a pompous Latin name.
2. Our siblings, according to speculative reconstructions (left to right):
Homo rudolfensis (East Africa); Homo erectus (East Asia); and Homo
neanderthalensis (Europe and western Asia). All are humans.
Humans in Europe and western Asia evolved into Homo neanderthalensis
(‘Man from the Neander Valley), popularly referred to simply as ‘Neanderthals’.
Neanderthals, bulkier and more muscular than us Sapiens, were well adapted to
the cold climate of Ice Age western Eurasia. The more eastern regions of Asia
were populated by Homo erectus, ‘Upright Man’, who survived there for close to
2 million years, making it the most durable human species ever. This record is
unlikely to be broken even by our own species. It is doubtful whether Homo
sapiens will still be around a thousand years from now, so 2 million years is
really out of our league.
On the island of Java, in Indonesia, lived Homo soloensis, ‘Man from the
Solo Valley’, who was suited to life in the tropics. On another Indonesian island
– the small island of Flores – archaic humans underwent a process of dwarfing.
Humans first reached Flores when the sea level was exceptionally low, and the
island was easily accessible from the mainland. When the seas rose again, some
people were trapped on the island, which was poor in resources. Big people, who
need a lot of food, died first. Smaller fellows survived much better. Over the
generations, the people of Flores became dwarves. This unique species, known
by scientists as Homo floresiensis, reached a maximum height of only one metre
and weighed no more than twenty-five kilograms. They were nevertheless able
to produce stone tools, and even managed occasionally to hunt down some of the
island’s elephants – though, to be fair, the elephants were a dwarf species as
well.
In 2010 another lost sibling was rescued from oblivion, when scientists
excavating the Denisova Cave in Siberia discovered a fossilised finger bone.
Genetic analysis proved that the finger belonged to a previously unknown
human species, which was named Homo denisova. Who knows how many lost
relatives of ours are waiting to be discovered in other caves, on other islands,
and in other climes.
While these humans were evolving in Europe and Asia, evolution in East
Africa did not stop. The cradle of humanity continued to nurture numerous new
species, such as Homo rudolfensis, ‘Man from Lake Rudolf’, Homo ergaster,
‘Working Man’, and eventually our own species, which we’ve immodestly
named Homo sapiens, ‘Wise Man’.
The members of some of these species were massive and others were
dwarves. Some were fearsome hunters and others meek plant-gatherers. Some
lived only on a single island, while many roamed over continents. But all of
them belonged to the genus Homo. They were all human beings.
It’s a common fallacy to envision these species as arranged in a straight line
of descent, with Ergaster begetting Erectus, Erectus begetting the Neanderthals,
and the Neanderthals evolving into us. This linear model gives the mistaken
impression that at any particular moment only one type of human inhabited the
earth, and that all earlier species were merely older models of ourselves. The
truth is that from about 2 million years ago until around 10,000 years ago, the
world was home, at one and the same time, to several human species. And why
not? Today there are many species of foxes, bears and pigs. The earth of a
hundred millennia ago was walked by at least six different species of man. It’s
our current exclusivity, not that multi-species past, that is peculiar – and perhaps
incriminating. As we will shortly see, we Sapiens have good reasons to repress
the memory of our siblings.
The Cost of Thinking
Despite their many differences, all human species share several defining
characteristics. Most notably, humans have extraordinarily large brains
compared to other animals. Mammals weighing sixty kilograms have an average
brain size of 200 cubic centimetres. The earliest men and women, 2.5 million
years ago, had brains of about 600 cubic centimetres. Modern Sapiens sport a
brain averaging 1,200–1,400 cubic centimetres. Neanderthal brains were even
bigger.
That evolution should select for larger brains may seem to us like, well, a nobrainer.
We are so enamoured of our high intelligence that we assume that when
it comes to cerebral power, more must be better. But if that were the case, the
feline family would also have produced cats who could do calculus. Why is
genus Homo the only one in the entire animal kingdom to have come up with
such massive thinking machines?
The fact is that a jumbo brain is a jumbo drain on the body. It’s not easy to
carry around, especially when encased inside a massive skull. It’s even harder to
fuel. In Homo sapiens, the brain accounts for about 2–3 per cent of total body
weight, but it consumes 25 per cent of the body’s energy when the body is at
rest. By comparison, the brains of other apes require only 8 per cent of rest-time
energy. Archaic humans paid for their large brains in two ways. Firstly, they
spent more time in search of food. Secondly, their muscles atrophied. Like a
government diverting money from defence to education, humans diverted energy
from biceps to neurons. It’s hardly a foregone conclusion that this is a good
strategy for survival on the savannah. A chimpanzee can’t win an argument with
a Homo sapiens, but the ape can rip the man apart like a rag doll.
Today our big brains pay off nicely, because we can produce cars and guns
that enable us to move much faster than chimps, and shoot them from a safe
distance instead of wrestling. But cars and guns are a recent phenomenon. For
more than 2 million years, human neural networks kept growing and growing,
but apart from some flint knives and pointed sticks, humans had precious little to
show for it. What then drove forward the evolution of the massive human brain
during those 2 million years? Frankly, we don’t know.
Another singular human trait is that we walk upright on two legs. Standing
up, it’s easier to scan the savannah for game or enemies, and arms that are
unnecessary for locomotion are freed for other purposes, like throwing stones or
signalling. The more things these hands could do, the more successful their
owners were, so evolutionary pressure brought about an increasing concentration
of nerves and finely tuned muscles in the palms and fingers. As a result, humans
can perform very intricate tasks with their hands. In particular, they can produce
and use sophisticated tools. The first evidence for tool production dates from
about 2.5 million years ago, and the manufacture and use of tools are the criteria
by which archaeologists recognise ancient humans.
Yet walking upright has its downside. The skeleton of our primate ancestors
developed for millions of years to support a creature that walked on all fours and
had a relatively small head. Adjusting to an upright position was quite a
challenge, especially when the scaffolding had to support an extra-large cranium.
Humankind paid for its lofty vision and industrious hands with backaches and
stiff necks.
Women paid extra. An upright gait required narrower hips, constricting the
birth canal – and this just when babies’ heads were getting bigger and bigger.
Death in childbirth became a major hazard for human females. Women who
gave birth earlier, when the infants brain and head were still relatively small and
supple, fared better and lived to have more children. Natural selection
consequently favoured earlier births. And, indeed, compared to other animals,
humans are born prematurely, when many of their vital systems are still underdeveloped.
A colt can trot shortly after birth; a kitten leaves its mother to forage
on its own when it is just a few weeks old. Human babies are helpless,
dependent for many years on their elders for sustenance, protection and
education.
This fact has contributed greatly both to humankind’s extraordinary social
abilities and to its unique social problems. Lone mothers could hardly forage
enough food for their offspring and themselves with needy children in tow.
Raising children required constant help from other family members and
neighbours. It takes a tribe to raise a human. Evolution thus favoured those
capable of forming strong social ties. In addition, since humans are born
underdeveloped, they can be educated and socialised to a far greater extent than
any other animal. Most mammals emerge from the womb like glazed
earthenware emerging from a kiln – any attempt at remoulding will scratch or
break them. Humans emerge from the womb like molten glass from a furnace.
They can be spun, stretched and shaped with a surprising degree of freedom.
This is why today we can educate our children to become Christian or Buddhist,
capitalist or socialist, warlike or peace-loving.
*
We assume that a large brain, the use of tools, superior learning abilities and
complex social structures are huge advantages. It seems self-evident that these
have made humankind the most powerful animal on earth. But humans enjoyed
all of these advantages for a full 2 million years during which they remained
weak and marginal creatures. Thus humans who lived a million years ago,
despite their big brains and sharp stone tools, dwelt in constant fear of predators,
rarely hunted large game, and subsisted mainly by gathering plants, scooping up
insects, stalking small animals, and eating the carrion left behind by other more
powerful carnivores.
One of the most common uses of early stone tools was to crack open bones
in order to get to the marrow. Some researchers believe this was our original
niche. Just as woodpeckers specialise in extracting insects from the trunks of
trees, the first humans specialised in extracting marrow from bones. Why
marrow? Well, suppose you observe a pride of lions take down and devour a
giraffe. You wait patiently until they’re done. But it’s still not your turn because
first the hyenas and jackals – and you don’t dare interfere with them scavenge
the leftovers. Only then would you and your band dare approach the carcass,
look cautiously left and right – and dig into the edible tissue that remained.
This is a key to understanding our history and psychology. Genus Homo’s
position in the food chain was, until quite recently, solidly in the middle. For
millions of years, humans hunted smaller creatures and gathered what they
could, all the while being hunted by larger predators. It was only 400,000 years
ago that several species of man began to hunt large game on a regular basis, and
only in the last 100,000 years – with the rise of Homo sapiens – that man jumped
to the top of the food chain.
That spectacular leap from the middle to the top had enormous
consequences. Other animals at the top of the pyramid, such as lions and sharks,
evolved into that position very gradually, over millions of years. This enabled
the ecosystem to develop checks and balances that prevent lions and sharks from
wreaking too much havoc. As lions became deadlier, so gazelles evolved to run
faster, hyenas to cooperate better, and rhinoceroses to be more bad-tempered. In
contrast, humankind ascended to the top so quickly that the ecosystem was not
given time to adjust. Moreover, humans themselves failed to adjust. Most top
predators of the planet are majestic creatures. Millions of years of dominion
have filled them with self-confidence. Sapiens by contrast is more like a banana
republic dictator. Having so recently been one of the underdogs of the savannah,
we are full of fears and anxieties over our position, which makes us doubly cruel
and dangerous. Many historical calamities, from deadly wars to ecological
catastrophes, have resulted from this over-hasty jump.
