Lecture 10: The Early Earth—A Short History
the semimolten middle layers of the mantle. Even lighter materials such as
granites formed the eggshell-thin crust, which cooled most rapidly. Gases
and water vapor bubbling up through volcanoes formed the Earth’s earliest
atmosphere, which was dominated by water vapor, nitrogen and carbon
dioxide. (An earlier atmosphere of hydrogen and helium had probably
drifted into space when the Earth was too small to hold them through its
gravitational pull.)The Earth also acquired a satellite of its own, the Moon. The fact that the
Moon contains few metallic elements suggests that it was gouged out of the
Earth’s upper layers by a violent collision with a Mars-sized object just after
differentiation, when most metals had sunk to the core.During the Hadean eon, the Earth cooled. Eventually, water vapor rained
down to form the ¿ rst seas. As we will see, water in liquid form appears
to be vital for the complex chemical reactions that gave rise to life. At the
end of the Hadean eon, the Earth
would still have seemed an
extremely hostile environment to
modern humans.The Archaean eon, the eon of the
earliest life forms, lasted from
3.8 billion to 2.5 billion years
ago. There were two important
changes during this era. Asteroid
impacts diminished as more
and more stray objects were
absorbed within existing planets,
and the solar system became a
less violent place. However, as we will see in Lecture Seventeen, occasional
impacts could still play a critical, and catastrophic, role in the Earth’s history.The Earth’s atmosphere began to change. Most important for us, there
appeared increasing amounts of free oxygen. Oxygen is an extremely reactive
element that eagerly combines with other elements, a fact we observe
whenever we light a ¿ re. So the appearance of free oxygen must mean thatApollo 17 astronaut Harrison Schmitt
collects lunar rock samples.Courtesy NASA.