July 2019, ScientificAmerican.com 77Erica Jawin is
a postdoctoral
research geologist
at the Smithsonian
National Museum
of Natural History.even other planetary bodies) without visiting them.
At about 4.5 billion years old, the oldest sample is
essentially the same age as the moon itself. Most rocks
on Earth are much younger than four billion years
because of the constant recycling of the crust by plate
tectonics—a process that does not occur on the moon.
Thus, lunar samples provide an important glimpse of
ancient rocks from the early days of the solar system.
They could even tell us about the young Earth. This
March, researchers analyzing an Apollo 14 breccia (a
rock type composed of other rock fragments welded
together) determined that one of those pieces might
not be a moon rock at all. Instead it may represent the
first terrestrial meteorite—a rock that was ejected
from Earth four billion years ago and then landed on
the moon. After billions of years astronaut Alan Shep-
ard picked it up and brought it home.LUNAR ORIGINS
Before apollo, scientists had several competing ideas
for how the moon and other planetary satellites formed.
Perhaps Earth captured another body that passed too
close. Maybe in its early days our planet spun so fast
that a blob separated from the main body. Or maybe
Earth and the moon may have formed at the same time
from the original “protoplanetary disk” that gave rise to
all the planets in our solar system. After the Apollo mis-
sions, however, we gained an entirely different picture.
Today the favored theory of the moon’s origin is
called the giant impact hypothesis. This idea, based onFIVE SAMPLES collected during the Apollo 15, 16 and 17
missions ( 1 ), as well as the Apollo 15 sample 15415 ( 2 ),
known as the Genesis rock, which helped scientists
develop the leading theory of how the moon formed.12