Lunar regolith

Lunar regolith is the loose material that covers the surface of the Moon. It is sometimes called "moondust." It is made of tiny grains, usually smaller than one centimeter.

Lunar regolith was formed mostly by pieces of space rock hitting the Moon over many years. These impacts broke down the Moon's surface into smaller pieces.

Because it is so fine, lunar regolith can float around easily. The tiny particles can be sharp and tricky to handle. Scientists think lunar regolith might be useful in the future, maybe as building material or for growing plants on the Moon.

Formation processes

Further information: Geology of the Moon

Lunar regolith is made when rocks break apart from meteorite and micrometeorite impacts. These tiny hits can also melt small pieces of rock together. The Sun’s solar wind and cosmic rays from space also change the soil.

Over time, these actions change how the soil looks and feels. Volcanic activity can help too, making small glass beads that fall back to the Moon’s surface. For example, orange dirt was found at Shorty Crater by Apollo 17, and green glass was found at Hadley–Apennine by Apollo 15. These beads may also explain Dark Mantle Deposits in other places.

Circulation

Further information: Lunar atmosphere

Further information: Lunar horizon glow

The Moon may have a very thin layer of moving dust particles that jump up from its surface and fall back down. This creates a "dust atmosphere" that looks still but is always moving. Scientists think this happens because of electric charges. On the side of the Moon facing the Sun, strong sunlight knocks tiny particles loose from the surface, and they float up before falling back down. On the side away from the Sun, the dust gets charged differently by particles from the Sun’s wind.

Astronauts have seen strange glowing lights and hazy areas on the Moon from Earth. These might be caused by sunlight reflecting off the floating dust. Experiments left on the Moon have also noticed tiny particles moving around, supporting this idea.

Physical properties

The Moon's surface is covered with a thin layer of dust from many meteorite impacts. This dust is electrically charged and can stick to anything it touches.

Lunar regolith has a density of about 1.5 g/cm³, and this density gets bigger as you go deeper. The way this dust behaves can be affected by big temperature differentials, the hard vacuum on the Moon, and the lack of a strong lunar magnetic field. This lets charged solar wind particles constantly hit the Moon's surface.

Chemical constituents

The Moon's surface material, called lunar soil, is mostly made up of seven key elements. These are oxygen, silicon, aluminum, calcium, iron, magnesium, and titanium. A small amount, just 1-2%, includes manganese, sodium, potassium, and phosphorus.

Mineralogy and composition

The composition of lunar regolith comes from the rocks it covers. Over time, impacts mix the material, a process called "gardening". Mare and highland regolith have different compositions, but they share similar minerals. The main minerals found in lunar regolith are plagioclase, olivine, augite, orthopyroxene, pigeonite, ilmenite, chromite, quartz, cristobalite, and whitlockite. Glass is common and forms when impacts melt materials. Ice is important in areas that are always dark.

Lunar regolith particles include rock fragments, single-mineral pieces, and different kinds of glass, such as agglutinate particles. Agglutinates form when tiny impacts cause melting, fusing nearby materials together. Two key differences exist between lunar regolith and Earth dirt. First, the Moon is very dry, so minerals that need water, like clay, mica, and amphiboles, are not found there. Second, lunar regolith is chemically reduced, not oxidized like Earth's crust, partly due to constant bombardment by protons from the solar wind. This means iron on the Moon is found in the elemental (0) and cationic (+2) states, unlike Earth.

Harmful effects of lunar dust

Lunar dust, the tiny particles found on the Moon, can cause problems for astronauts and equipment. It can make surfaces darker, scratch materials, and damage important parts like lenses and solar panels. It might also affect the health of astronauts if inhaled.

To keep astronauts safe, special steps are needed when they return from the Moon. These can include cleaning their spacesuits and using filters to keep dust out of the air inside spacecraft.

Scientists think lunar dust could be more harmful than dust on Earth because it has sharp edges. If it gets into the lungs, it might cause health problems. During Moon missions, spacesuits can get covered in this dust, which could spread inside when the astronauts come back inside. To reduce these risks, special methods are used, like high air flow in airlocks and magnetic tools to remove dust.

Use

Lunar soil might help build things in space, and scientists have studied this for a long time.

Plants find it tough to grow in lunar soil since it is very different from Earth soil. This means that long space trips may need special plans to grow food, such as bringing Earth soil or changing lunar soil to help plants grow. Some tests show that a few plants can grow in lunar soil on Earth.

Availability on Earth

The Apollo astronauts brought back about 360 kilograms of lunar rocks from six landing sites. Even though this material was stored in special bottles, it can no longer be used for detailed studies because the bottles let in air. Every sample has been changed by Earth's air and humidity. The dust has changed and no longer matches what future astronauts will find on the Moon.

In 2014, the US government allowed some private material collected by astronauts to be sold. Only one item with real Moon dust has been made available for sale—a piece of a spacesuit from the Apollo 12 mission that spent over 32 hours on the Moon. In 2017, lunar regolith collected by Neil Armstrong in 1969 was offered for sale. Many jewelry and watch makers say their products contain "Moon dust," but they actually contain pieces of meteorites thought to come from the Moon. In September 2020, NASA said it would buy lunar regolith from commercial suppliers. In May 2022, scientists grew plants using lunar regolith. Thale cress (Arabidopsis thaliana) was the first plant to grow on Earth using soil from another celestial body.

Chang'e-5/6 Project

See also: Changesite–(Y)

On December 16, 2020, China's Chang'e 5 mission brought back about 2 kilograms of rock and dirt from the Moon. This was the first lunar regolith sample to return to Earth since 1972. China is the third country to bring such material back.

Chang'e 6 collected and returned samples from the far side of the Moon in 2024. There are still two projects left in this phase of the program (Chang'e-7 in 2026 and Chang'e-8 in 2027). The program's second phase aims to land Chinese astronauts on the Moon between 2030 and 2039.