NASA wants to put boots on Mars in the coming decades. But before the first astronauts take that historic step, scientists are warning about an overlooked threat that could derail these ambitious plans: the dust covering the Martian surface
A new scientific review in the journal GeoHealth warns that the fine particles blanketing Mars might seriously harm human explorers. The medical researchers, aerospace engineers, and planetary scientists from various American universities behind the study draw worrying connections between what happened to Apollo astronauts exposed to lunar dust and what future Mars travelers might experience, potentially with far worse consequences.
According to the authors, Mars dust particles are worryingly small, highly oxidative, and packed with chemicals that could damage the human body, especially the lungs. Unlike Earth dust, which gets worn down by wind and water, Martian particles have remained sharp and irregular, making them perfect for penetrating sensitive tissues.
The Apollo missions offered an early warning about space dust problems. Astronauts who visited the Moon complained about irritated eyes, sore throats, and coughing fits after dust stuck to their spacesuits and contaminated their living spaces. But those missions lasted just days.
Mars expeditions would be different, stretching for months or years with ongoing dust exposure. What’s more, the 40-minute communication delay between Earth and Mars means medical emergencies would need handling without immediate help from mission control. This isolation makes both the chances and consequences of dust-related illnesses much worse.
Mars expeditions would be different, stretching for months or years with ongoing dust exposure. What’s more, the 40-minute communication delay between Earth and Mars means medical emergencies would need handling without immediate help from mission control. This isolation makes both the chances and consequences of dust-related illnesses much worse.
What Makes Mars Dust Toxic
What exactly makes Mars dust so dangerous? Based on rover and orbiter data, scientists have identified several harmful components. These include perchlorates (oxygen-rich compounds), silica, iron-rich particles, and gypsum, plus smaller amounts of potentially toxic metals including chromium, beryllium, arsenic, and cadmium.
Perchlorates might be the most immediately concerning. These chemicals, found all over Mars, can interfere with thyroid function by competing with iodide, potentially causing aplastic anemia, where the body stops producing enough new blood cells. In one Earth-based case, a patient given high doses of perchlorate developed severe anemia that led to infection susceptibility. Despite treatment with steroids and antibiotics, the patient died from a lung infection.
Nearly half of Mars dust consists of silica, which on Earth is known to cause silicosis, an incurable lung disease that progressively scars lung tissue. The Martian silica particles measure about 3 micrometers across, small enough to bypass the body’s defenses and reach deep into the lungs, where they trigger inflammation and scarring.
The iron compounds that give Mars its reddish color create another health threat. When these particles contact human tissue, they generate reactive oxygen species that damage cells. The excess iron might also make infections worse, as many disease-causing bacteria use iron to multiply inside the human body, particularly troubling since spaceflight already weakens astronauts’ immune systems.
Mars also experiences planet-wide dust storms that dramatically boost airborne particle levels. During these events, visibility drops to almost nothing while dust concentration in the atmosphere rises dramatically. Such conditions would make avoiding exposure nearly impossible during surface operations.
The vast distance from Earth magnifies these health risks. Apollo astronauts could head home quickly if they got sick, but Mars-bound crews would be committed to their mission for its entire duration, potentially two to three years. This reality makes prevention the main strategy, with treatment limited to whatever medications and equipment traveled from Earth.
Better spacesuit designs with self-cleaning abilities, robust air filters in habitats, and electrostatic devices to repel dust should form the first line of defense. For any dust that gets through, dietary supplements like potassium iodide might help protect against perchlorates, while vitamin C could offer some defense against chromium toxicity.
Unfortunately, many potential dust-caused diseases, especially silicosis and other forms of lung scarring, have no effective treatments beyond supportive care. This is why preventing exposure matters so much.
Source: https://studyfinds.org/mars-danger-astronauts-lungs/
