That's hot: NASA's new Venus missions to study climate change
A composite image, created with the data from NASA's Magellan spacecraft and Pioneer Venus Orbiter, shows the planet Venus. (NASA via Reuters)


United States' National Aeronautics and Space Administration (NASA) on Wednesday announced two new robotic missions to planet Earth's closest neighbor in the solar system, otherwise known as its sister planet, Venus, in order to study its atmosphere and map its surface after over 30 years of exploring other worlds and overlooking the hottest one in the system.

The U.S. space agency said it was awarding about $500 million each to develop the two missions, dubbed DAVINCI+ (short for Deep Atmosphere Venus Investigation of Noble Gases, Chemistry and Imaging) and VERITAS (an acronym for Venus Emissivity, Radio Science, InSAR, Topography and Spectroscopy), which are to carried out between 2028 and 2030.

DAVINCI+ will measure the composition of the dense, hothouse atmosphere of Venus to further understand how it evolved, while VERITAS will map the planet's surface from orbit to help determine its geologic history, NASA said.

DAVINCI+, consisting of a flyby spacecraft and an atmospheric descent probe, is also expected to return the first high-resolution images of unique geological characteristics on Venus called "tesserae." Scientists believe those features may be comparable to Earth's continents and suggest that Venus has plate tectonics, according to NASA's announcement.

Earth's closest planetary cousin and the second planet from the sun, Venus is similar in structure but slightly smaller than Earth and much hotter. Above its forbidding landscape lies a thick, toxic atmosphere consisting primarily of carbon dioxide, with clouds of sulfuric acid droplets.

The planet Venus can be seen at the start of its transit of the Sun, June 5, 2012. (NASA via Reuters)

The consequence is a runaway greenhouse effect that scorches the surface of Venus at temperatures as high as 471 degrees Celcius (880 degrees Fahrenheit), hot enough to melt lead. The "air" on Venus is so dense and pressurized that it behaves more like a fluid than a gas near the surface.

Scientists believe Venus may once have harbored seas of water potentially suitable for life, before unknown forces triggered its extreme greenhouse effect, vaporizing its oceans.

"Venus is a 'Rosetta stone' for reading the record books of climate change, the evolution of habitability and what happens when a planet loses a long period of surface oceans," James Garvin, chief scientist for NASA's Goddard Space Flight Center in Maryland, said in a statement.

Venus has lately received less scientific attention than Mars, Earth's next-closest planetary neighbor, where NASA's roving astrobiology lab Perseverance landed in February.

NASA's last dedicated mission to Venus, the Magellan spacecraft, reached the planet in 1990. After four years in orbit making the first global map of the Venusian surface and charting its gravity field, Magellan was sent plunging to the surface to gather atmospheric data before ceasing operations.

The DAVINCI+ probe will ultimately meet a similar fate.

After two flyby passes to capture time-lapse imagery of Venus' clouds, DAVINCI+ will release its spherical probe for an hourlong descent to a vast mountainous region.

Slowed first by a parachute, then by aerial friction, the probe will sample atmospheric chemistry, pressure and temperature all the way down, and take high-resolution images as it nears the surface.

Even if it survives landing, the probe is expected to overheat within 20 minutes, Garvin said.