In a search for ancient life on Mars, NASA will send its next rover to explore Jezero Crater — the site of a former delta and lake.

The rover, which is scheduled to launch in 2020, is equipped with a drilling system that can collect and store rock samples that contain clues to Mars’ ancient past. Once the samples are cached, NASA hopes to send follow-up missions to retrieve the samples and return them to Earth.

“Getting samples from this lake-delta system will revolutionize how we think about Mars and its ability to harbor life,” said Thomas Zurbuchen, NASA’s associate administrator for science.

The landing site selection came after years of research and days of fierce debate over the best spot to look for evidence of ancient life on an alien world. Among the alternatives being considered were Columbia Hills, an ancient hot spring that was explored by the now-defunct rover Spirit, and Northeast Syrtis, a network of ancient mesas that may have harbored underground water.

Ultimately, Zurbuchen said, Jezero was selected for the diversity of its terrain. Rock types at the site include clays that could preserve signs of ancient organisms and volcanic rocks that hint at Mars’ environment.

Results from past missions have revealed that Mars was not always the desolate desert world we see today. Dormant volcanoes suggest it once boasted intense volcanic activity. And landforms such as the dried-up delta at Jezero Crater demonstrate that liquid water existed on the surface, which means Mars may have had a thicker atmosphere to keep the water from boiling away.

This new view of Mars resembles what is known about early Earth. And scientists know microbial life began here as early as 4 billion years ago.

If it happened here, why not there?

Jezero Crater is the best place on Mars to probe that question, said Tim Goudge, a geologist at the University of Texas who is one of the leading advocates for the site. Deltas are beloved by scientists because of the way they gather sediments from across a watershed and deposit them in layers, which eventually harden into rock. Many of the most ancient fossils found on Earth come from this kind of environment.

If a microbe ever swam in Mars’ waterways, its organic remains may still be buried in the mudstones along the rim of Jezero Crater.

“Sedimentary rocks tell us the history of what’s been happening at a site,” Goudge said. “It’s recorded in the layers, and you can read them like a book.”

Zurbuchen said Jezero’s initial mission will last 1.5 Martian years — or about 2.8 Earth years.