A billion miles sounds impossibly far, but in planetary terms, You can get there, said Elizabeth Turtle.

In Turtles lifetime, shes seen human technology reach Uranus and Neptune, quick flybys that completely transformed our understanding of the solar system.

Thats why she is leading the hunt for rocks on Titan one of Saturns moons that, surprisingly, could tell us a lot about Earths early days.

Turtle who goes by the nickname Zibi is the principal investigator for NASAs Dragonfly mission, a drone-like vehicle the space agency plans to launch toward Titan in 2026.

The Dragonfly rotorcraft will finally arrive on Titan in 2034, after an eight-year-long voyage from Earth. During its 2.7 year-long baseline mission, it will take advantage of Titans dense atmosphere to travel more than 100 miles almost double the distance traveled by all of the land-based Mars rovers combined. By flying to multiple locations, the mission hopes to collect organic samples from a variety of environments.

Zibi Turtle. Photo by Johns Hopkins University Applied Physics Laboratory

Titan is one of the many satellites in the outer solar system with an interior water ocean, making it an ideal place to search for elements necessary for the origin of life. Its much colder than our planet, but is chemically similar to early Earth, Turtle said.

Humans have probed Titan in the past. In 2005, the European Space Agency landed on the moon during the Cassini mission, parachuting a camera toward the terrain that took photos during its two-and-a-half-hour descent. With Dragonfly, scientists hope to measure the chemical composition of the moons surface. Theyll look at how Titans atmosphere could affect those chemical compounds to get a better picture of which might be biologically relevant to the development of life.

In an interview with the PBS NewsHour, Turtle, who is also a planetary scientist, discussed the mission and what scientists are hoping to find. (Spoiler alert, it may not be aliens.)

The conversation has been edited for length and clarity.

Ive always been really interested in astronomy. My dad majored in astronomy. I kind of grew up going out to look at comets and meteor showers and aurora and things like that. Id always had an interest in college. I took a bunch of astrophysics courses and then I started taking planetary science courses. The planets are a little more closer and tangible, you can get there.

At the time, Voyager was making its way out to the Neptune and just the idea of exploration and the sense of how much we were learning in such a short period of time with these Uranus and Neptune flybys, was very quick. The New Horizons flyby took a very short period of time, and yet it completely transforms the understanding of the system.

Zibi Turtle is seen here in front of Yasur Volcano during a 2014 trip to observe and study volcanoes in Vanuatu, an archipelago about 1,000 miles east of Australia. Photo by Zibi Turtle

Its a very exciting field, theres just so much we dont know, and so many things that we have opportunities to learn.

I ended up going to grad school in planetary science and worked with the Galileo mission, studying Io and Europa, both moons of Jupiter. Then I worked with the Cassini mission, studying Titan primarily and some of the other icy satellites in the Saturnian system.

Titan is unique in that its the only moon in the solar system to have a dense atmosphere. This atmosphere is mostly nitrogen, like Earths atmosphere, and then it has methane as its next major constituent. Its so much colder in the outer solar system that the compositions are different, so you get very complex organic molecules. This complex organic matter has had the availability of liquid water in the past. You have all the ingredients we know to be necessary for life on the surface of Titan.

We want to study the pre-biotic chemistry the chemical steps that occurred that may have supported the development of life.

Dragonfly will take samples of Titans surface materials for chemical analysis. Image by NASA

Titan in many ways chemically is similar to early Earth, and so by studying Titan we can get an understanding of what processes may have happened here.

Instead of driving across the surface the way we often do on Mars, we fly from place to place with a rotorcraft. This gives us the ability to get to places over 100 kilometers apart and measure compositions in different environments with different histories.

In the past on Titan, liquid water would have been in contact with this organic material, meaning theres great opportunity for all of this pre-biotic organic synthesis to occur. We really want to understand the results of these chemistry experiments that Titan has been doing for millions of years. Then we want to put that in the context of Titan as a system.

Titan has a much thicker ice crust, but it has this organic material and thats really where the connection to the early Earth comes in.

Titan has a much thicker ice crust, but it has this organic material and thats really where the connection to the early Earth comes in. Its about the only place in the solar system that has this level of chemical complexity in terms of just the size of the carbon molecules on Titan, so its really the only the only parallel to Earth in terms of the chemistry available.

The other thing thats similar to the Earth is that because theres an atmosphere interacting with the surface, the geology is very similar. Not only do you have these similar molecules, but they have processes, like wind and rain, transporting them across the surface and mixing them the same way we have here on earth. There are lakes and seas on Titan of liquid methane instead of water here on earth, Titan being made of water ice instead of silicate rock here on Earth.

*Laughs*

We dont have reason to believe life would have developed on Titan. We cant say that it didnt, but its certainly not necessarily something wed expect. The surface temperature on Titan is 94 Kelvin, -290 Fahrenheit. Thats certainly not conducive to life as we know it. Everything is frozen solid at the surface.

We have the capability to make the measurements to detect chemical bio signatures, things like the chiral preferences for the structure of molecules. We do know that water and organic material have been in contact for long periods, but we dont know how long it took life to develop on Earth. We dont even know how long you need.

At this point, given the conditions there, we would be remiss if we didnt if we didnt look.

Hundreds of people are working on all of these projects and coming up with ways to solve challenges, to make things work better. Its a lot of fun. But its more fun when it works. Those are some of the less fun moments of mission or instrument design when you hit challenges that there isnt a way to surmount. Thats where things can be on the more frustrating side.

The exploration is incredibly fun. I remember as a grad student and postdoctoral researcher coming in to work at night when the new images from Galileo of Io were coming back, theres something different every time you look at it. It was spectacular to rush in and pull up the images and see what had happened, what volcanoes had started erupting since the previous flyby.

Zibi Turtle (bottom row, center) poses with the rest of the team from the Dragonfly mission. Image by NASA

That had this human desire to explore, to see whats behind beyond the horizon. This is just looking at all the ways of learning whats beyond the horizon further out in the solar system. Part of the excitement is really learning whats new and seeing what what we havent seen before on other planets and then trying to figure out how it works.

We went from barely knowing what the surface of Titan was like to understanding the geography of Titan, geological processes and how they fit together and how Titan works as a system. Its a huge privilege to be able to participate in that journey. And well be doing the same with the Europa Clipper and with Dragonfly.

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This drone will fly on one of Saturns moons. Heres the woman leading the mission - PBS NewsHour