Category Archives: communicating astronomy

The Seeds of Life

Cosmochemistry in Action

It’s pretty common knowledge in astronomy these days that planets grow from seeds hidden in clouds of gas and dust around other stars. Thats how our solar system got started a few billion years ago, and studying how it happens elsewhere helps us understand the birth of our own planet. But, the big question is always, “What about life?”

protoplanetary disk

The Spitzer Space Telescope has been peering into clouds of gas and dust enshrouding nearby stars, and discovering the seeds of life. What are those seeds? Organic molecules (in the form of gases) and water vapor, to name a couple.

Two scientists who use SST, John Carr of the Naval Research Laboratory, and Joan Najita of the National Optical Astronomy Observatory (in Tucson, Arizona), used Spitzer’s infrared spectrograph to measure and analyze the chemical elements in a protoplanetary disk around a young star called AA Tauri. It’s less than a million years old and is pretty typical of young stars that have the cosmochemical seeds of life scattered around them in dense, dusty disks.

Other scientists are using Spitzer to look for water molecules in these same types of disks. And, they’re finding them.

This is important work, folks. Water and organics are two of the big three things you need to form life. But, before we get carried away and start thinking of little green beings from AA Tauri, keep in mind that the planets have to form first. Then the life will come (if all the conditions are good for it). It’s a big deal right now to find these materials in places other than our own solar system. It means the conditions for planets like Earth to form are out there. And, the existence of organics and water tell us that some billions of years from now, life might exist on planets around these stars. Visit the Spitzer news announcements for more background on this new set of findings.

Communicating Astronomy

Why I Do It

Talking and writing about astronomy is a fun gig. I’ve been doing it since the early 1980s, when I got to write a few things for The Denver Post. That was an exciting time. I started out there as an editorial assistant, but ended up writing things almost as soon as it occurred to me ask if I could. Several years later I decided it was time to head back to school and learn more astronomy. The fact that I ended up not only DOING astronomy but also getting a masters’ degree in science journalism is, in some measure, attributable to my love of both subjects.

If I could, I’d go back for that PhD in astrophysics (given enough time and money), but I have found a niche subject I like to write about and, thanks to a number of undergraduate and graduate classes in astronomy and planetary science, plus the chance to work first-hand with a couple of space missions, communicating astronomy is a full-time career. It has taken me from writing articles for newspapers to working as an editor and writer for Sky & Telescope; writing documentary scripts for planetarium shows to creating copy for an entire observatory full of exhibits (at Griffith Observatory). Lately, the rise of “new media” (podcasts, etc.) has taken me off in some new directions, creating podcasts (which you can see on my Video and ‘Casts page and also at Haystack Observatory.

I like to keep tabs on what’s new in astronomy communications–what they like to call “outreach” these days. Last fall I went to Athens, Greece for a meeting called “Communicating Astronomy to the Public.” It was an eclectic mix of people from around the world, all gathered to talk about how writers, producers, and astronomers can go about spreading the word about the sky and what we study in it.

Okay, so why communicate about astronomy? I’ve given that a lot of thought. In a time when there are so many things claiming our collective attention around the world (war, politics, religion, environmental concerns, and so on), it’s a fair question to ask. Sure, astronomy’s got a built-in “cool” factor that you can’t discount unless you’re a cost-cutting senator from a state that has no observatories. But, looking beyond that obvious fact, astronomy is also one of those sciences that gives you a toehold on a whole range of scientific interests. Want to know more about how stars work? Physics will get you started on the journey of discovery in stellar anatomy. Want to know about how planets form? You need some more physics. And geology–lots of geology. And chemistry, since planets (and stars) form out of mixtures of chemical elements in various states. What about life on other worlds? Put in a call to the astrobiologists (who combine biology, life sciences, and astrophysics for their work).

 

A distant solar system

A distant version of the solar system? Astronomy tells us perhaps so.

courtesy KASI,CBNU; ARCSEC, ;NSF.

How to study all this? Well, you need to know something about how to build the instruments of science (telescopes, radio dishes, orbiting satellites, geological sensing equipment, and so forth). Just about any science has a backwards-compatible link to astronomy. This is why we often refer to astronomy as a gateway science. And, beyond the pretty pictures that make science communicators’ lives easier, there are some really compelling stories in astronomy that blow people away (once they hear them).

That’s why I communicate astronomy–to tell really excellent stories about the cool stuff in the universe, and the people who discover and explain them. And, like I said, it’s a fun gig!