A carbon-tracking cell phone. Credit: Nokia
"Do I get to keep the phone?"

Not exactly the environmentally-conscious line of thinking that organizers were hoping for, but understandable for those high-schoolers holding a brand new, latest version of the Nokia in their hands.

The way the San Francisco pilot program works is like this: students get a mobile phone equipped with a GPS maps application. They fill out a profile with the make and model of the cars they use. The cell phone monitors movement, so it picks up when that student is making a car trip. The server factors in the time of day, the weather and humidity, and the type of car the student is riding in – and then calculates the amount of carbon output that trip represents.

The program currently doesn't differentiate between cars and other forms of transportation – bikes, ferries, trains, carpools, buses – so students may need to note when those trips were not regular car trips. The final number is their carbon rating.

When the program expands to three other San Francisco schools at the end of March 2009, a competition will be formed between the high schools to see which group of 25 students can cut back the most on their car trips and carbon output.

That will help answer the question of how much pollution people can save just by altering transportation behavior. And hopefully, the participants here are young enough that those transportation choices might continue after the program has ended. Once they get used to walking or biking, for instance, maybe they'll make that a regular form of transportation.

That, of course, doesn't ameliorate the answer to the other burning question – that, yes, the cool phone goes away when the pilot program ends.

Listen to the Tracking Carbon through Your Cell Phone radio report online.

The pilot project at UC Berkeley called Mobile Millennium uses cell phones as data points to show traffic patterns in real time.

To become an early adopter of the technology, you must have an unlimited data plan on a mobile phone with a GPS system. If you have that, you can sign up here.

Project leader Alex Bayen says that it's not just a breakthrough in how we can gauge traffic, but also a scientific breakthrough – that is, it was a challenge to take random data points, some in motion, some not, and to turn them into usable traffic information. This is how Alex Bayen put it.

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And he adds that, as cell phones get more memory and more devices on them, they will become more central in our lives.

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The science of place-based reporting is a burgeoning field. A program at UCLA, for example, uses cell phone information to create a personal environmental risk assessment and a UC Berkeley study monitors currents in the Sacramento River.

Listen to the Dialing in on Traffic radio report online.

Why cell phones are bad for gorillas and how Eco-Cell is helping.

Got a cell phone? Then in your pocket or stuck to your ear is a metallic ore called Coltan, short for Columbite-tantalite, a vital component in the capacitors that control current flow in cell phone circuit boards.

Your i-pod, laptop, DVD player and game console most likely also contain Coltan. This highly desired ore lives in the soils of the rain forest. 80% of Coltan comes from the Democratic Republic of the Congo.

The main area where Coltan is mined contains the Kahuzi Biega National Park, home of the highly endangered Mountain Gorilla. In the Park, ground-clearing for mining operations has reduced food and habitat for the gorillas, cutting their numbers nearly in half. Mining has also displaced the local people, leading them to kill gorillas and sell the "bush meat" to the miners and rebel armies that control the area.

Within the Dem. Rep. of Congo as a whole, the number of Eastern Lowland Gorillas in eight national parks has declined by 90% over the past 5 years, leaving only 3000 gorillas total.

There is hope. Companies that use Coltan are beginning to demand that their Coltan only comes from a legitimately mined source and for that fact to be verified on the packaging, much like Dolphin Safe Tuna.

What you can do currently is reduce and recycle. Reduce the amount of electronics, including cell phones, that you buy and recycle them when you are definitely done with them. Recycling these items helps
eliminate the need for more mining and keeps them out of the landfill.

The Oakland Zoo is happy to take your old cell phone and recycle it through companies such as Cartridges for Kids or Eco-Cell.

Eco-Cell, a Kentucky based company, works to help gorillas by encouraging cell phone recycling, educating about the issues and donating funds to support gorilla conservation.

You can also help gorillas by attending a family friendly event at the Oakland Zoo, Gorilla Doctors: Saving Endangered Great Apes, featuring children’s author Pamela Turner and epidemiologist Dr. Lynne Gaffikin on February 6, 2008. Bring in a cell phone to recycle for a free raffle ticket.

Amy Gotliffe is Conservation Manager at The Oakland Zoo.

latitude: -4.03833, longitude: 21.7587

I love my cell phone. We have a serious relationship. One that may be biologically predetermined.

Let me explain. On New Year's Eve I brought my phone with me to San Francisco's Ocean Beach, where I traditionally go, rain or shine, to watch the year's last sunset. I was by myself, but I wasn't alone.

Oh no. I took snapshots of shimmering colors on the waves and sent them to faraway, landlocked friends who miss the sea. Another friend called to say she was also watching the sunset from her rooftop. Text messages flowed in.

I was connected.

Well, duh," you could say.

And this "duh" is exactly what seemed kind of profound: we take communication for granted. Of course we can talk to each other and share things with each other. And of course we create new devices to make talking and sharing easier. Of course.

But why do we do this, seemingly to no end? And why is it that communication is such a vital and defining aspect of our experience as humans? Why, really, do I love my cell phone so much?

I think it's genetic.

It's probably not news to most of you that we humans appear to be wired to talk to each other. We've got that FOXP2 gene that keeps making the news, contributing to our linguistic capacity. In fact, many researchers believe that language was central to our success as a species and allowed a small group of humans to expand across the globe about 50,000 years ago.

Our genetic design for interaction seems to go beyond talking amongst ourselves. A University of Michigan study slated to be published next month found that social interaction has a positive affect on memory and on cognitive functioning. The people who had the most conversations with others seemed to be the sharpest, and this was particularly true among young people. This may mean that more socially-oriented humans had a bit of an advantage over those who tended to keep more to themselves.

We may be such social animals that we're even hard-wired to simply need company. After all, isolation is one of the most universal methods of punishment. Another set of researchers at the University of Illinois at Chicago found that mice isolated from their comrades have lower levels of hormones that control anxiety, depression, and aggression. They believe that these responses are similar in humans. In other words, it's possible that our brains keep us happier and functioning better when they're interacting with other brains.

It makes sense that our predecessors who figured out how to play well with others and share their thoughts were the ones who got the best shot at passing on their genes. And it's no wonder our species devotes such enormous reserves to inventions that make communication easier. The most basic systems of rock painting and alphabets have allowed groups to share stories or warn others of impending trouble. And creations that help disseminate these symbols–papyrus, the printing press, even the simple pen and paper–have had a major impact on how we exist with one another, as individuals and as societies.

These days, many of our communication technologies have gone beyond "watch for hungry bear" or "here's my idea" into doing a kind of doubly-human duty. We not only use technology to convey thoughts, but also to extend our opportunities to create bonds with other people and to form social groups. Thus the popularity of the likes of Facebook, personals ads, and Flickr. In fact, if you leave a comment about this little ditty I've written, you've hopped on this double-duty train by becoming a part of Quest's blogging community.

And so now, as my thumbs feverishly tap out text messages, I see my cell phone as more than a gadget. It's the latest cousin of cave drawings and hieroglyphics. What it says about my own evolution I'm not quite certain. But no doubt my wireless admiration results from something buried in my chromosomes.

Robin Marks is a journalist and science writer who current serves as a Multimedia Projects Developer for the Exploratorium in San Francisco, CA.

latitude: 37.7595, longitude: -122.51