Click on any phrase to play the video at that point.Close
So what you're seeing here is the bacteria metabolizing, and as they do so they create an electrical charge. And this attracts metals from their local environment. And these metals accumulate as minerals on the surface of the bacteria.
One of the most pervasive problems in the world today for people is inadequate access to clean drinking water. And the desalination process is one where we take out salts. We can use it for drinking and agriculture. Removing the salts from water -- particularly seawater -- through reverse osmosis is a critical technique for countries who do not have access to clean drinking water around the globe.
So seawater reverse osmosis is a membrane-filtration technology. We take the water from the sea and we apply pressure. And this pressure forces the seawater through a membrane. This takes energy, producing clean water. But we're also left with a concentrated salt solution, or brine.
But the process is very expensive and it's cost-prohibitive for many countries around the globe. And also, the brine that's produced is oftentimes just pumped back out into the sea. And this is detrimental to the local ecology of the sea area that it's pumped back out into.
So I work in Singapore at the moment, and this is a place that's really a leading place for desalination technology. And Singapore proposes by 2060 to produce  million liters per day of desalinated water. But this will produce an equally massive amount of desalination brine. And this is where my collaboration with bacteria comes into play.
So what we're doing at the moment is we're accumulating metals like calcium, potassium and magnesium from out of desalination brine. And this, in terms of magnesium and the amount of water that I just mentioned, equates to a $4.5 billion mining industry for Singapore -- a place that doesn't have any natural resources.
So I'd like you to image a mining industry in a way that one hasn't existed before; imagine a mining industry that doesn't mean defiling the Earth; imagine bacteria helping us do this by accumulating and precipitating and sedimenting minerals out of desalination brine. And what you can see here is the beginning of an industry in a test tube, a mining industry that is in harmony with nature.
You can share this video by copying this HTML to your clipboard and pasting into your blog or web page.
need to get the latest Flash player.
Got an idea, question, or debate inspired by this talk? Start a TED Conversation.
The world needs clean water, and more and more, we're pulling it from the oceans, desalinating it, and drinking it. But what to do with the salty brine left behind? In this intriguing short talk, TED Fellow Damian Palin proposes an idea: Mine it for other minerals we need, with the help of some collaborative metal-munching bacteria.
Damian Palin is developing a way to use bacteria to biologically "mine" minerals from water -- specifically, out of the brine left over from the desalinization process. Full bio »