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Future Cities Lit by Beautiful Bioluminescent Trees

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A laboratory at Stony Brook University, working with designer Dann Roosegaarde, has developed a glowing plant by merging luciferin–which is the chemical that enables fireflies to glow–with a simple plant. The result is a plant, in dirt, that glows. Naturally.

And it is awesome.

Roosegaarde, a self-described designer/artist/architect from the Netherlands, pronounced his vision for the future of technology incorporation at the 2014 SXSW in Austin, Texas.

His concept is based on “merging worlds of nature and technology” by taking what we can learn from nature and applying that to the world through the building of technology–namely, the urban landscape.

In fact, he says, this marriage of our super- and sans-natural environment will drive the perception of technology to “completely disappear” and humans will not longer rely exclusively on screens to gain information and utility.

“What can we learn from that?” Roosegaarde asks. As it turns out, a lot.

Take lighting, for example. According to the U.S. Energy Information Administration, an independent organization, lighting–including street lights across America’s millions of miles of urban routes–accounts for more than 1/5 of all commercial energy consumption.

So while we humans use a massive amount of generated electricity to defeat darkness, Jellyfish create their own light deep underwater without solar panels, wind turbines, or hydroelectric dams. Instead, the organism generates power completely autonomously.

Cue Roosegaarde’s project: His vision is realized by transforming a magnificent aspect of our human mechanical world where we can replace centuries-old, energy-guzzling street lamps with beautifully glowing trees.

The concept makes sense–and is unimaginably cool:

Bioluminescent-Tree2-1024x568.jpg


Bioluminescent-Tree-1024x568.jpg


“I mean, come on,” Roosegaarde adds, “that will be incredibly fascinating to have this energy neutral, but at the same time, this very poetic landscape.”

Yes, it wood be.

Future Cities Lit by Beautiful Bioluminescent Trees | Big Ideas Blog

Interesting esp for me :angel:
 
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It's awesome.

But, there's a problem that would need to be worked around, although possibly the light emitted would be too faint for this even to be a problem.
Namely, at least here in Europe, all street lamps are required to have a "roof", which both reflects the light directed upwards down on to the road where it's needed and contributes to lowering something called light pollution.Side effect of this is also that lamps consume less energy.

The problem for this solution could be in perhaps enginnering the tree in such a way that only lower parts glow and the upper canopy acts as the "roof". It probably wouldn't reflect, but that's irelevant as it would consume no artificial electricity and the whole requirement of saving a little bit with that "roof" would go out the window.

Second solution would involve an artificial "roof" but i suspect that would ruin the aesthetics in some degree. Although if designed to look like Elven architecture from Lord of the rings it wouldn't be so bad.
 
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It's awesome.

But, there's a problem that would need to be worked around, although possibly the light emitted would be too faint for this even to be a problem.
Namely, at least here in Europe, all street lamps are required to have a "roof", which both reflects the light directed upwards down on to the road where it's needed and contributes to lowering something called light pollution.Side effect of this is also that lamps consume less energy.

The problem for this solution could be in perhaps enginnering the tree in such a way that only lower parts glow and the upper canopy acts as the "roof". It probably wouldn't reflect, but that's irelevant as it would consume no artificial electricity and the whole requirement of saving a little bit with that "roof" would go out the window.

Second solution would involve an artificial "roof" but i suspect that would ruin the aesthetics in some degree. Although if designed to look like Elven architecture from Lord of the rings it wouldn't be so bad.
or Avatar :p:

And yes the glowing can be adjusted to tissue specific (lower part)
 
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Birds would not be able to build their nests in those trees.....
 
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Birds would not be able to build their nests in those trees.....
True....or they may adapt after awhile...or it woudl keep away birds from citys and getting injured by cars
 
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The problem with all the bioluminescence is that the creatures that produce it only glow.. they don't illuminate (their surroundings much).

In addition when it comes to plants, they have to take their energy from somewhere, i.e. Sun and photosynthesis is a very inefficient process (~1%). How much photosynthesis would be required for the plants to glow/illuminate all night?

Then, a light sensor protein/gene also needs to be incorporated which restricts the glowing only to the darker hours, so, the energy is not wasted during the day.

Finally, how big would we need a tree to substitute a single street light?

There are many steps still unresolved to a useful bioluminescent plant. In the meantime, let's taste some bioluminescent ice-cream.

Man Creates £140-A-Scoop Glow-in-the-Dark Ice Cream Using Synthesised Jellyfish Luminescence | Inhabitat - Sustainable Design Innovation, Eco Architecture, Green Building

glow-in-the-dark-ice-cream-537x343.jpg
 
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Another similar thing


POWERING THE 21ST CENTURY

glow-in-dark-trees-flash-631.jpg__800x600_q85_crop.jpg


San Francisco-based entrepreneur Antony Evans plans to insert genes from bioluminescent bacteria into a species of flora as a first step to creating glowing trees. (Antony Evans)


Creating a New Kind of Night Light: Glow-in-the-Dark Trees
A group in California is starting to engineer plants that could one day replace streetlights

San Francisco-based entrepreneur Antony Evans has come up with a radical idea for curbing power usage: “What if we use trees to light our streets instead of electric street lamps?”

Evans and his colleagues, biologists Omri Amirav-Drory and Kyle Taylor, want to create plants that literally glow. Evans was inspired by transgenic organisms, plants or animals with genes of other species in their own DNA, which have been used to fill many human needs. A gene from the bacteria Bacillus thuringiensis is routinely introduced to corn and cotton, for instance, to make the crops insect-resistant. In one method called “pharming,” scientists have inserted human genes into plants and animals so that these hosts can produce proteins for pharmaceuticals. Others have added a gene from the crystal jelly responsible for creating green fluorescent protein to animals such as cats and pigs; this way, they can determine if a disease has been transmitted from one generation to another, just by seeing if the offspring glows in the dark.

This spring, Evans’ team posted a video to Kickstarter, explaining how they plan to insert genes from bioluminescent bacteria into a species of flora as a first step to creating glowing trees. To feed viewers’ imaginations, the video included an image of Pandora, the luminous, mid-22nd century setting from the movie Avatar. In a raucously successful 46-day campaign the group raised nearly $500,000 to fund the effort. I spoke with Evans about his project.

Scientists genetically engineered the very first glow-in-the-dark plant in the 1980s, a tobacco plant with a firefly gene inserted into it. Historically, what has been the purpose of doing this?

The first time, I think, was just a demonstration project. But scientists have used it since to study things like root growth. They really use it for basic research purposes.

Traditionally, what they’ve done is insert the gene for luciferase [an enzyme from a luminescent organism] along with a promoter [a region at the beginning of a gene that tells a cell to start transcription, the first step to producing a protein] and then add the luciferin [a chemical that produces light when oxidized] manually. They have even had these glowing plants up on the International Space Station, so it is a pretty well established technique.

For your glowing plant project, you have chosen to use a flowering species called Arabidopsis thaliana. Why this plant?

We chose this plant because it has been extremely well studied by the academic community. It is the fruit fly of plant biology. The reason it has been studied so much is because it has the shortest genome of any [flowering] plant.

What gene are you adding to create the glow?


How is this done? Can you take me through the process of creating a glowing plant?

We start with software called Genome Compiler. Genome Compiler allows us to search for gene sequences and then modify those gene sequences in a nice graphical user interface. We use that software to look up the Vibrio fischeri genes, and then we do something called code and optimization, which basically adjusts the sequences so that they [work] in plants instead of in bacteria. We then synthesize the DNA. There is a “print” button, and we “print” that DNA. That emails the file to a company, who makes the DNA for us. They FedEx that back to us, and then we do two things.

First, we insert the DNA into some bacteria called agrobacterium. That bacterium is very clever, it has figured out how to do genetic engineering on its own. [The bacterium] inserts the DNA into the female gametes of the plant. We can grow the seeds that come from those flowers, and we’ll have the DNA that we designed on the computer in the plant. The second thing we are doing is using a gene gun, which is a piece of equipment that fires the DNA at high velocity into the cells of the plant. Some of those cells will absorb the DNA and start to express it.

You are doing your end of the work at BioCurious, a community bio lab in Sunnyville, California, in Silicon Valley. But how DIY is this? Is this something that a garage tinkerer can manage?

As part of the Kickstarter campaign, we have a kit, which you can use to make one of these plants. The tough part is designing the sequences, but once someone has figured them out, you can follow the recipe.

All told, you had 8,433 Kickstarter backers pledge $484,013. Did this reaction surprise you?

We were targeting $65,000, so it is great that we got so much. With Kickstarter, you never know. We knew we had something interesting, because everyone wanted to talk about it. But, we didn’t know it would get this big.

How realistic is it to think that one day we could have glow-in-the-dark trees lining streets instead of streetlights?

We do think it should be viable, but it is definitely a long-term goal. The big challenge with the trees is that trees take a long time to grow. Doing experiments on trees and testing different promoters will take a long time. We really need one of a few different technologies to come out. One would be a better simulation technology, so that we could simulate the gene sequences on a computer. Two would be a bio printer or something similar, so that we could print a leaf and test realistically the sequences on the leaf [instead of having to wait for a whole tree to grow]. Or, third would be some way of doing gene therapy on trees and adjusting them in situ and using that to change their DNA. We do need some developments in one of those before we will be able to really take on big trees.

In preliminary calculations, you figure that a glowing tree that covers about 1,000 square feet would cast as much light as a streetlight.


It will be a very different type of lighting effect. If you think about the way that the day is lit, the light comes from the whole sky; it doesn’t just come from a point, whereas light bulbs come from a point. Our lighting will be much more diffused and we think much more beautiful.

What are your sights set on now?

We are focused on executing on the things that we promised our Kickstarter backers. So, we are doing the work, getting the lab set up, ordering the DNA and starting to transform the [Arabidopsis] plants.

You and your colleagues promised to send each supporter, of a certain donation level, a glowing plant. What can people expect? How strong will the light be and how long lasting?

The light will be on at night as long as the plant is alive, but it won’t be super bright. We are aiming for something like glow-in-the-dark paint. You need to be in a dark room, and then you can see it dimly glowing. From there, we will work on optimizing and boosting the light output.

In the campaign video, you say, “the glowing plant is a symbol of the future.” What does this future look like to you?

The future we are referring to there is a synthetic biology future. We think that this kind of technology is going to become democratized; it will be accessible to many people. I’d like to see a future where teenagers and amateurs are genetically engineering things at home or in DIY bio labs. We want to represent that future, to tell people that it’s coming and to start a discussion around this technology—what it means and what it means for us.

This technology is rapidly being adopted. It is going to be very transformational, and I think that it’s time that people sort of became aware of it and the potential of it, to take an interest in it. There are going to be some fantastic opportunities in it, so if people look at the project and think “I’d like to do that,” I think the answer is “You can.” Just go to your local DIY bio lab and start playing around, start learning.

Are there other transgenic organisms being created that you find promising?

There are tons of people working on stuff, tons and tons and tons. If you look at the iGEM [International Genetically Engineered Machine] Foundation projects, you can see some of the breadth and variety of things that are being done. The spider silk is cool. I think the guys working on new versions of meat are cool. There is some interesting stuff happening with algae in the bio lab down in South Bay [San Francisco], BioCurious. Engineering algae so that we can use it for energy production—I think there is a lot of work to be done on that, but it’s very promising.



Are there any projects that worry you?

Not for now. But, I think some scary stuff will happen eventually.

Some people have expressed concern with you distributing glowing plants and releasing synthetic plants into the wild. What do you have to say to those who fear this?

People have been genetically engineering plants for many decades now. We are just following in the footsteps of all of the other plants that have already been released in the last 20 years. We don’t think we are doing anything radically different. What is different about this project is how it’s been funded and that the work is taking place in a DIY bio lab rather than in a professional research institution.




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The problem with all the bioluminescence is that the creatures that produce it only glow.. they don't illuminate (their surroundings much).

In addition when it comes to plants, they have to take their energy from somewhere, i.e. Sun and photosynthesis is a very inefficient process (~1%). How much photosynthesis would be required for the plants to glow/illuminate all night?

Then, a light sensor protein/gene also needs to be incorporated which restricts the glowing only to the darker hours, so, the energy is not wasted during the day.

Finally, how big would we need a tree to substitute a single street light?

There are many steps still unresolved to a useful bioluminescent plant. In the meantime, let's taste some bioluminescent ice-cream.

Man Creates £140-A-Scoop Glow-in-the-Dark Ice Cream Using Synthesised Jellyfish Luminescence | Inhabitat - Sustainable Design Innovation, Eco Architecture, Green Building

glow-in-the-dark-ice-cream-537x343.jpg

Yes many steps but light sensor gene/ protein?
Yes they only glow coz the gene is we use now a days is as a tracking device...no idea if we use introduce it into a machinery in the plant like photosynthesis machinery or growth cycle of cell...depends actually
 
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Wouldn't making it glow too brightly stress the plant too much? Causing it die or be seriously dwarfed, plants need a resting period too.

Why not glow in the dark bacteria or fungi lamps.
 
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Wouldn't making it glow too brightly stress the plant too much? Causing it die or be seriously dwarfed, plants need a resting period too.

Why not glow in the dark bacteria or fungi lamps.
Yes it might ...

Its still experimental ...

I guess ideas might eventually shift to bacteria or fungi...lets see...after all it would be the bacteria that would be used as a vector to carry the genes
 
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