Please double-click on the English subtitles below to play the video.
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So, I'd like to spend a few minutes with you folks today
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imagining what our planet might look like in a thousand years.
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But before I do that,
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I need to talk to you about synthetic materials like plastics,
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which require huge amounts of energy to create
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and, because of their disposal issues,
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are slowly poisoning our planet.
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I also want to tell you and share with you
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how my team and I
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have been using mushrooms over the last three years.
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Not like that. (Laughter)
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We're using mushrooms to create an entirely new class of materials,
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which perform a lot like plastics during their use,
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but are made from crop waste
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and are totally compostable at the end of their lives.
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(Cheering)
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But first,
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I need to talk to you about what I consider one of the most egregious offenders
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in the disposable plastics category.
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This is a material you all know is Styrofoam,
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but I like to think of it as toxic white stuff.
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In a single cubic foot of this material --
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about what would come around your computer or large television --
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you have the same energy content
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of about a liter and a half of petrol.
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Yet, after just a few weeks of use,
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you'll throw this material in the trash.
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And this isn't just found in packaging.
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20 billion dollars of this material is produced every year,
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in everything from building materials to surfboards
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to coffee cups to table tops.
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And that's not the only place it's found.
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The EPA estimates, in the United States,
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by volume, this material occupies 25 percent of our landfills.
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Even worse is when it finds its way into our natural environment --
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on the side of the road or next to a river.
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If it's not picked up by a human, like me and you,
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it'll stay there for thousands and thousands of years.
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Perhaps even worse
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is when it finds its way into our oceans, like in the great plastic gyre,
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where these materials are being mechanically broken
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into smaller and smaller bits,
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but they're not really going away.
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They're not biologically compatible.
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They're basically fouling up
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Earth's respiratory and circulatory systems.
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And because these materials are so prolific,
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because they're found in so many places,
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there's one other place you'll find this material, styrene,
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which is made from benzene, a known carcinogen.
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You'll find it inside of you.
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So, for all these reasons,
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I think we need better materials,
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and there are three key principles we can use to guide these materials.
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The first is feedstocks.
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Today, we use a single feedstock, petroleum,
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to heat our homes, power our cars
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and make most of the materials you see around you.
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We recognize this is a finite resource,
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and it's simply crazy to do this, to put a liter and a half of petrol in the trash
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every time you get a package.
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Second of all, we should really strive to use far less energy
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in creating these materials.
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I say far less, because 10 percent isn't going to cut it.
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We should be talking about half, a quarter,
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one-tenth the energy content.
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And lastly, and I think perhaps most importantly,
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we should be creating materials
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that fit into what I call nature's recycling system.
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This recycling system has been in place for the last billion years.
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I fit into it, you fit into it,
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and a hundred years tops, my body can return to the Earth with no preprocessing.
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Yet that packaging I got in the mail yesterday
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is going to last for thousands of years.
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This is crazy.
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But nature provides us with a really good model here.
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When a tree's done using its leaves --
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its solar collectors, these amazing molecular photon capturing devices --
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at the end of a season,
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it doesn't pack them up, take them to the leaf reprocessing center
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and have them melted down to form new leaves.
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It just drops them, the shortest distance possible,
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to the forest floor,
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where they're actually upcycled into next year's topsoil.
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And this gets us back to the mushrooms.
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Because in nature,
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mushrooms are the recycling system.
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And what we've discovered
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is, by using a part of the mushroom you've probably never seen --
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analogous to its root structure; it's called mycelium --
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we can actually grow materials
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with many of the same properties of conventional synthetics.
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Now, mycelium is an amazing material,
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because it's a self-assembling material.
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It actually takes things we would consider waste --
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things like seed husks or woody biomass --
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and can transform them into a chitinous polymer,
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which you can form into almost any shape.
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In our process,
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we basically use it as a glue.
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And by using mycelium as a glue,
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you can mold things just like you do in the plastic industry,
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and you can create materials with many different properties,
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materials that are insulating, fire-resistant,
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moisture-resistant, vapor-resistant --
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materials that can absorb impacts, that can absorb acoustical impacts.
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But these materials are grown from agricultural byproducts,
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not petroleum.
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And because they're made of natural materials,
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they are 100 percent compostable
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in you own backyard.
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So I'd like to share with you the four basic steps
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required to make these materials.
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The first is selecting a feedstock,
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preferably something that's regional, that's in your area, right --
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local manufacturing.
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The next is actually taking this feedstock and putting in a tool,
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physically filling an enclosure, a mold,
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in whatever shape you want to get.
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Then you actually grow the mycelium through these particles,
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and that's where the magic happens,
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because the organism is doing the work in this process,
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not the equipment.
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The final step is, of course, the product,
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whether it's a packaging material, a table top, or building block.
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Our vision is local manufacturing,
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like the local food movement, for production.
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So we've created formulations for all around the world
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using regional byproducts.
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If you're in China, you might use a rice husk
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or a cottonseed hull.
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If you're in Northern Europe or North America,
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you can use things like buckwheat husks or oat hulls.
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We then process these husks with some basic equipment.
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And I want to share with you a quick video from our facility
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that gives you a sense of how this looks at scale.
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So what you're seeing here is actually cotton hulls from Texas, in this case.
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It's a waste product.
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And what they're doing in our equipment
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is going through a continuous system,
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which cleans, cooks, cools
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and pasteurizes these materials,
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while also continuously inoculating them with our mycelium.
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This gives us a continuous stream of material
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that we can put into almost any shape,
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though today we're making corner blocks.
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And it's when this lid goes on the part,
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that the magic really starts.
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Because the manufacturing process is our organism.
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It'll actually begin to digest these wastes
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and, over the next five days,
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assemble them into biocomposites.
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Our entire facility
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is comprised of thousands and thousands and thousands of these tools
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sitting indoors in the dark, quietly self-assembling materials --
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and everything from building materials
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to, in this case,
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a packaging corner block.
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So I've said a number of times that we grow materials.
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And it's kind of hard to picture how that happens.
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So my team has taken five days-worth of growth,
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a typical growth cycle for us,
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and condensed it into a 15-second time lapse.
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And I want you to really watch closely
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these little white dots on the screen,
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because, over the five-day period,
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what they do is extend out and through this material,
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using the energy that's contained in these seed husks
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to build this chitinous polymer matrix.
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This matrix self-assembles,
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growing through and around the particles,
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making millions and millions of tiny fibers.
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And what parts of the seed husk we don't digest,
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actually become part of the final, physical composite.
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So in front of your eyes, this part just self-assembled.
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It actually takes a little longer. It takes five days.
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But it's much faster than conventional farming.
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The last step, of course, is application.
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In this case, we've grown a corner block.
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A major Fortune 500 furniture maker
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uses these corner blocks to protect their tables in shipment.
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They used to use a plastic packaging buffer,
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but we were able to give them the exact same physical performance
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with our grown material.
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Best of all, when it gets to the customer,
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it's not trash.
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They can actually put this in their natural ecosystem without any processing,
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and it's going to improve the local soil.
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So, why mycelium?
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The first reason is local open feedstocks.
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You want to be able to do this anywhere in the world
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and not worry about peak rice hull or peak cottonseed hulls,
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because you have multiple choices.
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The next is self-assembly,
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because the organism is actually doing most of the work in this process.
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You don't need a lot of equipment to set up a production facility.
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So you can have lots of small facilities
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spread all across the world.
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Biological yield is really important.
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And because 100 percent of what we put in the tool become the final product,
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even the parts that aren't digested
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become part of the structure,
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we're getting incredible yield rates.
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Natural polymers, well ... I think that's what's most important,
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because these polymers have been tried and tested
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in our ecosystem for the last billion years,
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in everything from mushrooms to crustaceans.
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They're not going to clog up Earth's ecosystems. They work great.
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And while, today,
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we can practically guarantee that yesterday's packaging
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is going to be here in 10,000 years,
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what I want to guarantee
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is that in 10,000 years,
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our descendants, our children's children,
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will be living happily and in harmony
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with a healthy Earth.
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And I think that can be some really good news.
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Thank you.
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08:56
(Applause)
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