Absolutely. The traditional lines of business that the industry's been in for many years have been the lumber, the pulp, and the paper.
A tree, of course, can now be broken down into far more chemical-like components. One of the key aspects that the industry has been pursuing started with getting into the green energy business, which is using our waste material that comes out of making the pulp and paper—the sawdust and bark and chips of that nature. What doesn't get put into pulp or into oriented strand board then gets burned and you can make cogeneration power, which is basically using the heat to heat water to generate steam to power the plants. Most of our energy now, about 67%, comes from renewable biomass material.
The other part of this, which we're pursuing aggressively, is that you can essentially break a tree down—and we're getting way beyond my expertise in some respects—and turn it into anything that you could use plastics, steel, or metal for. You could make it as strong. To give you an example, one of our member companies, Tembec, has the worldwide patent for a thing called three-dimensional pulp. When you think of paper, paper is very strong in two dimensions. You can pull it one way, and you can pull it from the top, but if you pull it this way, it will rip in half. They've developed three-dimensional pulp so that you can't tear it that way. The process is one that can now be taken and moulded into any shape or form you want. You could make car parts or airplane parts; anything that you would use aluminum for, you could make with this thing. Of course, it's renewable and uses less energy.
Essentially, going into that—bioeconomy, bioproducts, biochemicals—all of that can be rendered from a tree. In a sense, you're going to end up using 100% of the tree that you pull out of the forest.