 I'm Jeff Endress, I'm from Waniki, Wisconsin. So we're doing this composting project here in the Yajara watershed to help reduce the amount of phosphorus that gets into the waterways, into the chain of lakes of Madison, which would also contain the Yajara River, which flows into the Rock River, and eventually into the Mississippi. 70% of the phosphorus that gets into this chain of lakes and stream is a rural in nature. The land base is narrowing for farmers to be able to maintain enough land to perform sound nutrient management practices on. So what we're trying to do with introducing composting to this region is to alleviate some of the need of spreading manure on farm fields and be able to create a product that we can move either out of the watershed or to farms that need the fertility. And this is a key component to the future of agriculture in this region. And so what we've done is we've taken PennPak manure, started with PennPak manure, putting it in a wind rose and turning it about probably about 10 to 12 times over the summer months, and creating a usable product at the end of the year that could be spread on farmers' fields for fertilizer and other soil amendment or soil health type products. So what we've been able to learn so far is that we have a product that is very valuable just coming out from normal PennPak barns with straw base or corn stock base bedding carbon mix in it. When we're done with the composting, we're ending up with a product that's about 35 to 40 percent moisture with a fertilizer value analysis of real close to 20 parts nitrogen and 10 parts phosphorus and 30 parts potassium, a value somewhere probably in that 30 to 40 range of fertilizer. So that allows us to start thinking and looking into transporting this product to the field further distances away from where the livestock density is less. We have the ability to spread it at that analysis at a couple ton to the acre, which will meet most needs of a growing crop for P and K with the idea that you'd have to supplement nitrogen for corn, additional nitrogen for corn. So through this project, we're analyzing the cost of creating the windrows, turning the windrows, transporting the finished product, spreading the product and also looking into the yield response at the end. So in order for this to be sustainable, it has to be economical for the farmer. The farmers that are creating the manure obviously have money invested in that fertility. It's coming off their fields or it's coming in in their purchase feeds. They have some value there that they should be and really should have the right to be able to get that value back in some way. And I think we're creating a scenario here that it is cost effective to make this product. They can recoup some of their money that they have invested in the product and yet the end user can get the value as well.