Bioresource and Agricultural Engineering | Industrial Technology
Course Number and Title
TSM 416: Technology Capstone
Agricultural and Biosystems Engineering
Agricultural Systems Technology (Gradert, Hagenow, Steinbeck, Kent)
Joseph R. Vanstrom and Jacek A. Koziel
A typical field is compacted by wheel tracks on 80-90% of its area (NRCS National Soil Survey Center, 2011). This results in reduced yields, reduced soil health, and reduced water infiltration. Creating a plan to limit compaction could provide numerous benefits to farmers everywhere. John Deere Intelligent Solutions Group (ISG) is located in Urbandale and is responsible for developing precision agriculture hardware and software for John Deere (Ciha et al., 2017). Farmers all over the world use these products. ISG would like to know more about the effect on yield and profit that compaction from grain carts is responsible for. There are some statistics pertaining to yield loss from previous compaction studies that will be used to make an inference based on the amount of compaction that is found through collecting in the field samples. ISG wants some insight into this problem because of the potential for completely changing the way grain carts are operated in fields. Minimizing compaction is important because of the harm that it can cause to yield. Compaction affects farmers across the globe because there is a need to drive equipment through fields in order to complete necessary work. The potential to educate farmers with a new philosophy that could arise from this project could help to increase overall production of grain. It is unknown if other companies are looking into this problem. However, there are many scientists in the academic world that have spent their entire careers trying to solve the problem of compaction. A solution to directing grain cart traffic could also have an effect on how other field operations are performed as well.
Gradert, Cody; Hagenow, Garett; Steinbeck, Jacob; Kent, Kyle; Vanstrom, Joseph R.; and Koziel, Jacek A., "Grain Cart Pathways and Compaction" (2018). TSM 416 Technology Capstone Projects. 32.