Spring wheat response to tillage system and nitrogen fertilization within a crop-fallow system

Spring wheat (Triticum aestivum L.) production in the northern Great Plains generally utilizes conventional tillage systems. A 12-yr study evaluated t he effects of tillage system [conventional-till (CT), minimum-till (MT), an d no-till (NT)], N fertilizer rate (0, 22, and 45 kg N ha(-1)), and cultiva r (Butte86 and Stoa) on spring wheat grain yields in a dryland spring wheat -fallow rotation (SW-F). Butte86 yields with CT exceeded NT yields in five out of 12 years with 0 and 22 kg N ha(-1) applied, and four years with 45 k g N ha(-1) applied. Stoa yields with CT exceeded NT yields in three out of 12 years with no N applied, four years with 22 kg N ha(-1) applied, and onl y one year with 45 kg N ha(-1) applied. Yields with NT exceeded those with CT in one year. Most years, yields with MT equaled those with CT. Responses to N tended to be greatest in years when spring soil NO3-N was lowest. Pos itive yield responses to N fertilization with CT occurred in three years wi th Butte86 and two years with Stoa; with MT, four years with Butte86 and tw o years with Stoa; and with NT, five years with Butte86 and three years wit h Stoa. Cultivars were not consistent in their response to tillage and N fe rtilization. These results indicate that farmers in the northern Great Plai ns can successfully produce spring wheat in a SW-F system using MT and NT s ystems, but yields may be slightly reduced when compared with CT systems so me years.