Tillage and management alternatives for returning Conservation Reserve Program land to crops

Accumulated vegetative residue was a concern when Conservation Reserve Prog ram (CRP) land returned to grain crop production. This study was conducted to determine the effect of residue management, tillage, and crop choice on grain yield in the first year of cropping on CRP land that was predominatel y smooth brome (Bromis inermis Leyss). Three residue management practices ( undisturbed, shred, and remove), three tillage systems [moldboard plow, dis k, and no till], and three crops (corn (Zea mays L.), soybean [Glycine mar (L.) Merr.], and grain sorghum [Sorghum bicolor (L,) Moench]} were used in a factorial arrangement of a 3-yr field experiment conducted in Nebraska on fine-silty, mixed, mesic Udic Haplustoll; fine-silty, mixed (calcareous), mesic Typic Ustorthent; and fine-silty, mixed, mesic Cumolic Halustoll soil s, Residue management was not significant for corn (P > F = 0.16), sorghum (P F = 0.113), and soybean (P > F = 0.491) although there were significant residue x tillage interactions. Tillage system was not significant (P > F = 0.125) for soybean yields, but plowing significantly (P > F = 0.0001) incr eased both corn and sorghum yields. Mean corn yields were 13% less for the no-till system than for the moldboard plow system. However, no-till corn yi eld differences were not significant (P > F = 0.255) when plant population (a possible measure of planter performance) and percent green rating (a mea sure of weed control) were included as covariates. Our recommendation for t he first year of grain crop production on smooth brome CRP land is to shred the residue and plant soybean in a no-till system.