Economics of cropping systems featuring different rotations, tillage, and management

Economics is the dominant factor influencing the adoption of cropping syste ms. The objective of this 6-yr study was to determine profitability of crop ping systems featuring four crop rotations (continuous corn (Zea mays L.), soybean [Glycine max (L.) Merr.]-corn, soybean-corn-corn, and soybean-wheat (Triticum aestivum L.)/red clover (Trifolium pratense L.)-corn), three til lage systems (moldboard, chisel, and ridge) and two management input (high and low chemical) systems. The soybean-corn rotation under low chemical man agement resulted in the greatest net returns in chisel ($100 ha(-1)) and mo ldboard plow tillage ($148 ha(-1)) because the reduction in production cost s (similar to$110 ha(-1)), associated with less fertilizer and pesticide co sts in corn and less herbicide costs in soybeans, offset the reduction in g ross returns ($72 ha(-1) in chisel and $38 ha(-1) in moldboard plow), assoc iated with lower corn and soybean yields in chisel and lower corn yields in moldboard plow. Continuous corn under high chemical and soybean-corn-corn and soybean-corn rotations under low chemical management had similar net re turns in ridge tillage ($33, $26, and $17 ha(-1), respectively). Growers wh o substitute soybean-corn and soybean-corn-corn (in ridge) rotations for co ntinuous corn can maximize profits and reduce starter fertilizer use by 33 to 50%, N fertilizer by 60 to 70%, herbicides by about 60%, and insecticide s by 65 to 100%. Growers who use moldboard plow tillage may realize maximum profits by adopting the soybean-wheat/red clover-corn rotation under low c hemical management if they market the wheat straw, a common practice in New York.