TY - JOUR AV - restricted UR - http://dx.doi.org/10.1071/CP14136 IS - 06 PB - CSIRO Publishing TI - Long-term cropping system studies support intensive and responsive cropping systems in the low-rainfall Australian Mallee A1 - Whitbread, A M A1 - Davoren, C W A1 - Gupta, V V S R A1 - Llewellyn, R A1 - Roget, D N1 - We thank Mallee Sustainable Farming Inc. and collaborating farmers Allen Buckley and Jim Maynard for their assistance, and the Grains Research and Development Corporation for financial support. Dr Ben Jones, Mallee Focus, is acknowledged for database compilation of trial management information and results. Expert technical assistance was provided by Ms Stasia Kroker, Mr Damian Mowat and John Koppi of CSIRO in Adelaide over many years. Drs John Kirkegaard and Therese McBeath, CSIRO National Sustainable Agriculture Flagship, are acknowledged for providing helpful comments on the manuscript. SN - 1836-0947 VL - 66 N2 - Continuous-cropping systems based on no-till and crop residue retention have been widely adopted across the low-rainfall cereal belt in southern Australia in the last decade to manage climate risk and wind erosion. This paper reports on two long-term field experiments that were established in the late 1990s on texturally different soil types at a time of uncertainty about the profitability of continuous-cropping rotations in low-rainfall environments. Continuous-cereal systems significantly outyielded the traditional pasture?wheat systems in five of the 11 seasons at Waikerie (light-textured soil), resulting in a cumulative gross margin of AU$1600 ha?1 after the initial eight seasons, almost double that of the other treatments. All rotation systems at Kerribee (loam-textured soil) performed poorly, with only the 2003 season producing yields close to 3 t ha?1 and no profit achieved in the years 2004?08. For low-rainfall environments, the success of a higher input cropping system largely depends on the ability to offset the losses in poor seasons by capturing greater benefits from good seasons; therefore, strategies to manage climatic risk are paramount. Fallow efficiency, or the efficiency with which rainfall was stored during the period between crops, averaged 17% at Kerribee and 30% at Waikerie, also indicating that soil texture strongly influences soil evaporation. A ?responsive? strategy of continuous cereal with the occasional, high-value ?break crop? when seasonal conditions are optimal is considered superior to fixed or pasture?fallow rotations for controlling grass, disease or nutritional issues. SP - 553 Y1 - 2015/04/28/ EP - 565 ID - icrisat9458 KW - Climate variability KW - Continuous cropping KW - Crop modelling KW - Low rainfall cropping KW - Risk management KW - Rotations KW - Cropping system studies JF - Crop & Pasture Science ER -