Plant development,and N and P use of winter barley

Winter barley (Hordeum vulgare L. cv. Kamiak) was grown at three landscape positions of a representative toposequence in the Palouse region of eastern Washington. This region is typified by rolling topography marked by severe erosion of steep slope positions that has altered soil productivity in the landscape. The objectives of this research were to identify soil factors which limit plant development and nutrient use efficiency in the eroded slope positions, and to suggest potential management practices for overcoming these limitations. Direct drilling into cereal stubble resulted in retardation of early plant development of winter barley. Lower N and P accumulation by early tillering under no-till conditions were related these effects on dry matter. These reductions were generally overcome by anthesis. Comparison of tillage systems demonstrated that direct drilling into crop residues increased yields by 16% over conventional tillage at an eroded ridgetop position of one of the two toposequences examined. Benefits derived in the no-till system under the high N rates occurred during grainfilling, as indicated by greater numbers of heads and higher kernel weights at final harvest. Tillage system had no effect on grain production at other landscape positions that featured higher overall yields under either tillage system. Short-term benefits of no-till systems may be most evident at slope positions where water use is most limited.