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论文题目 Subsoil compaction and irrigation regimes affect the root–shoot relation and grain yield of winter wheat
作  者 Xiuwei Liu(刘秀位), Xiying Zhang(张喜英), Suying Chen(陈素英), Hongyong Sun(孙宏勇), Liwei Shao(邵立威);
发表年度 2015
刊物名称 Agricultural Water Management
卷、期、页码 154; ; 59–67
影响因子
论文摘要 The combined effects of soil moisture and physical parameters are important concerns in crop production. A three-season field experiment and a two-season tube experiment were performed to examine the effects of subsoil bulk density (BD) on the performance of winter wheat associated with irrigation regimes. Tubes (19.2 cm in inner diameter and 1 m in depth) were compacted with soil to create different BD ranging from 1.4 to 1.8 g/cm3at a subsoil layer (20–40 cm). The field study was conducted under deep tillage (DT) and rotary tillage (RT) that created two different BD at the subsoil layer (1.57 and 1.67 g/cm3, respectively). Two irrigation regimes (deficit and adequate) were applied to both the field and the tube experiments. Results from the tube tests showed that total root weight (TRW) was reduced with the increase in the BD, especially the root weight under the subsoil pan. TRW was positively related to the total shoot weight; whereas the final grain yield was not linearly related to the shoot weight, due to the different effects of BD and irrigation on harvest index. Moderate subsoil BD (1.5–1.6 g/cm3) produced the highest harvest index and grain yield. Results from the field experiment showed that the lower subsoil BD under DT improved the root growth in the deep soil layer, resulting in more soil water utilization under deficit irrigation, as compared with the higher subsoil BD under RT. Thus the yield under DT was improved under deficit irrigation. No significant difference in yield under adequate irrigation was found between the two tillage methods. The results testified that the effects of subsoil compaction on crop performance were associated with soil water conditions. Under relative dry condition, higher than optimum subsoil BD would negatively affect crop performance more significantly than that under sufficient water supply. The subsoil BD should be maintained below 1.6 g/cm3under the growing conditions of this study. The long-term RT had increased the subsoil BD over this limit. Optimizing the subsoil BD by tillage management would benefit crop production.
全文链接 http://dx.doi.org/10.1016/j.agwat.2015.03.004
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