覆盖材料和沟垄比对燕麦产量和水分利用效率的影响

Effects of mulching materials and furrow-to-ridge ratios on oat grain/hay yield and water use efficiency under rainwater harvesting cultivation

  • 摘要: 为改善半干旱地区土壤水分状况和提高降雨资源利用率, 在中国气象局兰州干旱气象研究所定西干旱气象与生态环境试验基地布置田间试验, 采用完全随机设计, 以无覆盖平作为对照, 研究不同覆盖材料垄作(普通地膜、生物可降解地膜和无覆盖土垄)及垄作不同沟垄比(60 cm∶30 cm、60 cm∶45 cm和60 cm∶60 cm)对燕麦土壤贮水量、干草产量、籽粒产量、水分利用效率和经济效益等的影响。结果表明, 就同一覆盖处理的平均值而言, 土壤贮水量的排列次序为普通地膜≈生物可降解地膜>土垄>平作, 在同一覆盖处理下, 土壤贮水量随沟垄比减小而增加。土垄燕麦的干草产量、籽粒产量和水分利用效率比平作分别降低12%、18%和27%; 生物可降解膜垄燕麦的干草产量、籽粒产量和水分利用效率比平作分别提高5%、4%和14%; 普通膜垄燕麦的干草产量、籽粒产量和水分利用效率比平作分别提高7%、9%和23%。就大多数情况而言, 燕麦干草产量、籽粒产量和水分利用效率随沟垄比减小而减小。对垄宽和实际籽粒产量的回归分析表明, 当沟垄比为60 cm∶38 cm时, 普通膜垄的燕麦实际籽粒产量达到最大值2 213 kg hm-2; 当沟垄比为60 cm∶34 cm时, 生物可降解膜垄的燕麦实际籽粒产量达到最大值2 114 kg hm-2。平作、土垄、生物可降解膜垄和普通膜垄燕麦经济效益分别为5 194元 hm-2、4 557元 hm-2、4 889元 hm-2和5 637元 hm-2。从燕麦籽粒产量、水分利用效率和环保等方面考虑, 在我国半干旱黄土高原区沟垄集雨种植燕麦, 覆盖材料应采用生物可降解膜, 沟宽∶垄宽为60 cm∶34 cm。

     

    Abstract: In order to improve soil water content and rainwater utilization in the semiarid Northwest China region, a field experiment of a randomized complete block design was conducted in 2012 at Dingxi Arid Meteorology and Ecological Environment Experimental Station of the Institute of Arid Meteorology of China Meteorological Administration. The experiment investigated the effects of different mulching materials biodegradable mulch film, common plastic film, no mulching (compacted soil with soil crust) and furrow-to-ridge ratios (60 cm∶30 cm, 60 cm∶45 cm and 60 cm∶60 cm) of rainfall harvesting cultivation with ridge and furrow on soil water storage, hay yield, grain yield, yield components and water use efficiency (WUE) of oat, with the conventional planting as the control. Also the economic benefits of rainfall harvesting cultivation with ridges and furrows were investigated. The results showed that the order of soil water storage was ridge covered with common plastic film (CMR) ≈ ridge covered with biodegradable mulch film (BMR) > ridge with compacted soil (SR) > traditional planting (TP). Also soil water storage increased with increasing ridge width. Hay yield, grain yield and WUE of oat under SR planting were respectively 12%, 18% and 27% lower than those under TP planting. While these variables were respectively 5%, 4% and 14% higher under BMR planting, they were 7%, 9% and 23% higher under CMR planting, compared with TP. In most cases, hay yield, grain yield and WUE of oat decreased with increasing ridge width. Based on regression analysis, oat grain yield under CMR planting reached the maximum of 2 213 kg·hm-2 under furrow-to-ridge width ratio of 60 cm∶38 cm. The maximum oat grain yield of 2 114 kg·hm-2 under BMR planting was for furrow-to-ridge width ratio of 60 cm∶34 cm. On average, the economic benefits of oat were respectively 5 194 Yuan·hm-2, 4 557 Yuan·hm-2, 4 889 Yuan·hm-2 and 5 637 Yuan·hm-2 under TP, SR, BMR and CMR planting systems. Taking grain yield, WUE and environmental protection into account, biodegradable mulch film with ridge-to-furrow width ratio of 60 cm∶34 cm was best for oat planting in the semiarid Loess Plateau regions.

     

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