作物学报 ›› 2022, Vol. 48 ›› Issue (10): 2638-2653.doi: 10.3724/SP.J.1006.2022.13053
魏正业(), 张海星, 石薇, 常生华, 张程, 贾倩民(), 侯扶江
WEI Zheng-Ye(), ZHANG Hai-Xing, SHI Wei, CHANG Sheng-Hua, ZHANG Cheng, JIA Qian-Min(), HOU Fu-Jiang
摘要:
间作和施氮是提高饲草作物产量和品质的重要措施, 然而, 在西北旱区青贮玉米-豆科作物间作系统的适宜施氮量尚不明确。本试验采用二因素随机区组设计, 设置3个种植方式(青贮玉米-拉巴豆间作, silage corn/Dolichos lablab intercropping, SL; 青贮玉米-秣食豆间作, silage corn/fodder soybean intercropping, SF; 青贮玉米单作, silage corn monoculture, S)和4种施氮水平(N1: 0 kg hm-2; N2: 120 kg hm-2; N3: 240 kg hm-2; N4: 360 kg hm-2)。分析种植方式和施氮水平对饲草作物产量、品质和水分利用的影响, 探索适宜西北旱区的玉-豆间作组合及施氮量。结果表明, 与S处理相比, 2019年和2020年SL处理的干草产量分别显著增加8.94%和8.68%, 水分利用效率分别显著增加12.28%和8.90%。间作较单作显著提高了饲草作物的粗蛋白和粗灰分含量, 显著降低了淀粉和中性洗涤纤维含量。施氮处理较不施氮显著提高了饲草作物的干草产量、粗蛋白、淀粉和粗脂肪含量, 显著降低了中性和酸性洗涤纤维含量, 而对粗灰分含量无显著影响。2019年N2、N3和N4的干草产量较N1分别显著增加30.30%、56.19%和53.95%, 2020年分别显著增加22.02%、60.54%和51.83%。N3和N4的WUE显著高于N1和N2, 而N3与N4无显著差异。所有处理中, SL-N3获得了最高的2年平均干草产量(33.10 t hm-2)、粗蛋白含量(10.01%)和水分利用效率(62.50 kg hm-2 mm-1)。综上所述, SL-N3是一种适合西北旱区青贮玉米生产的种植管理模式。
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