施氮量与行距对冬小麦品质性状的调控效应
Effects of nitrogen rate and row spacing on winter wheat grain quality
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摘要: 在当今小麦产量不断提高的同时, 籽粒品质逐渐受到人们的重视, 不同的栽培措施会对小麦籽粒品质产生一定影响。为探明施氮量与行距互作对强、中筋小麦品质的调控效应及小麦类型间差异, 于2013—2014年在中国农业科学院作物科学研究所中圃场试验田, 以强筋小麦‘济麦20’和中筋小麦‘中麦8号’为试验材料, 采用裂区试验设计, 以施氮量(150 kg·hm-2、210 kg·hm-2、270 kg·hm-2)为主区, 行距(12 cm、20 cm)为裂区, 供试品种为小裂区, 研究田间高产栽培条件下不同施氮量和行距配置对不同类型冬小麦品质的影响。结果表明, ‘济麦20’和‘中麦8号’花后蛋白质积累量、成熟期籽粒蛋白质及其组分含量均随施氮量和行距增加而显著提高, 且在低氮条件下施氮效果较为显著。在270 kg·hm-2施氮量水平下, 增大行距对2个小麦品种灌浆后期籽粒蛋白质积累量的影响存在显著差异。在20 cm行距条件下, 210 kg·hm-2施氮量有利于强筋小麦‘济麦20’硬度、出粉率、湿面筋含量、沉降值及粉质参数等品质指标的改善, 而270 kg·hm-2施氮量能够有效提高中筋小麦‘中麦8号’磨粉品质和粉质参数; 2个筋型小麦面包体积和面包评分均随着施氮量的增加而升高, 而2个小麦品种容重随施氮量的增加而显著下降。当施氮量在150 kg·hm-2以上时, 增大行距, ‘济麦20’和‘中麦8号’加工品质均能够显著提升, 即在20 cm行距水平下2个筋型小麦加工品质较好。适当的施氮量和合理的行距配置能够提高小麦籽粒品质, 本试验条件下, ‘济麦20’和‘中麦8号’籽粒品质在行距20 cm、施氮量分别为210 kg·hm-2和270 kg·hm-2时达到最优。说明适当增加施氮量和增大行距均有利于强、中筋冬小麦品质的改善。Abstract: Wheat grain quality had attracted a significant concern with increasing grain yield in recent years and different cultivation measures had drastically influenced wheat grain quality. To explore the effects of nitrogen fertilizer dose and row spacing on grain quality of strong and medium gluten wheat varieties and differences between two wheat types, an experiment was conducted at the experimental station of the Institute of Crop Science of Chinese Academy of Agricultural Sciences in 2013–2014. Strong gluten wheat variety ‘Jimai 20’ and medium gluten wheat variety ‘Zhongmai 8’ were used in a three-factor complete split-plot design. The main plot consisted of three levels of nitrogen fertilization rates — 150 kg(N)·hm-2, 210 kg(N)·hm-2 and 270 kg(N)·hm-2. Then the first sub-plot consisted of two levels of row spacing in 12 cm and 20 cm, and the second sub-plot of two levels of wheat varieties (‘Jimai 20’ and ‘Zhongmai 8’). The results showed that protein accumulation after anthesis and protein content at maturity of ‘Jimai 20’ and ‘Zhongmai 8’ wheat varieties improved significantly with increasing nitrogen fertilizer dose and row spacing. The effect of nitrogen fertilizer on protein accumulation after anthesis was most notable in low N level treatment. A significant difference existed between the two different gluten wheat varieties with increasing row spacing in terms of grain protein accumulation during late grain-filling stage. Under 20 cm row spacing, 210 kg·hm-2 N was more favorable in terms of improved kernel hardness, flour yield, wet gluten content, sedimentation volume and farinograph parameter of ‘Jimai 20’ wheat variety. Then with nitrogen fertilizer dose of 270 kg·hm-2, there was high processing quality of ‘Zhongmai 8’ wheat variety. With increasing nitrogen fertilizer beyond this dose, bread volume and bread score significantly increased in‘Jimai 20’ and ‘Zhongmai 8’ wheat varieties, with decreasing volume weight of the two wheat varieties. In addition, increasing row spacing notably improved the processing quality of ‘Jimai 20’ and ‘Zhongmai 8’ under nitrogen fertilizer dose greater than 150 kg·hm-2. It then implied that the processing quality of different gluten wheat varieties was better at row spacing of 20 cm than at row spacing of 12 cm. Grain quality of winter wheat could be improved under better nitrogen application and row spacing. The most appropriate treatments for strong gluten wheat (‘Jimai 20’) and medium gluten wheat (‘Zhongmai 8’) were respectively 20 cm row spacing with 210 kg·hm-2 nitrogen dose and 20 cm row spacing with 270 kg·hm-2 nitrogen dose. The experimental analysis showed that increasing nitrogen fertilizer application and row spacing was beneficially improved grain quality of strong gluten and medium gluten winter wheat varieties.