低温冷害下不同播期和播量对冬小麦籽粒灌浆特征的影响

Effects of sowing date and rate on grain filling characteristics of winter wheat under chilling injury

  • 摘要: 为解析低温冷害下不同播期和播量对小麦籽粒灌浆特征的影响, 选择'济麦22'和'皖麦52'为试验材料, 在安徽省蒙城县和太和县同步开展不同播期早播(10月3日)和适播(10月15日)和播量N1(6×104株·666.7m-2)、N2(10×104 株·666.7m-2)、N3(14× 104 株·666.7m-2)和N4(18×104 株·666.7m -2)互作试验。田间冷害和籽粒灌浆过程的调查结果表明, '济麦22'和'皖麦52'早播时冷害致灾严重, '济麦22'抗寒性强于'皖麦52'; 同一播期下, 2个品种单粒重变化趋势基本一致, '济麦22'相应处理单粒重均高于'皖麦52', 同一品种随播量增加单粒重呈降低趋势。利用Matlab编程获取小麦籽粒Richards方程的灌浆次级参数, 不同播期之间各参数存在一定规律性, 其中, 起始势(R0)、平均灌浆速率(Vmean)、中期灌浆时间(T2)、前期籽粒灌浆速率(Vp1)和中期灌浆速率(Vp2)以适播处理较高, 前期灌浆时间(T1)、后期灌浆时间(T3)和后期灌浆速率(Vp3)以早播处理较高, 即早播小麦受低温冷害致灾严重。相同播期条件下, 2个品种随播量变化趋势基本一致, 随播量增加T1Vp3逐渐增加, R0VmeanT2T3Vp1Vp2和最终干重(Wmax)则呈降低趋势; 品种间表现为'济麦22'的VmeanT2T3Vp1较高, '皖麦52'的R0T1Vp2Vp3较高。关联性分析结果表明: 早播条件下, 与单粒重关联性较高的参数有T2(0.871 1)、T3(0.809 6)、Vmean(0.777 5)和Vp2(0.761 6); 适播条件下, 与单粒重关联性较高的参数有T2(0.906 1)、R0(0.873 8)、Vmean(0.837 2)和Vp2(0.805 6)。通径分析结果表明: 春季低温冷害发生时, 无论在早播还是适播, 起始势对单粒重均具有积极的正效应; 灌浆中后期时间的延长有利于单粒重的增加, 而灌浆前期时间的增加则具有负效应; 前期和中期籽粒灌浆速率的提高有利于单粒重的增加, 后期籽粒灌浆速率则具有负效应。因此, 提高灌浆起始势和延长中后期灌浆时间对增加籽粒干重具有重要作用。

     

    Abstract: In Huaibei Area of Anhui Province, chilling injury occurred twice in April 2013. The winter wheat cultivars 'Jimai22' and 'Wanmai52' planted in 2012 to 2013 were used to analyze the effects of sowing date and rate on grain filling characteristics of winter wheat under chilling injury. Comparative experiments were conducted for different sowing dates early sowing (on October 3) and timely sowing (on October 15) and sowing rates N1 (6×104 plant·666.7m-2), N2 (10×104 plant·666.7m -2), N3 (14×104 plant·666.7m-2) and N4 (18×104 plant·666.7m -2) in Mengcheng and Taihe Counties. During the grain filling stage of winter wheat, field investigations of chilling injury showed that 'Jimai22' and 'Wanmai52' early sowed severely suffered injuries. The cold resistance of 'Jimai22' was higher than that of 'Wanmai52'. Under the same sowing dates, the single-grain weight of the two cultivars had the same variation trend, which decreased with increasing sowing rate. In addition, the single-grain weight of 'Jimai22' was higher than that of 'Wanmai52'. Richards equations combined with Matlab program was used to estimate the secondary parameters of wheat grain filling. The results showed that various parameters at different sowing dates had certain regularities. Specifically, initial grain-filling potential (R0), average grain-filling rate (Vmean), duration of middle grain-filling stage (T2), early stage grain-filling rate (Vp1) and middle stage grain-filling rate (Vp2) under timely sowing treatment were much higher. Contrarily, early grain-filling stage duration (T1), late grain-filling stage duration (T3) and late stage grain-filling rate (Vp3) under early sowing treatment were much higher. This suggested that early sowed winter wheat was more likely to suffer more serious chilling injury. Under the same sowing date, the two wheat cultivars had similar variation trends with changing sowing rate. Specifically, T1 and Vp3 increased gradually with increasing sowing rate. Furthermore, R0, Vmean, T2, T3, Vp1, Vp2, and Wmax (final dry weight) followed a decreasing trend. Also compared with 'Wanmai52', 'Jimai22' showed higher Vmean, T2, T3 and Vp1, and lower R0, T1, Vp2 and Vp3. Correlation analysis showed that T2 (0.871 1), T3 (0.809 6), Vmean (0.777 5) and Vp2 (0.761 6) of early sowing treatment had higher correlations with single-grain weight, while T2 (0.906 1), R0 (0.873 8), Vmean (0.837 2) and Vp2 (0.805 6) of timely sowing treatment had higher correlations with single-grain weight. Also path analysis suggested that in terms of chilling injury stress, initial grain-filling potential had positive effects on single-grain weight under both timely and early sowing treatments. Prolonged middle and late grain-filling stages were beneficial for increasing single-grain weight. However, prolonged early grain-filling stage had negative effects on single-grain weight. Also enhanced grain-filling rates at early and middle stages were conducive for increasing single-grain weight, but grain-filling rate at the late stage exerted negative effects on single-grain weight. Therefore supplementation with quick-acting fertilizers in combination with leaf fertilizer application at late growth stage under chilling injury stress were critical for improving initial grain-filling potential, prolonging middle and late grain-filling stages and increasing grain dry weight.

     

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