在大田条件下,研究了不同施氮水平对豫麦49-198和兰考矮早八面粉色泽及面条品质的影响。结果表明,两品种面粉及面糊的色泽等级值(CGV)、红色度(a*)和黄色度(b*)随施氮量的增加而增大,亮度(L*)随施氮量的增加而下降。随着放置时间的延长,面片的CGV、a*、b*升高,而L*值下降。质构仪分析表明,随着施氮量的增加,两品种面条的硬度、黏合性、咀嚼性呈上升趋势,以360 kg hm-2处理的值最高,并且和其他处理之间的差异达显著水平。
Noodle color is one of the most important determinate factors for noodle quality. For Chinese consumers, the best noodle color is bright creamy white with absence of discoloration. Noodle color depends on several factors such as intrinsic flour color, ash content, flour extraction, and flour particle size and protein concentration. Some instrumental methods have been developed for determining noodle quality and evaluating the sensory characteristics of the noodle products. Nitrogen application could affect wheat yield and the end-use quality. Previous studies mainly focused on the effect of nitrogen fertilizer on protein content, bread making quality. To evaluate the effects of nitrogen application rate on flour, noodle color and noodle texture, we used two wheat cultivars Yumai 49-198 and Lankao Aizao 8 in field experiments on the Henan Agricultural University Research Farm in 2004–2005 and 2005–2006 growing seasons. The soil contained 17.8 g kg-1 organic matter and 0.99 g kg-1 total N. Prior to sowing, fertilizers of P2O5 150 kg ha-1and K2O 150 kg ha-1 were applied. Three treatments of nitrogen were 0 (N1), 180 (N2), and 360 kg ha-1 (N3), respectively. Fifty percent of the nitrogen was for basic application before sowing and the left 50% was applied at elongation stage. The experiments were arranged in split plot design with three replicates. The results indicated that both in Yumai 49-198 and Lankao Aizao 8, as nitrogen application rate increased, color grade value (CGV), redness (a*), yellowness (b*) of flour and paste increased while brightness (L*) declined. The lowest value of L* was obtained in the treatment of N3, and the highest values of a* and b* were observed in the treatment of N2. The CGV, a*, and b* values of noodle sheet increased, while L* value decreased with the elongation of rest time. The texture analysis showed that hardness, gumminess and chewiness enhanced with the increase of nitrogen rate. For these parameters, the highest values were observed in treatments of N3 in both wheat cultivars. The results also indicated that texture traits can be used to evaluate noodle sensory characteristics.
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