Bioprocessing and Biodetection Lab (BBL), Department of Food Science, Technology and Engineering, University of Tehran, Karaj, Iran.
Transport Properties Laboratory (TPL), Department of Food Science, Technology and Engineering, University of Tehran, Karaj, Iran.
J Sci Food Agric. 2018 Aug;98(11):4151-4159. doi: 10.1002/jsfa.8936. Epub 2018 Mar 15.
Vacuum-packed broccoli stems and florets were subjected to heat treatment (60-99 °C) for various time intervals. The activity of peroxidase was measured after processing. Thermally processed samples were then stored at 4 °C for 35 days, and the color of the samples was measured every 7 days. Effects of parameters (heating temperature and duration, storage time) on the color of broccoli were modeled and simulated by an artificial neural network (ANN).
Simulations confirmed that stems were predicted to be more prone to changes than florets. More color loss was observed with longer processing or storage combinations. The simulations also confirmed that higher temperatures during heat processing could retard color changes during storage. For stems treated at 80 °C for short durations, color loss was more predominant than both 65 and 99 °C, probably due to the incomplete inactivation of enzymes besides more tissue damage, with increased enzyme access to the substrate.
The greenness of both stems and florets during storage can be better preserved at higher temperatures (99 °C) and short times. The simulation results revealed that the ANN method could be used as an effective tool for predicting and analyzing the color values of heat-treated broccoli. © 2018 Society of Chemical Industry.
将真空包装的西兰花茎和花椰菜用不同的时间间隔进行热处理(60-99°C)。处理后测量过氧化物酶的活性。然后将经过热处理的样品在 4°C下储存 35 天,并每隔 7 天测量样品的颜色。通过人工神经网络(ANN)对参数(加热温度和持续时间、储存时间)对西兰花颜色的影响进行建模和模拟。
模拟结果证实,茎比花椰菜更容易发生变化。处理或储存时间越长,颜色损失越大。模拟结果还证实,在热加工过程中使用较高的温度可以延缓储存过程中的颜色变化。对于在 80°C 下短时间处理的茎,颜色损失比 65 和 99°C 更明显,这可能是由于除了更多的组织损伤外,酶的不完全失活导致酶更容易接触到底物,从而导致更多的颜色损失。
在较高温度(99°C)和较短时间下,可以更好地保持茎和花椰菜在储存过程中的绿色度。模拟结果表明,ANN 方法可以用作预测和分析热处理西兰花颜色值的有效工具。 © 2018 英国化学学会。
