Identification of natural dyes with halochromic properties and their potential use as food spoilage indicators

H. T. Rumah, Mansur B. Ibrahim, S. M. Gumel
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Abstract

Purpose The purpose of this research is to identify and investigate some natural dyes with halochromic properties for potential use as food spoilage indicators to reduce waste and curve the negative effects of food borne diseases. Design/methodology/approach Exactly 10 potential dye-yielding plants were selected based on their colour (mostly purple, red, maroon and pink). Solvent extraction was used to extract the dyes and pH differential method was used to determine the concentrations of anthocyanin in the extracted dyes. Different concentrations of hydrochloric acid and sodium hydroxide (0.1 M, 1 M and 2 M) in drops and in excess as acidic and basic solution, respectively, were used to test the halochromicity of the extracted dyes. Methyl red (a synthetic dye) was used as a reference standard/control. The pH of the dyes was recorded before and after addition of both NaOH and HCl solutions. Findings Five out of the 10 dyes extracted (labelled as dye A–E for Ti plant (green Cordyline fruticosa), coleus (Coleus blumei), paper flower (Bougainvillea glabra), painted nettle (Palisandra coleus) and purple heart (Setcresea purpurea), respectively, were found to be halochromic (even at low doses) by changing its colour when exposed to both acidic and basic solutions. While other dyes labelled F–J for red acalypha (Acalypha wilkesiana), golden shower (Cassia fistula), golden dew drop (Duranta repens), wild sage (Lantana camara var Aculeata) and pink oleander (Apocynaceae Nerium oleander), respectively, were either completely insensitive to the solutions in drops, slightly sensitive at high doses or the colour change is insignificant. Although some dyes were found to be more sensitive than others but in most cases, the colour changes in halochromic dyes were more stable in acidic conditions than in basic making it more sensitive to the basic than the acidic solution with the exception of dye A and E (to some extent) which was sensitive to both acidic and basic solution. The anthocyanin contents of dye A–J were found to be between the range of 2.28–10.35 mg/l with dye E having the lowest and dye J with the highest anthocyanin concentration, respectively. The initial pH of all the dyes falls within the range of 4.8–7.3 with most found within the acidic range. Originality/value Halochromic dye research studies are still at the infancy stage in developing world despite the vast available and abundant potential natural halochromic dye-yielding plants. The study explored this area of research and gives an opportunity for the development of smart packaging for pH-sensitive foods using natural dyes as an alternative to conventional synthetic dyes to reduce cost and also curve the negative effect of synthetic dyes as well as food borne diseases.
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具有变色特性的天然染料的鉴定及其作为食品变质指示剂的潜在用途
目的鉴定和研究具有显色性的天然染料作为食品变质指标,减少食品浪费,揭示食源性疾病对食品的不良影响。设计/方法/方法根据颜色(主要是紫色、红色、栗色和粉红色)选择了10种可能产生染料的植物。采用溶剂萃取法提取染料,并用pH差法测定染料中花青素的含量。用不同浓度的盐酸和氢氧化钠(0.1 M、1 M和2 M)滴液和过量溶液分别作为酸性溶液和碱性溶液,测试提取的染料的显色性。甲基红(一种合成染料)作为对照品。分别记录加入NaOH和HCl溶液前后染料的pH值。在提取的10种染料中,分别有5种(标记为染料A-E),分别用于Ti植物(绿色Cordyline fruticosa)、coleus (coleus blumei)、纸花(三角梅)、彩荨麻(Palisandra coleus)和紫心(Setcresea purpurea),当暴露于酸性和碱性溶液中时,它们的颜色会发生变化(即使在低剂量下)。而其他分别标记为F-J的染料分别为红果胶(acalypha wilkesiana)、金花(Cassia)、金露珠(Duranta repens)、野生鼠尾草(Lantana camara var Aculeata)和粉红夹竹桃(Apocynaceae Nerium oleander),它们要么对滴入溶液完全不敏感,要么在高剂量时略敏感,要么颜色变化不显著。虽然有些染料被发现比其他染料更敏感,但在大多数情况下,变色染料的颜色变化在酸性条件下比在碱性条件下更稳定,使其对碱性比酸性溶液更敏感,但染料A和E(在某种程度上)对酸性和碱性溶液都敏感。染料A-J的花青素含量在2.28 ~ 10.35 mg/l之间,染料E的花青素含量最低,染料J的花青素含量最高。所有染料的初始pH值均在4.8 ~ 7.3之间,多数为酸性。原创性/价值在发展中国家,尽管有大量的潜在的天然变色植物,但对变色染料的研究仍处于初级阶段。该研究探索了这一研究领域,并为开发ph敏感食品的智能包装提供了机会,使用天然染料作为传统合成染料的替代品,以降低成本,并减少合成染料和食源性疾病的负面影响。
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