RESUMEN

Anthocyanins can be changed into dark purplish color during pound cake preparation due to high temperature and alkaline baking soda, which lowers color acceptance by consumers. To stabilize a red color of anthocyanins in pound cake enriched with aronia (Aronia melanocarpa) powder, lemon juice was added to contain final concentrations of 0, 1, 2, and 3% (w/w) in the pound cake, which were assigned as control, PL1%, PL2%, and PL3%, respectively. As lemon juice amount increased, redness (a*) and sensory color perception as well as overall acceptance were enhanced, whereas hardness, gumminess, and chewiness decreased in texture profile analysis. In a model system, the addition of lemon juice to aronia solution caused bathochromic shift and hyperchromic effect in UV-Vis absorption spectrum, which are typical phenomena of copigmentation derived from interactions between anthocyanins and copigments. The results indicate that lemon juice improved color acceptance for aronia pound cake by copigmentation. Supplementary Information: The online version contains supplementary material available at 10.1007/s10068-023-01286-1.

RESUMEN

BACKGROUND: The total annual amounts of food loss and waste represent approximately 30% of all food supplied for human consumption. Reducing this loss and waste is a challenge and valorizing this reduction requires more effort. The present study aimed to investigate the feasibility of replacing wheat flour (WF) with different levels of green pea waste flour (GPWF) to produce pound cake. METHODS: To prepare GPWF, green pea waste was dried at 65°C; the dried samples were pulverized and sieved through 50 mesh sieves. Six cake samples were prepared, wherein wheat flour was replaced with GPWF at the following levels: 0 (control), 10, 20, 30, 40 and 50%. Sensory evaluation was performed to determine the acceptability of various cake samples. Based on the results of the sensory evaluation, the acceptable replacement levels were determined and the effects of the GPWF-WF replacement level (10-30%) on the rheological behavior of cake batters and the quality characteristics of baked cakes were evaluated. RESULTS: Cake samples incorporating GPWF at levels higher than 30% significantly (p < 0.05) exhibited the lowest scores for all organoleptic characteristics compared to other samples. The storage modulus (G') and loss modulus (G″) of all cake batters involving GPWF were higher than those of the control cake batter and they were found to be less dependent on frequency. Increasing the GPWF-WF replacement level significantly (p < 0.05) decreased cake volume, springiness, and cohesiveness; however, cake density and hardness significantly (p < 0.05) increased. The lightness (L*) and yellowness (b*) of the cake crust and crumb significantly decreased with an increase in the replacement ratio, while the highest impacts on the crumb color in terms of greenness (a*) were noted when GPWF were used at all the studied replacement levels. CONCLUSIONS: High quality cakes could be obtained at GPWF-WF replacement ratios up to 20%, as they had sensorial, textural and appearance characteristics close to that of the control cake samples.

Asunto(s)

Harina/análisis , Análisis de los Alimentos , Pisum sativum , Triticum , Comportamiento del Consumidor , Industria de Alimentos , Humanos , Residuos Industriales , Reología , Sensación

RESUMEN

This study evaluated and compared the effect of the utilization of five different non-conventional starches (chickpea, common bean, Peruvian carrot, sweet potato and white bean) and four different commercial starches (cassava, corn, potato and rice) in pound cake. Common bean starch, followed by Peruvian carrot starch were the non-conventional starch sources that showed tendency to improve the technological quality of pound cake, mainly in relation to corn starch, the most common commercial source. With these sources, the batters presented lower specific gravity and the cakes presented higher specific volume, lighter color, lower crumb moisture reduction during the storage period, and better texture attributes during all the cake shelf-life. Moreover, common bean starch provided higher scores in the cake sensory evaluation; especially for grain and texture attributes (moisture, tenderness and softness). Chickpea and white bean starches were more similar to corn starch in pound cake application.

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Este estudo avaliou e comparou o efeito da utilização de cinco amidos de fontes não convencionais (grão de bico, feijão carioca, mandioquinha, batata doce e feijão branco) e de quatro diferentes amidos de fontes comerciais (mandioca, milho, batata e arroz) em bolo inglês. Amido de feijão carioca, seguido pelo amido de mandioquinha, foram os amidos de fontes não convencionais que mostraram tendência a melhorar a qualidade tecnológica do bolo inglês, principalmente em comparação com o amido de milho, o qual é a fonte comercial mais utilizada. Com o amido dessas fontes, os batidos apresentaram menores valores de gravidade específica e os bolos maiores valores de volume específico, cor mais clara, menor redução da umidade durante o período de estocagem e melhores valores nos atributos de textura durante a vida de prateleira. Além disso, amido de feijão carioca promoveu maiores escores na avalição sensorial; especialmente para os atributos do miolo e textura (umidade, suavidade e maciez). Amidos de grão de bico e feijão branco foram muito similares ao amido de milho em aplicação em bolo inglês.

RESUMEN

In order to evaluate the role of gluten in cake-making, gluten-starch (GS) blends with different ratios of gluten to starch were tested in a research pound cake formula. The viscosities of batters made from commercial GS blends in the otherwise standardised formula increased with their gluten content. High viscosities during heating provide the batters with the capacity to retain expanding air nuclei, and thereby led to desired product volumes. In line with the above, increasing gluten levels in the cake recipes led to a more extended oven spring period. Cakes with a starch content exceeding 92.5% in the GS blend suffered from substantial collapse during cooling. They had a coarse crumb with a solid gummy layer at the bottom. Image analysis showed statistical differences in numbers of cells per cm(2), cell to total area ratio and mean cell area (p<0.05). Both density and mean cell area were related to gluten level. Moreover, mean cell area and cell to total area ratio were the highest for cakes with the lowest density and highest gluten levels. Relative sodium dodecyl sulfate (SDS, 2.0%) buffer (pH 6.8) extractabilities of protein from cakes baked with the different GS blends decreased with gluten content and were strongly correlated with the intensity of collapse. Taken together, the results teach that protein gives the cakes resistance to collapse, resulting in desirable volumes and an optimal grain structure with uniform cell distribution.