This study was conducted to promote the utilization of fish paste with added lotus leaf powder as a food. The tested concentrations of lotus leaf powder were 0, 0.5, 1, 1.5, and 2%. All the samples of fish paste with added lotus leaf powder had 37% water content. For the Hunter color values, the L, a and b values of the fish paste decreased with increasing concentrations of lotus leaf powder. And the folding test presented a good score(AA). In the texture meter test, the gumminess, and brittleness decreased according to increasing concentrations of lotus leaf powder. However, the hardness, cohesiveness, and springiness of the fish paste were not significantly changed by the addition of lotus leaf powder. In the sensory evaluation, the lotus leaf flavor, hardness, and adhesiveness increased as the concentrations of lotus leaf powder increased. The fish paste with 0.5% lotus leaf powder(0.5 LP) showed the highest acceptance scores in terms of pleasant taste and springiness. The fish paste with 0.5% lotus leaf powder(0.5 LP) also showed the highest acceptance scores for appearance, flavor, taste, texture, and overall quality. Therefore, the results suggest that lotus leaf powder can be applied to fish paste to increase its quality and functionality.
This study was carried out to evaluate the quality characteristics of cookies added with various concentrations (0, 1, 3 and 5%) of ginseng leaf powder. The pH of the cookies significantly decreased with increased ginseng leaf powder concentrations (p<0.05), but the density of cookies showed no significant differences. Spread factor, loss rate, and leaving rate of cookies decreased according to the amount of added ginseng leaf powder. The lightness and yellowness of cookies decreased as the concentration of the ginseng leaf powder increased whereas no significant difference in the redness was found with increased ginseng leaf concentration. In the texture analysis, the hardness of the cookies increased according to the concentration of ginseng leaf. DPPH free radical scavenging activity of the cookies significantly increased with increased ginseng leaf concentration (p<0.05). In the sensory evaluation, sensory scores for color, taste and overall acceptability were highest in the 3% ginseng leaf cookies. Thus, our results suggested that the optimum amount of ginseng leaf powder to add to cookies was 3%.
This study investigates the quality characteristics of soybean dasik made by mixing roasted beans with ramie leaf(Boehmeria nivea) extract powder. The results are as follows. For soybean dasik not including(0%) ramie leaf(Boehmeria nivea) extract powder, its moisture contents has appeared the lowest to $8.39{\pm}0.98%$, while soybean dasik with 10% ramie leaf extract powder the highest moisture contents to $14.71{\pm}0.02%$. As the content of ramie leaf(Boehmeria nivea) extract powder increased, the L-value, the a-value and b-value of soybean dasik with ramie leaf(Boehmeria nivea) extract powder significantly decreased(p<0.05). Among the texture measurement items of soybean dasik with ramie leaf(Boehmeria nivea) extract powder, the hardness, the gumminess, and the chewiness significantly increased as more amount of ramie leaf(Boehmeria nivea) extract powder added, whereas the adhesiveness and the cohesiveness significantly decreased(p<0.05%). The sensory evaluation, color and taste, softness and overall acceptability of soybean dasik with ramie leaf(Boehmeria nivea) extract powder showed that the one with 8% ramie leaf(Boehmeria nivea) extract powder were the most highly preferred, and there was no significant difference in the flavor. In conclusion, the soybean dasik added with 8% ramie leaf(Boehmeria nivea) extract powder is considered the most desirable in all of color, taste, flavor, and overall acceptability.
The aim of this research was to develop a practical use of the citron (Citrus junos Sieb.) leaf, which is a by-product of the citron cultivation, by introducing it into the Jeolpyun, one of the most popular rice cakes in Korea. To achieve the goals of this research, the citron leaf Jeolpyun (CLJ) was first precipitated. The sensory properties and physical examination of products containing 0 (control), 1.0, 1.5, 2.0, and 2.5% of the dried citron leaf powders were then assessed by employing sensory evaluations and instrumental measurements for texture and color. A total of one-hundred and fifty women panelists in age categories of 20s, 30s, 40s, and over 50 were randomly selected from residents in the Seoul area. In general, the highest sensory evaluation scores were obtained for CJLs containing 2% of the citron leaf powders by all panel groups although there was some variation. As levels of the citron leaf powder in the CLJ increased, the texture parameters such as hardness, cohesiveness, and gumminess of the CLJ as measured by the Texture Analyzer significantly increased while adhesiveness decreased and springiness remained constant. Accordingly, the optimal amount of citron leaf powder was determined to be 2% or less for CLJ in order to maintain the original texture of the Jeolpyun. As the levels of the citron leaf powder increased in the CLJ, the Hunter colorimetric L-and a-value significantly decreased while the b-value significantly increased. In other words, the CLJs became darker, as well as deeper in green and yellow tones as the levels of the citron leaf powder increased. The above results indicate that the citron leaf could be successfully used for preparation of Jeolpyun at a concentration around 2%(w/w) based on the consumer preference test and instrument analysis of the products. This research is expected to contribute to the industrial use of citron leaf powder in Jeolpyun and other food products.
This study aimed to evaluate the utilization of the top of a low intake of root, through the analysis of the antioxidant activity of the powder of hydroponic-cultured ginseng. Quality characteristics and antioxidant activity were compared and analyzed with Korea's traditional dessert Gaeseong-Juak, which is made of the powder of hydroponic-cultured ginseng's leaf by adjusting the added volume. DPPH radical scavenging activity of the hydroponic-cultured ginseng by the part powder was in the following order: highly stem, leaf and root. It was measured as 67.9%, 42.9%, and 25.9% at the 1 mg/m level. Gaeseong-Juak was prepared by adding hydroponic-cultured ginseng leaf powder at 0%, 0.3%, 0.6%, and 0.9% of the rice powder. As the content of hydroponic-cultured ginseng leaf powder increased, moisture content, L-value, and a-value were significantly decreased, while the b-value was significantly increased. The texture profile analysis of Gaeseong-Juak was not significantly different among the samples. In the sensory test, the sample containing 0.6% hydroponic-cultured ginseng leaf powder achieved good scores. The DPPH radical scavenging activity of Gaeseong-Juak was significantly increased, as the addition level increased, compared to the original. Based on the above results, hydroponic-cultured ginseng leaf was verified to be a possible natural antioxidant. It can increase food's nutritional values and possibilities when made of hydroponic-cultured ginseng, using leaf which is added to the traditional dessert Gaeseong-Juak.
Sweet pumpkin yanggaeng were produced with stevia leaf powder as a partial sugar replacer(0 to 20% sucrose weight) and antioxidant. Characteristics of the yanggaeng were compared in moisture, total soluble solids, pH, color, texture, antioxidant properties, and preference scores. Moisture and total soluble solids were proportionally increased with increasing addition of stevia leaf powder(p<0.001). pH of control (without stevia) and SLP20(with 20% replacement of sucrose) were 7.05 and 6.82, respectively. L-value, a-value, and b-value were decreased with increasing amount of stevia leaf powder (p<0.001). Antioxidant activities (total polyphenols and DPPH radical scavenging activity) were gradually increased as more stevia leaf powder included in the yanggaeng(p<0.001). SLP20 being significantly different from others (p<0.001) had the highest values of hardness and chewiness, but there was no significant difference between cohesiveness and adhesiveness among samples. SLP4 had the highest preference in appearance and texture, otherwise SLP8 did the highest scores in flavor, sweetness and overall preference. SLP8, in which 8% sucrose was replaced with stevia leaf powder, was considered to be the most desirable for production of sweet pumpkin yanggaeng.
Park, Bock-Hee;Cho1, Hee-Sook;Jeon, Eun-Raye;Kim, Sung-Doo;Koh, Kyeong-Mi
Journal of the Korean Society of Food Culture
/
v.24
no.3
/
pp.315-320
/
2009
This study was conducted to investigate the quality characteristics of tofu prepared with different concentrations of lotus leaf powder. The determined values for moisture, crude ash, carbohydrate, crude protein, and crude lipid in were 2.97%, 8.09%, 65.18%, 22.83%, and 0.93%, respectively. The yield rates of the tofu samples did not differ significantly according to the level of added lotus leaf powder; however, there was a significant decrease in pH and a significant increase in acidity. The L- and a-values of samples decreased as the amount of lotus leaf powder in the formulation increased, whereas the b value increased. Furthermore, hardness significantly increased as the level of lotus leaf powder increased. In terms of overall acceptability, the preferred tofu samples were the control and that containing 0.2% lotus leaf powder.
The objective of this study is to investigate the efficacy of leaf powder colorants as substitutes for traditional fresh juice extract dyeing. Three kinds of leaf powder colorants were prepared by freeze drying method with or without deep freezing as pre-treatment: one powder colorant from fresh leaf juice with deep freezing; two kinds of powder colorant from fresh leaves with and without deep freezing. Their dyeing properties and storage stabilities were studied and compared with the traditional fresh juice extract dyeing. The presence of indigo in the powder colorants was confirmed by UV/Visible absorption spectra. They showed absorption peak at 602nm which was same with indigo absorption peak. Dyeing was done at low temperature around 6$^{\circ}C$. All three powder colorants produced B colors on silk fabrics, showing similar color to the one dyed traditionally with fresh juice extract. The powder colorants from leaves gave higher color strength than the powder from leaf juice. The powder colorant prepared from leaves with deep freezing was the most stable for long term storage as its color and color strength were not changed after 360 days. So, this was used for further dyeing to study the effects of concentration and repeat dyeing on color strength and colorfastness. Fastnesses to dry cleaning and rubbing were fairly good above 4 rating. Further study is needed to improve light fastness. It was concluded that the leaf powder colorant with deep freezing could be used as a substitute for traditional juice extract dyeing at all seasons.
This study was carried out to investigate the quality characteristics and antioxidative activity of bread containing lotus leaf powder (in ratios of 0, 1, 2, and 3% of the total flour). The pH of dough and bread were decreased as the concentration of lotus leaf powder increased. The volume of dough during fermentation did not show significant difference between 1% lotus leaf powder containing dough and control. The weight of bread increased by addition of lotus leaf powder. The volume, specific volume and baking loss rate of the bread decreased as lotus leaf powder levels increased. Redness and yellowness of the inner crumb were decreased by the addition of lotus leaf powder, but lightness was increased. 2,2-diphenyl-1-picrylhydrazyl-radical scavenging activity and total polyphenol contents were increased significantly as the concentration of lotus leaf powder increased. The overall acceptability of bread containing 1% lotus leaf powder showed no significant difference compared with control. The result exhibited that adding the lotus leaf powder into the bread increased antioxidant activity, and the highest quality improvement was obtained by incorporating 1% (w/w) lotus leaf powder into the bread formula.
The purpose of this study was to determine the content attributes and sensory characteristics of ice cream flavored with lotus leaf and seeds (Nelumbo nucifera Gaertner). Analysis of freeze dried lotus leaf powder produced the following technical results: Freeze dried lotus leaf powder contained moisture 12.2, crude protein 5.9, crude fat 1.2, crude ash 7.0, crude fiber 13.4g/100mg; raw lotus seed powder contained moisture 65.0, crude protein 8.2, crude fat 0.3, crude ash 1.0, crude fiber 10.8g/100mg; freeze dried lotus seed powder contained moisture 14.0, crude protein 17.1, crude fat 1.9, crude ash 4.0, crude fiber 2.8g/100mg. Lotus seed was processed by 4 methods: freeze dried, roasted, freeze dried peeled inner layer, cooked cut peeled inner layer. Analysis of the color value produced the following technical results: freeze dried lotus leaf powder were L(lightness) 14.5, a(redness) 4.4, b(yellowness) 24.0; freeze dried lotus seed powder L 57.3, a 14.4, b 12.0; roasted lotus seed powder L 52.7, a 22.5, b 11.9; freeze dried lotus seed peeled inner layer L 60.0, a 1.4, b 12.3. Proportional lotus ingredients used for ice cream were 1%, 3%, 5%, 7%, 10% for lotus leaves and 1%, 3%, 5% for lotus seeds. The maximum over run ratio for lotus leaf ice cream was 45.3~56.9% at 20~25 minutes operating time. Over run was significantly decreased by increasing the contents of lotus leaf powder. A maximum over run ratio for lotus seed ice cream was 46.1~54.3% at 20~25 operating time. Over run was not significantly different based on content of lotus leaf versus lotus seed. Sensory evaluation of lotus leaf ice cream produced the following results: the highest score was for color of 4.42 and the lowest score was for sweetness of 3.30. The total mean score significantly decreased by increasing the content of lotus leaf powder. Sensory evaluation of lotus seed ice cream produced the following results: the highest score was for cooked cut peeled inner layer type and the lowest was for freeze dried type 3.86. The sensory scores were not significantly different based on the content of lotus seed. Texture was evaluated highest with a rating of 4.21 and the taste was evaluated lowest with a rating of 3.68 For whole evaluation. This study concluded that lotus leaf ice cream demonstrates relative strength in terms of color and taste, and a relative weakness in terms of over run and sweetness. Suitable content of lotus leaf ranged from 1~5%. The lotus seed processed by the cooked cut peeled inner layer method received a higher rating than dried powder for lotus seed ice cream.
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