Effect of Cultivar on Quality Attributes of Sweet Potato Fries and Crisps

Ali, Nafeesa; Falade, Kolawole O.; Akingbala, J. O.

doi:10.4236/fns.2012.32033

Cited by 17 publications

(10 citation statements)

References 24 publications

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“…This proposed explanation is supported by the DSC data to be discussed later, where the Δ H and peak temperature of sweet potato starch was higher than potato starch. As reported by other researchers, the high phosphorous content of potato starch is the cause for the high viscosity relative to sweet potato, which was 847 ppm phosphorous and 231 ppm, respectively . It is well recognized in the literature that, starch/water/gum mixture is regarded as biphasic system, where the gum is found in the continuous phase and its concentration increases as starch granules swell by absorbing water in the course of heating .…”

Section: Resultsmentioning

confidence: 79%

“…The difference between the two starches could be attributed to the higher amylose content of the sweet potato starch (23–25%) versus (16–18%) for the potato starch. The average granular size of potato starch was reported as 36 µm, while sweet potato was around 18.5 µm . Therefore, the difference could be attributed to the granule size as well.…”

Section: Resultsmentioning

confidence: 99%

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Sweet potato/potato starch and Abelmoschus esculentus‐gum blends: Thermal and textural properties

Alamri

2013

Starch Stärke

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The effect of Abelmoschus esculentus gum, known as okra, on potato and sweet potato starches pasting, rheological, and textural properties were studied using rapid visco analyzer, Brookfield rheometer, and texture analyzer, respectively. Blends of 5, 10, and 15% okra gum (OE) based on starch were prepared by dry mixing or at 60% moisture content prior testing, where 0% is the control. Significant drop in the peak viscosity of potato starch in a nonlinear form was observed. The effect of wet mixing appeared to be more pronounced for potato starch. Sweet potato starch exhibited greater setback due to higher amylose content. The shear stress/shear rate was fitted into power law, where the flow behavior index (n) was n < 1 signifying pseudoplasticity, where the consistency coefficient (K) decreased in the presence of (OE) indicating lower viscosity. The data was also fitted into Arrhenius equation to determine the effect of temperature on the activation energy (E a ), where higher E a was recorded for potato starch blends and lower for sweet potato starch. Higher gel hardness was noted for both control starches compared to the blends as well as springiness, gumminess, and chewiness, except for the adhesiveness and cohesiveness of potato starch.

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Section: Resultsmentioning

confidence: 79%

Section: Resultsmentioning

confidence: 99%

Sweet potato/potato starch and Abelmoschus esculentus‐gum blends: Thermal and textural properties

Alamri

2013

Starch Stärke

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“…Ali et al (2012) found L* values ranging from 72.2 to 79.7, a* values from -1.8 to 13 and b* values from 13.1 to 30.2 for this tuber. Amenya and Wilson (1997) have reported that the intensity of the orange color is an indicator of the concentration of β-carotene, which is the main carotenoid with pro-vitamin A activity, thus color measurements may be used to rapidly assess the contents of this compound.…”

Section: Characterization Of the Raw Materialsmentioning

confidence: 99%

Yellow sweet potato flour: use in sweet bread processing to increase β-carotene content and improve quality

Nogueira

Sehn

Rebellato

et al. 2018

An. Acad. Bras. Ciênc.

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Yellow sweet potato is mostly produced by small farmers, and may be a source of energy and carotenoids in the human diet, but it is a highly perishable crop. To increase its industrial application, yellow sweet potato flour has been produced for use in bakery products. This study aimed to evaluate the technological quality and the carotenoids content in sweet breads produced with the replacement of wheat flour by 0, 3, 6, and 9% yellow sweet potato flour. Breads were characterized by technological parameters and β-carotene levels during nine days of storage. Tukey's test (p<0.05) was used for comparison between means. The increase in yellow sweet potato flour concentrations in bread led to a decrease of specific volume and firmness, and an increase in water activity, moisture, orange coloring, and carotenoids. During storage, the most significant changes were observed after the fifth day, with a decrease in intensity of the orange color. The β-carotene content was 0.1656 to 0.4715 µg/g in breads with yellow sweet potato flour. This work showed a novel use of yellow sweet potato in breads, which brings benefits to consumers' health and for the agricultural business.

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“…The low moisture content of native starch from yellow tuber sweet potato (7.32%) and modified starch of orange tuber sweet potato (8.50%) was an evidence of good drying regime. The moisture content of sweet potato starch was dependant on the process used for drying (Ali et al 2012). HMT process gave the significant effect (P<0.05) on degree of acidity of starch.…”

Section: Physicochemicals Properties Of Starchmentioning

confidence: 97%

Bihon Type Noodles From Heat Moisture Treated Starch of Four Varieties of Sweet Potato

Lase

Julianti

Lubis

2013

jtip

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Sweet potato starch has limited uses in food industry, but modification of its properties may make it more suitable for use especially for starch based food such as bihon type noodle. The objective of this research was to study the effect of heat moisture treated starch from 4 varieties of sweet potato on the quality of its bihon type noodle. Four different varieties of sweet potato i.e. white, yellow, orange and purple tuber were treated with heat moisture treatment (HMT). The HMT was performed by exposing the starch to high temperature (110°C for 3 hours) at a moisture content of 25%. The HMT modified sweet potato starch was then processed into bihon type noodle. As a control, a commercial bihon type noodle made from rice starch was used. Parameters evaluated were the modified starch and bihon properties. The results showed that the modification of starch with HMT could increase the peak viscosity, setback viscosity, final viscosity and gelatinization temperature but lower the value of the breakdown viscosity. The best bihon from the four varieties of sweet potatoes was that made from white sweet potato starch because it has low cooking losses, low fat, but has high color/brightness and is preferred by panelist.Keywords: bihon, heat moisture treatment, starch, sweet potatoes ABSTRAK Keterbatasan pemanfaatan pati alami di dalam industri pangan dapat diatasi dengan cara modifikasi pati sehingga dihasilkan pati dengan karakteristik yang diinginkan terutama pada produk pangan berbahan dasar pati seperti bihun instan. Penelitian ini bertujuan untuk mempelajari pengaruh varietas ubi jalar terhadap karakteristik bihun instan yang dibuat dari pati ubi jalar yang dimodifikasi dengan

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Effect of Cultivar on Quality Attributes of Sweet Potato Fries and Crisps

Cited by 17 publications

References 24 publications

Sweet potato/potato starch and Abelmoschus esculentus‐gum blends: Thermal and textural properties

Sweet potato/potato starch and Abelmoschus esculentus‐gum blends: Thermal and textural properties

Yellow sweet potato flour: use in sweet bread processing to increase β-carotene content and improve quality

Bihon Type Noodles From Heat Moisture Treated Starch of Four Varieties of Sweet Potato

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