Czech J. Food Sci., 2008, 26(6):421-427 | DOI: 10.17221/83/2008-CJFS

Colour evaluation of different pasta samples

Ivan Švec, Marie Hrušková, Michaela Vítová, Hana Sekerová
Department of Carbohydrate Chemistry and Technology, Faculty of Food and Biochemical Technology, Institute of Chemical Technology in Prague, Prague, Czech Republic

The colour of the laboratory prepared pasta was evaluated with respect to wheat flour types (M1 bright, M2 semi-bright, and M3 semolina), egg-ratio (0, 1, 2), and non-traditional cereals (archaic wheat species, tritordeum, spring barley, millet, lupin, buckwheat, and soya) supplements. The flour colour measurement confirmed its dependence on the wheat species milled - M3 obtained from durum wheat had a lower whiteness L* (89.6) and a higher yellowness b* (22.2) than the flour from common wheat (e.g. 93.6 and 8.1 for M1, respectively). As presumed, with the rising egg-ratio pasta yellowness increased - for M1-pasta, the calculated colour differences ∆E in pairs one-egg/eggless and two-egg/eggless were 1.1 and 4.7, respectively, while for M2- and M3-pasta ∆E values were only 0.8 and 1.5, respectively. The colour impacts of non-traditional cereals as 10% supplements differed between archaic wheat species, tritordeum, barley, and alternative cereals (millet, lupin, roasted buckwheat). In comparison to the standard, the greatest positive colour gain was brought by the lupin fortification (130% yellowness increase), while the worst appesred roasted buckwheat (10% decrease of whiteness, 210% increase of redness). At 20% non-traditional cereals supplements compared for M2- and M3-pasta, the highest positive increase of the pasta colour sensory perception was caused by corn and lupin additions in both pasta samples. The increase was slightly higher with M1-pasta (175%) than with M3-pasta (170%). In the mean of both pasta samples, yellowness L* increased from the standard pasta value 13.6 to 24.0 as measured for corn and lupin fortified pasta.

Keywords: reflectance colorimetry; colour evaluation; pasta; non-traditional cereals

Published: December 31, 2008  Show citation

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Švec I, Hrušková M, Vítová M, Sekerová H. Colour evaluation of different pasta samples. Czech J. Food Sci. 2008;26(6):421-427. doi: 10.17221/83/2008-CJFS.
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    References

    1. Abecassis J., Autran J.C., Feillet P. (2001): Durum Wheat, Semolina and Pasta Quality: Recent Achievements and New Trends. Editions Quae, Versailles.
    2. Feillet P., Autran J.-C., Icard-Vernière C. (2000): Pasta brownness: An assessment. Journal of Cereal Science, 32: 215-233. Go to original source...
    3. Fratianni A., Irano M., Pamfilu G., Acquistucci R. (2005): Estimation of color of durum wheat. Comparison of WSB, HPLC, and reflectance colorimeter measurements. Journal of Agricultural and Food Chemistry, 53: 2373-2378. Go to original source... Go to PubMed...
    4. Hamr K. (2007): Těstoviny dnes a zítra. Ročenka pekaře a cukráře 2007: 100-108.
    5. Hentschel V., Kranl K., Hollmann J., Lindhauer M.G., †Böhm V., Bitsch R. (2002): Spectrophotometric determination of yellow pigment content and evaluation of carotenoids by High-performance liquid chromatography in durum wheat grain. Journal of Agricultural and Food Chemistry, 50: 6663-6668. Go to original source... Go to PubMed...
    6. Hrušková M., Vítová M. (2007): Laboratorní těstárenský pokus. Mlynské noviny, XVIII: 7-9.
    7. Khouryieh H., Herald T., Aramouni F. (2006): Quality and sensory properties of fresh egg noodles formulated with either total or partial replacement of egg substitutes. Journal of Food Science, 71: 433-437. Go to original source...
    8. Leenhardt F., Lyan B., Rock E., Boussard A., Potus J., Chanliaud E., Remesy C. (2006): Genetic variability of carotenoid concentration, and lipoxygenase and peroxidase activities among cultivated wheat species and bread wheat varieties. European Journal of Agronomy, 25: 170-176. Go to original source...
    9. McCaig T.N., McLeod J.G., Clarke J.M., DePauw R.M. (1992): Measurement of durum pigment with a near-infrared instrument operating in the visible range. Cereal Chemistry, 69: 671-672.
    10. Rayas-Duarte P., Mock C.M., Satterleei L.D. (1996): Quality of spaghetti containing buckwheat, amaranth, and lupin flours. Cereal Chemistry, 73: 381-387.
    11. Torres A., Frias J., Granito M., Guerra M., VidalValverde C. (2007): Chemical, biological and sensory evaluation of pasta products supplemented with α-galactoside-free lupin flours. Journal of the Science of Food and Agriculture, 87: 74-81. Go to original source...
    12. Ugarčić-Hardi Ž., Jukič M., Koceva-Komlenić D., Sabo M., Hardi J. (2007): Quality parameters of noodles made with various supplements. Czech Journal of Food Sciences, 25: 151-157. Go to original source...

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