abbr. SJ GMU
ISSN 2657-5841 (printed)
ISSN 2657-6988 (online)
DOI: 10.26408
Comparative Analysis Quality of Innovative Pasta from Quinoa
1
Bydgoszcz University of Science and Technology, 7 Prof. S. Kaliskiego St., 85-796 Bydgoszcz, Poland, Department of Biology and Plant Protection, e-mail: gesinski@pbs.edu.pl
2
Gdynia Maritime University, 81-87 Morska St., 81-225 Gdynia, Poland, Department of Quality Management
The aim of this study was to evaluate the quality of innovative quinoa pasta by assessing its culinary qualities. The products were compared with traditional wheat pasta. Four innovative products containing Chenopodium quinoa, available on the Polish market, were selected for the study. The culinary properties were determined by evaluating the weight gain factor, loss of dry matter during cooking, and an organoleptic evaluation and colour of pasta before and after cooking. The study showed that the culinary quality of the innovative products varied and depended on the raw material composition. A correlation was found between pasta properties and the proportion of quinoa and wheat flour in the products and the nutrient content. Pasta with a higher proportion of quinoa was characterized by good cooking properties.
This article is an open access article distributed under a Creative Commoms Attribution (CCBY 4.0) licence
Brzeziński, J, 2002, Metodologia badań psychologicznych, Wydawnictwo Naukowe PWN, Warszawa.
Cacak-Pietrzak, G., Szybilska, A., 2011, Skład chemiczny oraz walory żywieniowe komosy ryżowej, Przegląd Zbożowo-Młynarski, no. 2, pp. 19–21.
Chillo, S., Laverse, J., Falcone, P., Del Nobile, M., 2008, Quality of Spaghetti in Base Amaranthus Whole Meal Flour Added with Quinoa, Broad Bean and Chick Pea, Journal of Food Engineering, vol. 85, pp. 101–107.
Cubadda, R.E., Carcea, M., Marconi, E., Trivisonno, M.C., 2007, Influence of Gluten Proteins and Drying Temperature on the Cooking Quality of Durum Wheat Pasta, Cereal Chemistry, vol. 84, pp. 48–55.
Dębski, B, Gralak, M.A., 2001, Komosa ryżowa – charakterystyka i wartość dietetyczna, Żywienie Człowieka i Metabolizm, vol. 28, pp. 360–369.
Fardet, A., Abecassis, J., Hoebler, C., Baldwin, P., Buleon, A., Berot, S., Barry, J., 1999, Influence of Technological Modification of the Protein Network from Pasta on in vitro Starch Degradation, Journal Cereal Science, vol. 10, pp. 133–145.
Fiorda, F.A., Soares, Jr. M.S., da Silva Flávio, A., Grosmann, M.V.E., Souto, L.R.F., 2013, Microstructure, Texture and Colour of Gluten-Free Pasta Made with Amaranth Flour, Cassava Starch and Cassava Bagasse, Journal of Food Science and Technology, vol. 54, pp. 132–138.
Gęsiński, K., 2012, Biologiczne i agrotechniczno-użytkowe uwarunkowania uprawy komosy ryżowej (Chenopodium quinna Willd.), Rozprawy, no. 157, Wydawnictwo Uczelniane UTP Bydgoszcz.
Inglett, G.E., Peterson, S.C., Carriere, C.J., Maneepun, S., 2005, Rheological, Textural, and Sensory Properties of Asian Noodles Containing on Oat Cereal Hydrocolloid, Food Chemistry, vol. 8, no. 1, pp. 1–8.
Inouchi, N., Glover, D.V., Fuwa, H., 1987, Chain Length Distributions of Amylopectins of Several Single Mutants and the Normal Counterparts, and Sugary -1 phytoglycogen in maize (Zea maize L.). Starch/Stärke, vol. 39, no. 259.
Jendrzejczak, E., Nowaczyk, L., 2006, Zastosowanie analizy interpolowej w badaniach hodowlanych papryki rocznej, Colloquium Biometricum, vol. 36, pp. 159–170.
Lamberts, L., Brijs, K., Mohamed, R., Verhelst, N., Delcour, J.A., 2006, Impact of Browning Reactions and Bran Pigments on Color of Parboiled Rice, Journal of Agricultural and Food Chemistry, vol. 54, pp. 9924–9929.
Marti, A., Caramanico, R., Bottega, G., Pagani, M.A., 2013, Cooking Behavior of Rice Pasta: Effect of Thermal Treatments and Extrusion Conditions, Journal of Food Science Technology, vol. 54, pp. 229–235.
Menegassi, B., Leonel, M., 2005, Efeito da adição de farinha de mandioquinhasalsa nas características de massa alimentícia, Semina: Ciências Exatas e da Terra, vol. 11, no. 3, pp. 13–19.
Obuchowski, W., 1997, Technologia przemysłowej produkcji makaronu, Wydawnictwo Akademii Rolniczej w Poznaniu, Poznań.
Parente, C., Gomes, M., da Costa, C.A., Pais, C., Aguiar, A., Correia, H.E., Costa, D.T., 2018, Adesão e resistência a práticas de agricultura biológica entre agricultores familiares: Reflexões a partir de uma abordagem com grupos focais, Actas Port. Hortic., vol. 29, pp. 472–483.
Parzonka, A., Hornowski, A., 2017, Economic and Social Assessment of the Use of Structural Funds in the Creation of the Development of “Small” Farms in Poland, Journal of Agriculture and Rural Development, vol. 44, no. 2, pp. 413–420.
Raquel, S., Dias D.V.T.A., Costa, H.E., Costa C.A., 2021, Building Bio-Districts or Eco-Regions: Participative Processes Supported by Focal Groups, Agriculture, vol. 11.
Rodríguez, De Marco E., Steffolani, M.E., Martínez, C.S., León, A.E., 2014, Effects of Spirulina Biomass on the Technological and Nutritional Quality of Bread Wheat Pasta, Journal of Food Science Technology, vol. 58, pp. 102–108.
Ruszkowska, M., 2013, Charakterystyka makaronów innowacyjnych, Inżynieria i Aparatura Chemiczna, vol. 52, no. 2, pp. 81–82.
Seol, H., Sim, KH., 2017, Quality Characteristics of Noodles with Added Germinated Black Quinoa Powder, Korean Journal of Food and Nutrition, vol. 30, no. 1, pp. 19–30.
Sobota A., Dobosz, M., 2010, Jakość dostępnych na rynku makaronów pełnoziarnistych, Żywność. Nauka. Technologia. Jakość, vol. 6, no. 73, pp. 83–99.
Sobota, A., Skwira, A., 2009, Psyhical Properties and Chemical Composition of Extruded Pasta, Acta Agrophisica, vol. 13, no. 1, pp. 245–260.
Szczepanek, M., Prus, P., Knapowski, T., 2018, The Assessment of Market Demand for Products Obtained from Primary Wheat Forms with Increased Nutritional Value, Proceedings of the 27th International Scientific Conference Agrarian Perspectives XXVII ’Food Safety–Food Security’, Prague, 19–20 September 2018, Czech University of Life Sciences, Prague, Czech Republic, pp. 381–387.
Zawadzki, K., 2005, Pszenica durum najlepszym surowcem do produkcji makaronu, Przegląd Zbożowo-Młynarski, vol. 49, no. 9, pp. 39–40.