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2011 | 61 | 3 |
Tytuł artykułu

Effects of various hydrothermal treatments on selected nutrients in legume seeds

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The aim of this study was to assess the influence of different soaking and cooking methods on contents of selected nutrients in legume seeds. The experimental material were dried kidney-bean seeds and soya bean seeds originating from the collection of Krakow’s Plants and Seeds Horticulture POLAN LTD. Technological treatment of seeds was performed in two stages: (1) cold and hot soaking, (2) cooking with three different devices: electric and induction stoves and microwave apparatus. The experimental material was determined for contents of: dry matter, protein, fat, ash, carbohydrates and selected mineral compounds (Ca, Mg, Na, K). The soaking and cooking of the seeds were observed to affect an increase in contents of protein, fat, ash, calcium and sodium in dry matter as well as a decrease in contents of digestible carbohydrates, potassium and magnesium. A more favorable method of soaking kidney bean seeds turned out to be hot soaking, which caused smaller losses of nutrients and shortened significantly the whole process. Cooking soya bean and kidney bean seeds with electric and induction stoves facilitated better protein preservation in comparison to the thermal treatment performed in a combined microwave oven.
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  • The Malopolska Centre of Food Monitoring and Certification, University of Agriculture in Krakow, Balicka 122, 30-149 Krakow, Poland
  • 1. Aguilera Y., Martin-Cabrejas M. A., Benitez V., Mollá E., López--Andréu F. J., Esteban R. M., Changes in carbohydrate fraction during dehydration process of common legumes. J. Food Comp. Anal., 2009, 22, 678–683.
  • 2. Alonso R., Rubio L.A., Muzquiz M., Marzo F., The effect of extrusion cooking on mineral bioavailability in pea and kidney beans seed meals. Anim. Feed Sci. Technol., 2001, 94, 1–13.
  • 3. Berrios J.J., Swanson B.G., Cheong W.A., Physico-chemical characterization of stored black beans (Phaseolus vulgaris L.). Food Res. Int., 1999, 32, 669–676.
  • 4. de Almeida Costa G.E., da Silva Queiroz-Monici K., Reis A.M.P.M., de Oliveira A.C., Chemical composition, dietary fibre and resistant starch contents of raw and cooked pea, common bean, chickpea and lentil legumes. Food Chem., 2006, 94, 327–330.
  • 5. ElMaki H.B., AbdelRahaman S.M., Idris W.H., Hassan A.B., Babiker E.E., ElTinay A.H., Content of antinutritional factors and HCl-extractability of minerals from white bean (Phaseolus vulgaris) cultivars: Influence of soaking and/or cooking. Food Chem., 2007, 100, 362–368.
  • 6. Fıratlıgil-Durmuş E., Šárka E., Bubnik Z., Schejbal M., Kadlec P., Size properties of legume seeds of different varieties using image analysis. J. Food Eng., 2010, 99, 445–451.
  • 7. Ghavidel R.A., Prakash J., The impact of germination and dehuling on nutrients, antinutrients, in vitro iron and calcium bioavailability and in vitro starch and protein digestibility of some legume seeds. Food Sci. Technol./LWT, 2007, 40, 1292–1299.
  • 8. Holse M., Husted S., Hansen A., Chemical composition of marama bean (Tylosema esculentum) – A wild African bean with unexploited potential. J. Food Comp. Anal., 2010, 23, 648–657.
  • 9. Iqbal A., Khalil I.A., Ateeq N., Kha, M.S., Nutritional quality of important food legumes. Food Chem., 2006, 97, 331–335.
  • 10. Jasiński Z., Kotecki A., Szczegółowa uprawa roślin. 1999, Wydawnictwo Akademii Rolniczej, Wrocław, Poland, pp. 48–62 (in Polish).
  • 11. Judprasong K., Charoenkiatkul S., Sungpuag P., Vasanachitt K., Nakjamanong Y., Total and soluble oxalate contents in Thai vegetables, cereal grains and legume seeds and their changes after cooking. J. Food Comp. Anal., 2006, 19, 340–347.
  • 12. Kalogeropoulos N., Chiou A., Ioannou M., Karathanos V. T., Hassaidou M., Andrikopoulos N. K., Nutritional evaluation and bioactive microconstituents (phytosterols, tocopherols, polyphenols, triterpenic acids) in cooked dry legumes usually consumed in the Mediterranean countries. Food Chem., 2010, 121, 682–690.
  • 13. Khalil A.H., Mansour E.H., The effect of cooking, autoclaving and germination on the nutritional quality of faba beans. Food Chem., 1995, 54, 177–182.
  • 14. Khatoon N., Prakash J., Nutrient retention in microwave cooked germinated legumes. Food Chem., 2006, 97, 115–121.
  • 15. Khattab R.Y., Arntfield S.D., Nutritional quality of legume seeds as affected by some physical treatments, Part 2. Antinutritional factors. Food Sci. Technol./LWT, 2009, 42, 1113–1118.
  • 16. Khattab R.Y., Arntfield S.D., Nyachoti C.M., Nutritional quality of legume seeds as affected by some physical treatments, Part 1: Protein quality evaluation. Food Sci. Technol./LWT, 2009, 42, 1107–1112.
  • 17. Kołota E., Orłowski M., Biesiada A., Warzywnictwo. 2007, Wydawnictwo Uniwersytetu Przyrodniczego, Wrocław, Poland, pp. 405–413 (in Polish).
  • 18. Korus J., Gumul D., Achremowicz B., Chemical composition of five new kidney bean (Phaseolus vulgaris L.) cultivars. Żywność, 2005, 45, 81–86 (in Polish, English abstract).
  • 19. Krupa U., Soral-Śmietana M., Bean seeds – a source of nutritious and non-nutritious macro-components. Żywność, 2003, 35, Suppl., 98–108 (in Polish, English abstract).
  • 20. Kunachowicz H., Nadolna I., Przygoda B., Iwanow K., Food Composition Tables. 2005, PZWL, Warsaw, Poland, pp. 236–243.
  • 21. Pirman T., Stibilij V., Chemical composition of 3 varieties of common beans (Phaseolus vulgaris L.) and lentil (Lens esculenta var. Puyensis). Żyw. Człow. Metab., 2001, 28, 187–197.
  • 22. Polish Standard, PN-EN ISO -16634–1:2008. Food products – Determination of the total nitrogen content bt combustion according to the Dumas principle and calculation of the crude protein content – Part 1. Oilseeds and animal feeding stuffs (ISO 16634–1:2008) (in Polish).
  • 23. Polish Standard, PN-EN ISO 6869:2002. Animal feeding stuffs – Determination of the contents of calcium, copper, iron, magnesium, manganese, potassium, sodium and zinc – Method using atomic absorption spectrometry (in Polish).
  • 24. Polish Standard, PN-ISO -712:2002. Cereals and cereals products – Determination of moisture content – Routine reference method (in Polish).
  • 25. Polish Standard, PN-ISO 2171:1994. Cereals and milled cereal products – Determination of total ash (in Polish).
  • 26. Pysz M., Bieżanowska R., Pisulewski P.M., The effect of thermal processing and germination on chemical composition, non-nutritional factors, and nutritive value of pea and soybean seeds. Żywność, 2001, 26, 85–92 (in Polish, English abstract).
  • 27. Sandberg A.S., Bioavailability of minerals in legumes. Br. J. Nutr., 2002, 88, Suppl. 3, 281–285.
  • 28. Sangronis E., Machado C.A., Influence of germination on the nutritional quality of Phaseolus vulgaris and Cajanus cajan. Food Sci. Technol./LWT, 2007, 40, 116–120.
  • 29. TFE 2000, Leco, Manual (method applied in accordance with instruction given by apparatus producer) (in Polish).
  • 30. Viadel B., Barberá R., Farré R., Effect of cooking and legume species upon calcium, iron, and zinc uptake by Caco-2 cells. J. Trace Elem. Med. Biol., 2006, 20, 115–120.
  • 31. Winiarska-Mieczan A., Koczmara K., Effect of soaking on the nutritional value of kidney bean (Phaseolus Vulgaris), soybean (Glycine Max) and lentil (Lens Culinaris) seeds. Acta Agrophysica, 2006, 8, 537–543 (in Polish, English abstract).
  • 32. Ximenez-Embun P., Alonso I., Madrid-Albarrany Y., Camara C., Establishment of selenium uptake and species distribution in lupine, Indian mustard and sunflower plants. J. Agric. Food Chem., 2004, 52, 832–838.
  • 33. Zia-ur Rehman, Shah W.H., Thermal heat processing effects on antinutrients, protein and starch digestibility of food legumes. Food Chem., 2005, 91, 327–331.
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