Nutrient Contents in yellow lLupine (Lupinus luteus L.) and blue lupine (Lupinus angustifolius L.) cultivars depending on habitat conditions

• Autorzy: Ksiezak J. , Staniak M. , Bojarszczuk J.
• Języki publikacji: EN

Abstrakty

EN

The objective of the study was to determine the effects of habitat conditions on the content of nutrients in the seeds of different cultivars of blue and yellow lupine. Experiments were located in different parts of Poland. Sixteen cultivars of blue lupine and eight cultivars of yellow lupine were used in these experiments. The study showed that yellow lupine seeds had a higher protein content then blue lupine, and the contents of this component were varied between both cultivars of this species depending on examined factors, while the fiber content was little varied between species and cultivars. The average fat content in the seeds of blue lupine was slightly higher, the amount of starch was a much higher, and the water-soluble sugars slightly lower than in the seeds of yellow lupine. Significant differences between cultivars of blue lupine were found in the contents of crude fat, water-soluble carbohydrates and alkaloids, and between cultivars of yellow lupine in the amounts of crude fat. The cultivation region did not significantly affect only starch accumulation by the tested lupine cultivars as well as alkaloids in yellow lupine. The contents of the other components were varied depending on the area of cultivation.

• Wydawca: -
• Czasopismo: Polish Journal of Environmental Studies
• Rocznik: 2018
• Tom: 27
• Numer: 3
• Opis fizyczny: p.1145-1153,fig.,ref.

Twórcy

autor

Ksiezak J.

• Institute of Soil Science and Plant Cultivation-State Research Institute, Department of Forage Crop Production, 8 Czartoryskich St., 24-100 Pulawy, Poland

autor

Staniak M.

• Institute of Soil Science and Plant Cultivation-State Research Institute, Department of Forage Crop Production, 8 Czartoryskich St., 24-100 Pulawy, Poland

autor

Bojarszczuk J.

• Institute of Soil Science and Plant Cultivation-State Research Institute, Department of Forage Crop Production, 8 Czartoryskich St., 24-100 Pulawy, Poland

Bibliografia

• 1. SMALL E. Lupines – benefit and harm potentials. Biodiversity, 13, 54, 2012.
• 2. WOLKO B.J.C., CLEMENTS B., NAGANOWSKA M.N., NELSON M., YANG H. Lupines. in: Wild Crop Relatives: Genomic and Breeding Resources, (ed. C. Kole), Legume Crops and Forages, Springer, Berlin, 153, 2011.
• 3. ESPINOZA S., OVALLE C., ZAGAL E., MATUS I., DEL POZO A. Contribution of legumes to the availability of soil nitrogen and its uptake by wheat in Mediterranean environments of central Chile. Chilean J. Agric. Res., 75, 111, 2015.
• 4. GAN Y.T., HAMEL C.T., O’DONOWAN J.T., CUTFORTH H., ZENTNER R.P., CAMPBELL C.A., NIU Y.N., POPPY L. Diversifying crop rotations with pulses enhances system productivity. Sci. Rep., 5, 14, 2015.
• 5. PREISSEL S., RECKLING M., SCHLÄFKE N., ZANDER P. Magnitude and farm-economic value of grain legume pre-crop benefits in Europe: A review. Field Crops Res., 175, 64, 2015.
• 6. PRUSIŃSKI J., BOROWSKA M., KASZKOWIAK E., OLSZAK G. The after-effect of chosen Fabaceae forecrops on the yield of grain and protein in winter triticale (Triticosecale sp. Wittmack ex A. Camus 1927) fertilized with mineral nitrogen. Plant Soil Environ., 62 (12), 571, 2016.
• 7. KOHAJDOVÁ Z., KAROVIČOVÁ J., SCHMIDT Š. Lupin Composition and Possible Use in Bakery – A Review. Czech J. Food Sci. 29 (30), 203, 2011.
• 8. HANCZAKOWSKA E., ŚWIĄTKIEWICZ M. Legume seeds and rapeseed press cake as replacers of soybean meal in feed for fattening pigs. Ann. Anim. Sci., 14, 921, 2014.
• 9. KRAWCZYK M., MIKULSKI D., PRZYWITOWSKI M., JANKOWSKI J. The effect of dietary yellow lupine (L. luteus cv. Baryt) on growth performance, carcass characteristics, meat quality and selected serum parameters of turkeys. J. Anim. Feed Sci., 24, 61, 2015.
• 10. SMULIKOWSKA S., KONIECZKA P., CZERWINSKI J., MIECZKOWSKA A., JANKOWIAK J. Feeding broiler chickens with practical diets containing lupin seeds (L. angustifolius or L. luteus): effect of incorporation level and mannanase supplementation on growth performance, digesta viscosity, microbial fermentation and gut morphology. J. Anim. Feed Sci., 23, 64, 2014.
• 11. ZDUŃCZYK Z., JANKOWSKI J., MIKULSKI D., MIKULSKA M., LAMPARSKI G., SLOMINSKI B.A., JUŚKIEWICZ J. Growth performance, gastrointestinal function and meat quality in growing-finishing turkeys fed diets with different levels of yellow lupine (L. luteus) seeds. Arch. Anim. Nutr., 68, 211, 2014.
• 12. CHALUPA W., GALLIGAN D.T., FERGUSON J.D. Animal nutrition and management in the 21st century: Dairy cattle. Anim. Feed Sci. Tech., 58, 1, 1996.
• 13. KOHAJDOVÁ Z., KAROVIČOVÁ J., SCHMIDT Š. Lupin Composition and Possible Use in Bakery – A Review. Czech J. Food Sci., 29 (3), 203, 2011.
• 14. TIZAZU H., EMIRE SA. Chemical composition, physicochemical and functional properties of lupin (Lupinus albus) seeds grown in Ethiopia. African J. Food Agric. Nutr. Dev., 10 (8), 3029, 2010.
• 15. MONTEIRO M.R.P., COSTA A.B.P., CAMPOS S.F., SILVA M.R., SILVA C.O., MARTINO H.S.D., SILVESTRE M.P.C. Evaluation of the chemical composition, protein quality and digestibility of lupin (Lupinus albus and Lupinus angustifolius). O Mundo da Saúde, 38 (3), 251, 2014.
• 16. JAYASENA V., LEUNG P.P.Y., NASAR-ABBAS S.M. Effect of lupine flour substitution on the quality and sensory acceptability of instant noodles. J. Food Qual., 33, 709, 2010.
• 17. JAYASENA V., NASAR-ABBAS S.M. Effect of lupine flour incorporation on the physical characteristics of dough and biscuits. Qual. Assur. Saf. Crop, 3, 140, 2011.
• 18. VILLARINO C.B.J., JAYASENA V., COOREY R., CHAKRABARTI-BELL S., JOHNSON S.K. The effects of Australian sweet lupine (ASL) variety on physical properties of flours and breads. Food Sci. Technol., 60, 435, 2015.
• 19. DURANTI M., CONSONNI A., MAGNI C., SESSA F., SCARAFONI A. The major proteins of lupin seed: Characterisation and molecular properties for use as functional and nutraceutical ingredients. Food Sci. Tech., 19, 624, 2008.
• 20. KHAN M.K., KARNPANIT W., NASAR-ABBAS S.M., HUMA Z., JAYASENA V. Phytochemical composition and bioactivities of lupine: a review. Inter. J. Food Sci. Technol., 50 (9), 2004, 2015.
• 21. BÄHR M., FECHNER A., HASENKOPF K., MITTER-MAIER S., JAHREIS G. Chemical composition of dehulled seeds of selected lupine cultivars in comparison to pea and soya bean. LWT - Food Sci. Technol. Res., 59, 587, 2014.
• 22. NIWIŃSKA B. The nutritive value of Polish-grown lupine cultivar seeds for ruminants. J. Anim. Feed Sci., 10, 91, 2001.
• 23. JARECKI W., BOBRECKA-JAMRO D., JARECKA A. The effect of starter nitrogen application on narrow-leaved lupine (Lupinus angustifolius L.). Pol. J. Agron. 21, 28, 2015.
• 24. KOTLARZ A., PODLEŚNY J., STROBEL W. Amino-acid composition of proteins in narrow-leaf lupine in relation to variety type and sowing date. Acta Agrophys. 14 (1), 115, 2009.
• 25. SOBOTKA W., STANEK M., BOGUSZ J. Evaluation of the nutritional value of yellow (Lupinus luteus) and blue lupine (Lupinus angustifolius) cultivars as protein sources in rats. Ann. Anim. Sci., 16 (1), 197, 2016.
• 26. STANEK M., BOGUSZ J., SOBOTKA W., BIENIASZEWSKI T. Nutritive value of blue lupine seeds. Frag. Agron. 29 (4), 160, 2012 [In Polish].
• 27. LAGUNES-ESPINOZA L.C., LÓPEZ–UPTON J., GARCÍA-LÓPEZ E., JASSO-MATA J., DELGADO-ALVARADO A., GARCÍA DE LOS SANTOS G. Morphological diversity and protein concentration of Lupinus spp. in central-eastern region of the state of Puebla, Acta Bot. Mex., Pátzcuaro abr. 99, 2012.
• 28. MUZQUIZ M., GUILLAMON E., BURBANO C., PASCUAL H., CABELLOS B. Chemical composition of a new Lupines species found in Spain, Lupinus mariae-josephi H. Pascual (Fabaceae). Span. J. Agric. Res., 9 (4), 1233, 2011.
• 29. GARCIA-LOPEZ P.M., MUZQUIZ M., RUIZ-LOPEZ M.A., ZAMORA-NATERA J.F., BURBANO C., PEDROSA M.M., CUADRADO C., GARZON-DE LA MORA P. Chemical composition and fatty acid profile of several Mexican wild lupines. J. Food Compos. Anal., 14, 1, 2001.
• 30. RUIZ-LOPEZ M.A,. GARCIA-LOPEZ P.M, CASTANEDA-VAZQUEZ H., ZAMORA N.J.F., GARZON-DE LA MORA P., BANUELOS PINEDA J., BURBANO C., PEDROSA M.M., CUADRADO C., MUZQUIZ M. Chemical Composition and Antinutrient Content of three Lupines Species from Jalisco, Mexico. J. Food Compos. Anal., 13, 193, 2000.
• 31. BARRIENTOS R.L., VARGAS J.R., HUERTA C.M., NAVARRO A.F., GARCIA C.E.A., HUIZAR L.R., SEGURA N.M. Evaluation of seed protein content of a wild Mexican Lupine. Proc 11th Int. Lupine Conf. Guadalajara, Jalisco, Mexico, 176, 2006.
• 32. MAKNICKIENE Z., ASAKAVICIUTE R., BAKSIENE E., RAZUKASA. Alkaloid content variations in Lupinus luteus L. and Lupinus angustifolius L. Arch. Biol. Sci. Belgrade, 65, 107, 2013.
• 33. MARTÍNEZ-VILLALUENGA C., FRÍAS J., VIDALVAL-VERDE C. Functional lupin seeds (Lupinus albus L. and Lupinus luteus L.) after extraction of a-galactosides. Food Chem., 98, 291, 2006.
• 34. RYBIŃSKI W., STARZYCKI M., RUSINEK R., BOCIANOWSKI J., SZOT B. Variation of legume seed’s chemical composition and resistance to mechanical damage. Biul. IHAR, 268, 193, 2013 [in Polish].
• 35. SAWICKA E.J. Induced mutations in South American lupine (Lupinus mutabilis Sweet.). Prace Ogrodu Botanicznego PAN, Monogr. Rozpr., 3, 1, 1993 [in Polish].
• 36. BRÜCHER H. Lupinus mutabilis Sweet. In: Useful Plants of Neotropical Origin and Their Wild Relatives, Springer-Verlag, 80, 1989.
• 37. NIWIŃSKA B. The composition and nutritional value of protein raw and prepared seeds of different cultivars of lupine. Rocz. Nauk. Zootech., 23 (3), 229, 1996 [In Polish].
• 38. GUEMES-VERA N., MARTINEZ-HERRERA J., HERNANDEZ-CHAVEZ J. F., YANEZ-FERNANDEZ J., TOTOSAUS A. Comparison of Chemical Composition and Protein Digestibility, Carotenoids, Tanins and Alkaloids Content of Wild Lupines Varieties Flour. Pak. J. Nutr., 11 (8), 676, 2012.
• 39. MASON L., ROMERO N. Fatty acid composition in the extracted from different lupine seeds varieties. Abstracts 6th Int. Lupine. Conf., Temuco-Pucon, Chile, 13, 1990.
• 40. UZUN B., ARSLAN C., KARHAN M., TOKER C. Fat and fatty acids of white lupin (Lupinus albus L.) in comparison to sesame (Sesamum indicum L.). Food Chem., 102, 45, 2007.

Identyfikatory

DOI

10.15244/pjoes/76677