Dry Beans and Pulses Production, Processing, and Nutrition. Группа авторов
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СКАЧАТЬ and extruded formats appear to be an open opportunity.

      The food industry, in cooperation with public research programs (universities and research centers) and other professional organizations, should focus efforts to incorporate dry beans and other pulses into innovative products that are economically viable, readily accessible to consumers, convenient to use, and of high culinary quality. The clearly recognized healthy attributes of beans deliverable in both subsistent and developed diets should be exploited for long‐term improvement in positive health outcomes. The factors limiting the consumption of dry beans in industrial economics may, in part, be attributable to an inadequate level of innovation for developing value‐added products adapted to modern consumer needs for convenience while specifically linked to high‐quality eating experiences. Opportunities to improve the use of dry beans and pulses require integration and expansion of public and private sector interventions that are socially and culturally appropriate.

      1 Angioi, S. A., Rau, D., Attene, G., Nanni, L., Bellucci, E., Logozzo, G., Negri, V., Zeuli, P.S. & Papa, R. (2010). Beans in Europe: origin and structure of the European landraces of Phaseolus vulgaris L. Theoretical and Applied Genetics 121: 829–843.

      2 Anon. (2020). Bean consumption per capita. Available at https://www.helgilibrary.com/indicators/bean‐consumption‐per‐capita/ (accessed December 30, 2020).

      3 Bliss, F.A. (1993). Breeding common bean for improved nitrogen fixation. Plant and Soil 152: 71–79.

      4 Boateng, J., Verghese, M., Walker, L.T. & Ogutu, S. (2008). Effect of processing on antioxidant content in selected dry beans (Phaseolus spp. L.). LWT − Food Science & Technology 41: 1541–1547.

      5 Borget, M. (1992). Food Legumes. In: Tropical Agriculture (ed. R. Coste), pp. 16–96. London: CTA Macmillian Press.

      6 Borbi, M.A., Dolan, K.D., Siddiq, M., Hooper, S. & Sami, A. (2020). Development and quality evaluation of banana‐rice‐bean porridge as weaning food for older infants and young children. Legume Science 2: p.e41.

      7 Borchgrevink, C. (2012). Culinary Perspective of Dry Beans and Pulses. In: Dry Beans and Pulses Production, Processing and Nutrition, first edition (eds. M. Siddiq, M.A. Uebersax), pp. 313−334. Ames, IA: John Wiley & Sons.

      8 Bouchenak, M. & Lamri‐Senhadji, M. (2013). Nutritional quality of legumes, and their role in cardiometabolic risk prevention: a review. Journal of Medicinal Food 16: 185–198.

      9 Budhwar, S. & Chakraborty, M. (2020). Novel dietary and nutraceutical supplements from legumes. Sustainable Agriculture Reviews 45: 53–70.

      10 Buttriss, J.L. & Stokes, C.S. (2008). Dietary fiber and health: an overview. Nutrition Bulletin 33: 186–200.

      11 Chugh, C., Gosavi, G. & Kapoor, S. (2017). Biopharmaceutical aspects of legumes: A Review. Trends in Biosciences 10: 1970–1973.

      12 CGIAR (Consultative Group on International Agriculture Research). (2011). The CGIAR at 40 and Beyond: Impact that matters for the poor and planet. Washington, DC: CGIAR Fund Office.

      13 Clemente, A. & Olias, R. (2017). Beneficial effects of legumes in gut health. Current Opinion in Food Science 14: 32–36.

      14 Dilis, V, Trichopoulou, A. (2009). Nutritional and health properties of pulses. Mediterranean Journal of Nutrition and Metabolism 1: 149–157.

      15 Donangelo, C.M., Trugo, L.C., Trugo, M.F. & Eggum, B.O. (1995). Effect of germination of legume seeds on chemical composition and on protein and energy utilization in rats. Food Chemistry 53: 23–27.

      16 FAO (Food and Agriculture Organization). (2020). Crop Production and Trade Data. Available at http://www.fao.org/faostat/en/#data (accessed December 30, 2020).

      17 Fernando, S. (2021). Production of protein‐rich pulse ingredients through dry fractionation: A review. LWT 141: p.110961.

      18 FTF (Feed the Future). (2021). Innovation Lab for Legume Systems Research. Available at https://www.canr.msu.edu/legumelab/index (accessed January 20, 2021).

      19 GAP.org (globalagriculturalproductivity.org) (2016). GAP Report – 2016: Sustainability in an Uncertain Season. Available at https://globalagriculturalproductivity.org/wp‐content/uploads/2018/10/2016_GAP_Report.pdf (accessed January 26, 2021).

      20 GAP.org (globalagriculturalproductivity.org) (2021). Pulses: The heartbeat of nutritious, sustainable agriculture. Available at https://globalagriculturalproductivity.org/pulses‐the‐heartbeat‐of‐nutritious‐sustainable‐agriculture/ (accessed January 26, 2021).

      21 Geil, P.B. & Anderson, J.W. (1994). Nutritional and health implications of dry beans: a review. Journal of the American College of Nutrition 13: 549–558.

      22 Gepts, P. (2001). Plaseolus vulgaris (Beans). In: Encyclopedia of Genetics (eds. S. Brenner & J.H. Miller), pp. 1444–1445. Cambridge, Academic Press.

      23 Gogoi, N., Baruah, K.K. & Meena, R.S. (2018). Grain legumes: impact on soil health and agroecosystem. In: Legumes for Soil Health and Sustainable Management (eds. R.S. Meena, A. Das, G.S. Yadav, R. Lal), pp. 511–539). Singapore: Springer.

      24 Grigolo, S. & Fioreze, A.D.C. (2018). Potential of hybridization among cultivars of common beans of different gene groups. Colloquium Agrariae 14: 67–78.

      25 Hall C. (2021). Pulses: milling and baking applications. In: Breeding for Enhanced Nutrition and Bioactive Compounds in Food Legumes (eds. D.S. Gupta, S. Gupta, J. Kumar), pp. 221–228. Cham, Switzerland: Springer.

      26 Hangen, L. & Bennink, M.R. (2002). Consumption of black beans and navy beans (Phaseolus vulgaris L.) reduced azoxymethane‐induced colon cancer in rats. Nutrition & Cancer 44: 60–65.

      27 Hardenburg, E.V. (1927). Bean Culture. New York, NY: The Macmillan Company. 238p.

      28 Hayat, I., Ahmad, A., Masud, T., Ahmed, A. & Bashir, S. (2014). Nutritional and health perspectives of beans (Phaseolus vulgaris L.): an overview. Critical Reviews in Food Science and Nutrition 54: 580–592.

      29 Hidalgo, R. (1988). The Phaseolus world collection. In: Genetic Resources of Phaseolus Beans (ed. P. Gepts), pp. 67–90. Dordrecht, the Netherlands: Kluver.

      30 Hosfield, G.L. & Uebersax, M.A. (1980). Variability in physico‐chemical properties and nutritional components of tropical and domestic dry bean germplasm. Journal of the American Society of Horticultural Scientists 105: 246–252.

      31 HSPH (Harvard School of Public Health) (2020). Legumes and Pulses. Available at https://www.hsph.harvard.edu/nutritionsource/legumes‐pulses/ (accessed December 30, 2020).

      32 IYP (International Year of Pulses). (2016). Nutritious Seeds for Sustainable Future. Available at http://www.fao.org/pulses‐2016/en/ (accessed January 01, 2020).

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