Abstract
Pea processing industry generates pods as waste accounting for 30–40% of by-product mass. The present study focuses on the utilization of pea pod powder (PPP) as source of fibre in buckwheat enriched bread (20%). The composite dough was evaluated for textural attributes, stickiness and extensibility. Addition of PPP caused a decrease in stickiness, work of adhesion, extensibility and resistance to extension. The inherent blend of soluble and insoluble fibres in PPP was found to exert a synergistic and counterbalancing act in improving crumb texture. PPP decreased the specific volume of breads, but enhanced the crumb moisture content. Followed by BW bread, 15% PPP bread was rated best in terms of appearance and overall acceptability. Overall, inclusion of PPP in the bread making process led to desirable modification of textural properties during storage of bread. These breads were found have better shelf life besides high fibre (12.1%) and functional compounds.
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References
AACC (2000) American Association of Cereal Chemists (AACC). Approved method of the AACC. St. Paul, MN: The Association
Abdel-Kader ZM (2000) Enrichment of Egyptian ‘Balady’ bread. Part 1. Baking studies, physical and sensory evaluation of enrichment with decorticated cracked broadbeans flour (Viciafaba L.). Food Nahrung 44(6):418–421
Abdelghafor RF, Mustafa AI, Ibrahim AMH, Krishnan PG (2011) Quality of bread from composite flour of sorghum and hard white winter wheat. Adv J Food Sci Technol 3(1):9–15
Ahluwalia P, Kaur A, Dhillon GK (2012) Effect of different drying methods on chemical and functional properties of marigold petals. Int J Food Nutr Sci 3(4):53–59
Ahmed A, Khalid N, Ahmad A, Abbasi NA, Latif MSZ, Randhawa MA (2014) Phytochemicals and biofunctional properties of buckwheat: a review. J Agric Sci 152(3):349–369
Alemawor F, Dzogbefia VP, Oddoye EO, Oldham JH (2009) Enzyme cocktail for enhancing poultry utilisation of cocoa pod husk. Sci Res Essays 4(6):555–559
Anderson JW (1987) Dietary fiber, lipids and atherosclerosis. Am J Cardiol 60(12):G17–G22
Anil M (2007) Using of hazelnut testa as a source of dietary fiber in breadmaking. J Food Eng 80(1):61–67
Armero E, Collar C (1998) Crumb firming kinetics of wheat breads with anti-staling additives. J Cereal Sci 28(2):165–174
Barber TM, Kabisch S, Pfeiffer, Weickert MO (2020) The health benefits of dietary fibre. Nutrients 12(10):3209
Belghith, Fendri L, Chaari F, Kallel F, ZouariEllouzi S, Ghorbel R, Besbes S, GhribiAydi D (2016) Pea and broad bean pods as a natural source of dietary fiber: the impact on texture and sensory properties of cake. J Food Sci 81(10):C2360–C2366
Bonafaccia G, Marocchini M, Kreft I (2003) Composition and technological properties of the flour and bran from common and tartary buckwheat. Food Chem 80(1):9–15
Brennan CS, Cleary LJ (2007) Utilisation Glucagel® in the β-glucan enrichment of breads: a physicochemical and nutritional evaluation. Food Res Int 40(2):291–296
Burešová I, Tokár M, Mareček J, Hřivna L, Faměra O, Šottníková V (2017) The comparison of the effect of added amaranth, buckwheat, chickpea, corn, millet and quinoa flour on rice dough rheological characteristics, textural and sensory quality of bread. J Cereal Sci 75:158–164
Chen WZ, Hoseney RC (1995) Development of an objective method for dough stickiness. LWT - Food Sci Technol 28(5):467–473
Chen H, Rubenthaler GL, Schanus EG (1988) Effect of apple fiber and cellulose on the physical properties of wheat flour. J Food Sci 53(1):304–305
Collar C, Angioloni A (2014) Pseudocereals and teff in complex breadmaking matrices: impact on lipid dynamics. J Cereal Sci 59(2):145–154
Collar C, Santos E, Rosell CM (2007) Assessment of the rheological profile of fibre-enriched bread doughs by response surface methodology. J Food Eng 78(3):820–826
Curti E, Carini E, Diantom A, Vittadini E (2016) The use of potato fibre to improve bread physico-chemical properties during storage. Food Chem 195:64–70
Delgado-Pelayo R, Gallardo-Guerrero L, Hornero-Méndez D (2014) Chlorophyll and carotenoid pigments in the peel and flesh of commercial apple fruit varieties. Food Res Int 65:272–281
Desa U (2016) Transforming our world: The 2030 agenda for sustainable development. J Public Health Policy 37:13–31
Fendri LB, Chaari F, Maaloul M, Kallel F, Abdelkafi L, Chaabouni SE, Ghribi-Aydi D (2016) Wheat bread enrichment by pea and broad bean pods fibers: effect on dough rheology and bread quality. LWT 73:584–591
Filipovic N, Djuric M, Gyura J (2007) The effect of the type and quantity of sugar-beet fibers on bread characteristics. J Food Eng 78(3):1047–1053
Gelroth J, Ranhotra GS (2001) Food uses of fiber. Food science and technology. Marcel Dekker, New York, pp 435–452
Gómez M, Ronda F, Blanco CA, Caballero PA, Apesteguía A (2003) Effect of dietary fibre on dough rheology and bread quality. Eur Food Res Technol 216(1):51–56
Gonzales-Barron U, Dijkshoorn R, Maloncy M, Finimundy T, Carocho M, Ferreira ICFR, Barros L, Cadavez V (2020) Nutritional quality and staling of wheat bread partially replaced with Peruvian mesquite (Prosopis pallida) flour. Food Res Int 137:109621
Hanan E, Rudra SG, Sagar VR, Sharma V (2020) Utilization of pea pod powder for formulation of instant pea soup powder. J Food Process Preserv 44:e14888
He J, Klag MJ, Whelton PK, Mo JP, Chen JY, Qian MC, Mo PS, He GQ (1995) Oats and buckwheat intakes and cardiovascular disease risk factors in an ethnic minority of China. Am J Clin Nutr 61(2):366–372
Kethireddipalli P, Hung YC, Phillips RD, McWatters KH (2002) Evaluating the role of cell wall material and soluble protein in the functionality of cowpea (Vigna unguiculata) pastes. J Food Sci 67(1):53–59
Kieffer R, Wieser H, Henderson MH, Graveland A (1998) Correlations of the breadmaking performance of wheat flour with rheological measurements on a micro-scale. J Cereal Sci 27(1):53–60
Lin LY, Liu HM, Yu YW, Lin SD, Mau JL (2009) Quality and antioxidant property of buckwheat enhanced wheat bread. Food Chem 112(4):987–991
Lin LY, Wang HE, Lin SD, Liu HM, Mau JL (2013) Changes in buckwheat bread during storage. J Food Process Preserv 37(4):285–290
Lindström J, Peltonen M, Eriksson JG, Louheranta A, Fogelholm M, Uusitupa M, Tuomilehto J (2006) High-fibre, low-fat diet predicts long-term weight loss and decreased type 2 diabetes risk: the Finnish Diabetes Prevention Study. Diabetologia 49(5):912–920
Liu W, Brennan M, Serventi L, Brennan C (2017) Buckwheat flour inclusion in Chinese steamed bread: potential reduction in glycemic response and effects on dough quality. Eur Food Res Technol 243(5):727–734
López G, Ros G, Rincón F, Periago MJ, Martinez MC, Ortuno J (1996) Relationship between physical and hydration properties of soluble and insoluble fiber of artichoke. J Agric Food Chem 44(9):2773–2778
Manolopoulou E, Varzakas T, Petsalaki A (2016) Chlorophyll determination in green pepper using two different extraction methods. Curr Res Nutr Food Sci J4(Special Issue Carotenoids March 2016):52–60
Mariotti M, Pagani MA, Lucisano M (2013) The role of buckwheat and HPMC on the breadmaking properties of some commercial gluten-free bread mixtures. Food Hydrocoll 30(1):393–400
Martínez MM, Marcos P, Gómez M (2013) Texture development in gluten-free breads: effect of different enzymes and extruded flour. J Texture Stud 44(6):480–489
Mateos-Aparicio I, Redondo-Cuenca A, Villanueva-Suárez MJ, Zapata-Revilla MA, Tenorio-Sanz MD (2010) Pea pod, broad bean pod and okara, potential sources of functional compounds. LWT Food Sci Technol 43(9):1467–1470
Murakami T, Kohno K, Matsuda H, Yoshikawa M (2001) Medicinal Foodstuffs. XXII. 1) Structures of Oleanane-Type Triterpene Oligoglycosides, Pisumsaponins I and II, and Kaurane-Type DiterpeneOligoglycosides, Pisumosides A and B, from Green Peas, the Immature Seeds of Pisumsativum L. Chem Pharm Bull 49(1):73–77
Patil S, Rudra SG, Verghese E, Kaur C (2016) Effect of extruded fingermillet (Eleusine coracan L.) on textural properties and sensory acceptability of composite bread. Food Biosci 14:62–69
Rodríguez-Ambriz SL, Islas-Hernández JJ, Agama-Acevedo E, Tovar J, Bello-Pérez LA (2008) Characterization of a fibre-rich powder prepared by liquefaction of unripe banana flour. Food Chem 107(4):1515–1521
Rubel IA, Pérez EE, Manrique GD, Genovese DB (2015) Fibre enrichment of wheat bread with Jerusalem artichoke inulin: effect on dough rheology and bread quality. Food Struct 3:21–29
Rudra SG, Hanan E, Sagar VR, Bhardwaj R, Basu S, Sharma V (2020) Manufacturing of mayonnaise with pea pod powder as a functional ingredient. Food Meas Charact. https://doi.org/10.1007/s11694-020-00487-0
Sabanis D, Lebesi D, Tzia C (2009) Effect of dietary fibre enrichment on selected properties of gluten-free bread. LWT Food Sci Technol 42(8):1380–1389
Sangnark A, Noomhorm A (2004) Chemical, physical and baking properties of dietary fiber prepared from rice straw. Food Res Int 37(1):66–74
Slavin JL (2008) Position of the American Dietetic Association: health implications of dietary fiber. J Am Diet Assoc 108(10):1716–1731
Sudha ML, Vetrimani R, Leelavathi K (2007) Influence of fibre from different cereals on the rheological characteristics of wheat flour dough and on biscuit quality. Food Chem 100(4):1365–1370
Torbica A, Hadnađev M, Dapčević T (2010) Rheological, textural and sensory properties of gluten-free bread formulations based on rice and buckwheat flour. Food Hydrocoll 24(6–7):626–632
Verheyen C, Albrecht A, Elgeti D, Jekle M, Becker T (2015) Impact of gas formation kinetics on dough development and bread quality. Food Res Int 76:860–866
Wang J, Rosell CM, de Barber CB (2002) Effect of the addition of different fibres on wheat dough performance and bread quality. Food Chem 79(2):221–226
Wichchukit S, O’Mahony M (2015) The 9-point hedonic scale and hedonic ranking in food science: some reappraisals and alternatives. J Sci Food Agric 95(11):2167–2178
Williams S (1984) Official methods of analysis (No. 630.24 A8 1984). Association of Official Analytical Chemists
Wronkowska M, Haros M, Soral-Śmietana M (2013) Effect of starch substitution by buckwheat flour on gluten-free bread quality. Food Bioprocess Technol 6(7):1820–1827
Yilmaz MT, Yildiz Ö, Yurt B, Toker OS, Karaman S, Baştürk A (2015) A mixture design study to determine interaction effects of wheat, buckwheat, and rice flours in an aqueous model system. LWT Food Sci Technol 61(2):583–589
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Hanan, E., Rudra, S.G., Sharma, V. et al. Pea pod powder to enhance the storage quality of buckwheat bread. Vegetos 34, 790–799 (2021). https://doi.org/10.1007/s42535-021-00259-1
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DOI: https://doi.org/10.1007/s42535-021-00259-1