Optimization of Cowpea (<i>Vigna unguiculata</i> L.) Flour-enriched Bread Formulation Using Response Surface Methodology (RSM)

Ngoné Fall Beye; Seynabou Cisse; Alioune Sow; Francisca Nadège Sètondji Vodounnou; Semou Diouf; Nicolas Cyrille Ayessou; Codou Mar Diop

doi:10.26855/ijfsa.2025.12.013

Home Journals Books For Authors and Reviewers Online Submission News About Us Contact Us

International Journal of Food Science and Agriculture

ISSN Online: 2578-3475	ISSN Print: 2578-3467	CODEN: IJFSJ₃
Frequency: quarterly	Email: ijfsa@hillpublisher.com
Total View: 2928460	Downloads: 473141	Citations: 914 (From Dimensions)

Google-based citation data

citations
1844
h-index
18
i10-index
52

Journal Menu

Volumes & Issues

All Volumes

Volume 9 (2025)

Volume 8 (2024)

Volume 7 (2023)

Volume 6 (2022)

Volume 5 (2021)

Volume 4 (2020)

Volume 3 (2019)

Volume 2 (2018)

Volume 1 (2017)

Download PDF

How to cite this paper

326

TOTAL VIEWS

Pitahaya and Huanzontle: Nutritious Treasures
Synergistic Effect of Seaweed Extract, Humic, and Fulvic Substances on Growth, Essential Oil Yield, and Quality of Patchouli in a Semi-arid Tropical Region
Extraction of Oil from Safou Pulp (Dacryodes edulis (G. Don) H. J. Lam) by Hot Pressure: Yield and AG Composition
Genotypic Variation in Phosphorus Use Efficiency, Yield, and Yield Associate Traits in Faba Bean (Vicia faba L.) at Western Ethiopia
Analysis of Egg Price Trends and Forecasting in Yobe State, Nigeria
Assessment of Agricultural Water Management Practices Under Rain-fed and Farmer-led Irrigated Systems in South Africa

ArticleOpen Access http://dx.doi.org/10.26855/ijfsa.2025.12.013

Optimization of Cowpea (Vigna unguiculata L.) Flour-enriched Bread Formulation Using Response Surface Methodology (RSM)

Ngoné Fall Beye^1,2,3,4,*, Seynabou Cisse¹, Alioune Sow^2,3,4, Francisca Nadège Sètondji Vodounnou¹, Semou Diouf⁵, Nicolas Cyrille Ayessou^3,4, Codou Mar Diop^3,4

¹Department of Food Technologies, UFR of Agronomic Sciences, Aquaculture and Food Technologies, Gaston Berger University, Saint-Louis BP 234, Senegal.

²Laboratory for Biological Sciences, Agronomy and Complex Systems Modeling (LaBAM)/Gaston Berger University, Saint-Louis BP 234, Senegal.

³Center for Studies on Food Safety and Functional Molecules (CESAM-RESCIF), Polytechnic School (ESP-UCAD), Dakar BP 5085, Senegal.

⁴Water, Energy, Environment and Industrial Processes Laboratory (L3EPI), Polytechnic School (ESP), Dakar BP 5085, Senegal.

⁵Olam Agri, Dakar BP 25900, Senegal.

*Corresponding author: Ngoné Fall Beye

Published: January 20,2026

Abstract

Cowpea is an important source of plant-based proteins and provides an essential amino acid profile that complements wheat, which is deficient in lysine and threonine. This study aimed to determine the optimal incorporation level of cowpea flour (Vigna unguiculata L.) in the formulation of bread comparable to conventional wheat bread. To achieve this, the amounts of yeast, improver, the ice/water ratio, and the cowpea flour proportion were varied using the Response Surface Methodology (RSM). The Box-Behnken experimental design was employed to analyze interactions among the factors, and multiple regression models were subsequently developed. The results indicated that incorporating 5% cowpea flour constituted the optimal level for nutritional enrichment. The optimal processing conditions were identified as an ice/water ratio of 0.45%, 14.66 g of yeast, and 7.07 g of improver to obtain a bread with characteristics comparable to the control (100% wheat flour). Sensory evaluation further revealed that the optimized bread exhibited good overall acceptability. These findings highlight the relevance of the Box-Behnken design in identifying factor interactions and optimizing baking conditions. Furthermore, the moderate incorporation of cowpea flour appears to be a promising strategy for improving the nutritional value of bread without significantly compromising its technological and sensory quality. These findings confirm the relevance of the Box-Behnken design for optimizing bread-making conditions and suggest that the moderate incorporation of cowpea flour represents a promising approach to enhance the nutritional value of bread without compromising its technological or sensory quality.

Keywords

Vigna unguiculata L.; Bread fortification; Response Surface Methodology; Box-Behnken design; Sensory evaluation

References

[1] Bossou TK. Caractéristiques de production et de sécurité sanitaire du pain - une revue. Eur Sci J. 2022;18(8):129-157. doi:10.19044/esj.2022.v18n8p129

[2] Sahel EG. Etat des lieux de la filière céréales locales au Sénégal. Gret, Enda Graf, SNC Lavalin, Cintech, MAE, CDE, ACDI, MIA; 2006.

[3] de Ubeda AA, Gourdon J. Conflit Russie - Ukraine : quelles conséquences sur les économies africaines? FERDI Note Brève. 2022;B233.

[4] Abay K, Abdelfattah L, Breisinger C, Glauber J, Laborde D. La crise russo-ukrainienne constitue une grave menace pour la sécurité alimentaire en Égypte. Food Security Portal. 2022.

[5] Mbengue M, Molczadzki D, Lullien-Pellerin V. La transformation du niébé au Sénégal : analyse des acteurs, opportunités et verrous pour la production d’aliments. Innov Agron. 2025;99:235-247. doi:10.17180/ciag-2025-vol99-art19

[6] Potier de Courcy G, Frelut ML, Fricker J, Martin A, Dupin H. Besoins nutritionnels et apports conseillés pour la satisfaction de ces besoins. Encycl Méd Chir. 2023;10-308-A-10.

[7] Dhingra S, Jood S. Physico-chemical and nutritional properties of cereal-pulse blends for bread making. Nutr Health. 2002;16(3):183-194. doi:10.1177/026010600201600304

[8] Elharadallou S, Khalid I, Gobouri A, Abdel-hafez S. Amino acid composition of cowpea (Vigna ungiculata L. Walp) flour and its protein isolates. Food Nutr Sci. 2015;6:790-797.
doi:10.4236/fns.2015.69082

[9] Chivenge P, Mabhaudhi T, Modi AT, Mafongoya P. The potential role of neglected and underutilised crop species as future crops under water scarce conditions in Sub-Saharan Africa. Int J Environ Res Public Health. 2015;12(6):5685-5711.

doi:10.3390/ijerph120605685

[10] Agazounon C. Analyse des techniques de transformation de niébé en ''atta'' au Bénin. 2025.

[11] Naiker TS, Gerrano A, Mellem J. Physicochemical properties of flour produced from different cowpea (Vigna unguiculata) cultivars of Southern African origin. J Food Sci Technol. 2019;56(3):1541-1550. doi:10.1007/s13197-019-03649-1

[12] Timitey A, Adinsi L, Madode YEE, Cissé F, Hounhouigan D. Pratiques de production et caracteristiques physiques et chimiques du shô basi, un couscous de niebe (Vigna unguiculata) produit au Mali. Afr J Food Agric Nutr Dev. 2021;21:17509-17528. doi:10.18697/ajfand.97.19475

[13] Monnet AF, Jeuffroy MH, Blumenthal D, Michon C. Associer blé et légumineuses, du champ aux gâteaux moelleux : variabilité matières premières / modification des procédés / ingénierie reverse. 2019.

[14] Hallén E, İbanoğlu Ş, Ainsworth P. Effect of fermented/germinated cowpea flour addition on the rheological and baking properties of wheat flour. J Food Eng. 2004;63(2):177-184.
doi:10.1016/S0260-8774(03)00298-X

[15] Ali RS, Al-Obaidi LFH, Alssirag MA. Physical and nutritional properties of bread from wheat flour fortification with cowpea (Vigna unguiculata) flour. 2019.

[16] Zaddem M. Application de la méthode des surfaces de réponse pour l'optimisation du blanchiment du son de blé par du peroxyde d'hydrogène et son incorporation dans une farine de pain. 2014.

[17] Parenti O, Guerrini L, Zanoni B. Techniques and technologies for the breadmaking process with unrefined wheat flours. Trends Food Sci Technol. 2020;99:152-166.
doi:10.1016/j.tifs.2020.02.034

[18] Amjid M, Shehzad A, Hussain S, Shabbir MA, Khan MR, Shoaib M. A comprehensive review on wheat flour dough rheology. 2013;23:105-123.

[19] Millar KA, Barry-Ryan C, Burke R, McCarthy S, Gallagher E. Dough properties and baking characteristics of white bread, as affected by addition of raw, germinated and toasted pea flour. Innov Food Sci Emerg Technol. 2019;56:102189.

doi:10.1016/j.ifset.2019.102189

[20] Cappelli A, Guerrini L, Cini E, Parenti A. Improving whole wheat dough tenacity and extensibility: A new kneading process. J Cereal Sci. 2019;90:102852.
doi:10.1016/j.jcs.2019.102852

[21] Chaurand M. Influence du type de mouture (cylindre vs meule) sur les teneurs en minéraux des différentes fractions du grain de blé en cultures conventionnelle et biologique. Ind Céréal. 2005;142:3-11.

[22] Sreerama YN, Sashikala VB, Pratape VM, Singh V. Nutrients and antinutrients in cowpea and horse gram flours in comparison to chickpea flour: Evaluation of their flour functionality. Food Chem. 2012;131(2):462-468.

doi:10.1016/j.foodchem.2011.09.008

[23] Rémésy C, Leenhardt F, Fardet A. Donner un nouvel avenir au pain dans le cadre d'une alimentation durable et préventive. Cah Nutr Diététique. 2014. doi:10.1016/j.cnd.2014.07.005

[24] Mohamed B, Ghalem BR. Contribution à l'étude de l'influence d'intégration de la farine de pois chiche en panification. 2006.

[25] Rizzello CG, Calasso M, Campanella D, De Angelis M, Gobbetti M. Use of sourdough fermentation and mixture of wheat, chickpea, lentil and bean flours for enhancing the nutritional, texture and sensory characteristics of white bread. Int J Food Microbiol. 2014;180:78-87. doi:10.1016/j.ijfoodmicro.2014.04.005

[26] Rostamian M, Milani JM, Maleki G. Physical properties of gluten-free bread made of corn and chickpea flour. Int J Food Eng. 2014;10(3):467-472.
doi:10.1515/ijfe-2013-0004

[27] Hung PV, Maeda T, Morita N. Dough and bread qualities of flours with whole waxy wheat flour substitution. Food Res Int. 2007;40(2):273-279. doi:10.1016/j.foodres.2006.10.007

[28] Wang J, Rosell CM, Benedito de Barber C. Effect of the addition of different fibres on wheat dough performance and bread quality. Food Chem. 2002;79(2):221-226.
doi:10.1016/S0308-8146(02)00135-8

[29] Anil M. Using of hazelnut testa as a source of dietary fiber in breadmaking. J Food Eng. 2007;80(1):61-67.

doi:10.1016/j.jfoodeng.2006.05.003

[30] Njintang N, Mbofung C, Waldron K. In vitro protein digestibility and physicochemical properties of dry red bean (Phaseolus vulgaris) flour: Effect of processing and incorporation of soybean and cowpea flour. J Agric Food Chem. 2001;49:2465-2471.

doi:10.1021/jf0011992

[31] Mohammed I, Ahmed AR, Senge B. Effects of chickpea flour on wheat pasting properties and bread making quality. J Food Sci Technol. 2014;51(9):1902-1910. doi:10.1007/s13197-012-0733-9

[32] Wani IA, Sogi DS, Sharma P, Gill BS. Physicochemical and pasting properties of unleavened wheat flat bread (Chapatti) as affected by addition of pulse flour. Cogent Food Agric. 2016;2(1):1124486. doi:10.1080/23311932.2015.1124486

[33] Sulieman AME, Sinada EA, Ali AO. Quality characteristics of wheat bread supplemented with chickpea (Cicer arietinum) flour. Int J Food Sci Nutr Eng. 2013;3(5):85-90.

[34] Sharma S, Bajwa U, Nagi H. Rheological and baking properties of cowpea and wheat flour blends. J Sci Food Agric. 1999;79(5):657-662.
doi:10.1002/(SICI)1097-0010(199904)79:5<657::AID-JSFA228>3.0.CO;2-3

[35] Amjid M, Shehzad A, Hussain S, Shabbir MA, Khan MR, Shoaib M. A comprehensive review on wheat flour dough rheology. Pak. J. Food Sci. 2013;23:105-123.

[36] Zhang Y, Hu R, Tilley M, Siliveru K, Li Y. Effect of pulse type and substitution level on dough rheology and bread quality of whole wheat-based composite flours. Processes. 2021;9(9):1687. doi:10.3390/pr9091687

[37] Saraswath R, Hameed RS. Farinograph as a rheological tool to predict the quality characteristics for blend of wheat with pulse flour. Int J Adv Agric Sci Technol. 2018.

[38] Meerts M, Ramirez Cervera A, Struyf N, Cardinaels R, Courtin CM, Moldenaers P. The effects of yeast metabolites on the rheological behaviour of the dough matrix in fermented wheat flour dough. J Cereal Sci. 2018;82:183-189.

doi:10.1016/j.jcs.2018.06.006

[39] Filipović VS. The effect of yeast extract addition on bread quality parameters. J Serbian Chem Soc. 2020;85(6):737-750. doi:10.2298/JSC191024137F

[40] Pyler EJ. Baking Science and Technology. Vols I & II. Sosland Pub Co; 1988.

[41] Hoque M, Biswas R, Alam M, Sarkar A, Haque MI, Hasan MM. Pulse fortified whole wheat bread: A review on dough rheology, bread quality, and sensory properties. F1000Research. 2022. doi:10.12688/f1000research.113421.1

[42] Krause S. A product engineering approach to assess the reactivity of legume-based ingredients and its impact on the quality of processed foods such as cake [Theses]. Université Paris-Saclay; 2021.

[43] Affrifah NS, Phillips RD, Saalia FK. Cowpeas: Nutritional profile, processing methods and products a review. Legume Sci. 2022;4(3):e131. doi:10.1002/leg3.131

[44] Sharma S, Bajwa U, Nagi H. Rheological and baking properties of cowpea and wheat flour blends. J Sci Food Agric. 1999;79(5):657-662.
doi:10.1002/(SICI)1097-0010(199904)79:5<657::AID-JSFA228>3.0.CO;2-3

How to cite this paper

Optimization of Cowpea (Vigna unguiculata L.) Flour-enriched Bread Formulation Using Response Surface Methodology (RSM)

How to cite this paper: Ngoné Fall Beye, Seynabou Cisse, Alioune Sow, Francisca Nadège Sètondji Vodounnou, Semou Diouf, Nicolas Cyrille Ayessou, Codou Mar Diop. (2025) Optimization of Cowpea (Vigna unguiculata L.) Flour-enriched Bread Formulation Using Response Surface Methodology (RSM). International Journal of Food Science and Agriculture, 9(4), 368-380.

DOI: http://dx.doi.org/10.26855/ijfsa.2025.12.013

International Journal of Food Science and Agriculture

Journal Menu

Volumes & Issues

Current Issue

All Volumes

More Articles

Optimization of Cowpea (Vigna unguiculata L.) Flour-enriched Bread Formulation Using Response Surface Methodology (RSM)

Abstract

Keywords

References

How to cite this paper