Composition and Sensory Profile of Caatinga Native Bee Pollen Based Biscuit

Authors

DOI:

https://doi.org/10.21664/2238-8869.2024v13i2.p228-245

Keywords:

beekeeping, development of new products, sensory profile, food security, caatinga

Abstract

Bee pollen has been gaining market share as a nutritional supplement, and, as it comes from beekeeping, it promotes sustainable practices from both social and environmental standpoints, and can be an alternative to overcome food insecurity. Its utilization promotes the preservation of native vegetation, mitigating the degradation stemming from traditional food production practices. It is composed of proteins, carbohydrates, lipids, phenolic compounds, bioelements as well as vitamins, presenting an excellent nutritional profile. In order to increase its daily intake, the study of new enriched food products becomes relevant. Therefore, this research aimed to develop and characterize a bee pollen cookie, collected in the Caatinga area. After collecting and proximate analysis of the pollen, four cookie formulations were prepared with different concentrations of bee pollen (0%, 4%, 8% and 12%), which were subsequently evaluated through physicochemical, microbiological and sensorial analyses. Bee pollen had a high protein content, proving its potential as an input in food manufacturing. The cookies, with addition of polen, had an increase in protein and ash content and a decrease in carbohydrate and crude fiber content. In terms of sensory evaluation, all parameters were statistically equal, except for purchase intention. Acceptability was evident in all formulas. Given the results achieved, bee pollen is an ingredient that can improve the nutritional properties of cookies, demonstrating competence for its integration into the market and affirming its role as sustainable food aligned with the principles and objectives of the 2030 Agenda.

References

Almeida-Muradian LB, Pamplona LC, Coimbra S, Barth OM 2005. Chemical composition and botanical evaluation of dried bee pollen pellets. Journal of Food Composition and Analysis 18: 105-111.

American Public Health Association (APHA) 2015. Compendium of Methods for the Microbiological Examination of Foods. Vol. XV, Yvonne Salfinger, Mary Lou Tortorello, Washington DC, 995 pp.

Ares AM, Valverde S, Bernal JL, Nozal MJ, Bernal J 2018. Extraction and determination of bioactive compounds from bee pollen. Journal of Pharmaceutical and Biomedical Analysis 147: 110-124.

Bligh EG, Dyer WJ 1959. A rapid method of total lipid extraction and purification. Canadian Journal Biochemistry Physiology 37: 911-917.

Borlachenco NGC, Cereda MP, Araújo GM, Padial NPM 2017. Aspectos legais da recuperação de áreas degradadas em áreas de preservação com apicultura de Apis melífera. Revista Gestão & Sustentabilidade Ambiental 6 (2): 56-78.

Both JPCL, Kato OR, Oliveira TF 2009. Perfil socioeconômico e tecnológico da apicultura no município de Capitão Poço, estado do Pará, Brasil. Amazônia: Ciência & Desenvolvimento 5 (9): 199-213.

Braga RC, Monteiro LLL, Nascimento KKB, Rabelo e Silva FM, Lima AF 2019. Elaboração e caracterização de mousse de siriguela (Spondias purpurea) adicionado de pólen apícola. Conexões Ciência e Tecnologia 13 (5): 85-90.

Brasil, Ministério da Saúde, Agência Nacional de Vigilância Sanitária – ANVISA 2005. Rotulagem nutricional obrigatória: manual de orientação às indústrias de alimentos, 2° versão, Universidade de Brasília, Brasília, DF.

Brasil, Ministério da Saúde 2001. Resolução RDC nº 12, de 02 de janeiro de 2001: Regulamento técnico sobre padrões microbiológicos para alimentos. Diário Oficial da União, Brasília, DF.

Brasil, Ministério da Agricultura e do Abastecimento, Secretaria de Defesa Agropecuária 2001. Instrução Normativa nº 3, de 19 de janeiro de 2001. Aprova os regulamentos técnicos de identidade e qualidade de apitoxina, cera de abelha, geléia real, geléia real liofilizada, pólen apícola, própolis e extrato de própolis. Diário Oficial da União, Brasília, DF.

Cabello JR, Serrano S, Rodríguez I, Garcia-Valcárcel AI, Hernando MD, Flores JM 2021. Microbial decontamination of bee pollen by direct ozone expousure. Foods 10: 2593.

Calvo C, Salvador A, Fiszman S 2001. Influence of colour intensity on the perception of colour and sweetness in various fruitflavoured yoghurts. European Food Research and Technology 213: 99–103.

Campos MGR, Bogdanov S, Almeida-Muradian LB, Szczesna T, Mancebo Y, Christian F, Ferreira F 2008. Pollen composition and standardisation of analytical methods. Journal of Apicultural Research 47 (2): 154-161.

Carpes ST, CabraL ISR, Rosalen PL, Alencar AM, Masson ML 2009. Caracterização do potencial microbiano dos extratos de pólen apícola na região sul do Brasil. Alimentos e Nutrição 20 (2): 271-277.

Carpes ST 2008. Estudo das características físico-químicas e biológicas do pólen apícola de Apis mellifera da região Sul do Brasil. Tese de doutorado, Universidade Federal do Paraná, 248 pp.

Carthy McU, Usysal I, Badia-Melis R, Mercier S, O’Donnell C, Ktenioudaki A 2018. Global food security – issues, challenges and technological solutions. Trends in Food Science & Technology 77: 11-20.

Castiglioni S, Stefano M, Astolfi P, Pisani, M, Carloni P 2022. Characterisation of bee pollen from the marche region (italy) according to the botanical and geographical origin with analysis of antioxidant activity and colour, using a chemometric approach. Molecules 2: 7996.

Conte G, Benelli G, Serra A, Signorini F, Bientinesi M, Nicolella M, Mele M, Canale A 2017. Lipid characterization of chestnut and willow honeybee-collected pollen: impacto freeze-drying and microwave-assisted drying. Journal of Food Composition and Analysis 55: 12-19.

Conte P, Del Caro A, Urgeghe PP, Petretto GL, Montanari L, Piga A, Fadda C 2020. Nutritional and aroma improvement of gluten-free bread: is bee pollen effective? LWT – Food Science and Technology 118: 108711.

Coronel BB, Grasso D, Pereira, SCG, Fernández G 2004. Caracterización bromatológica del polen apícola argentino. Ciencia, Docencia y Tecnologia 15 (19): 145-181.

Couto BO, Marques JAP, Sales N, Silva I, Lopes RA 2020. Apicultura proporcionando emprego e renda para agricultores familiares de Porangatu – GO. In Anais do XI Congresso Brasileiro de Agroecologia. Cadernos de Agroecologia, São Cristovão.

De-Melo AAM, Estevinho MLMF, Almeida-Muradian LB 2015. A diagnosis of the microbiological quality of dehydrated bee-pollen produced in Brazil. Letters in Aplied Microbiology 61: 477-483.

Dundar AN 2021. Total phenolic and antioxidante bioaccessibilities of cookies enriched with bee pollen. Journal of Food Processing and Preservation 46: 11-11.

Dutcosky SD 2013. Análise sensorial de Alimentos. Vol. IV, Champagnat, Curitiba, 426 pp.

Estevinho ML, Rodrigues S.; Pereira AP, Feas X 2012. Portuguese bee pollen: palynological study, nutritional and microbiological evaluation. International Journal of Food Science and Technology 47: 429–435.

Ferreira, DFS 2019. A computer analysis system to fixed effects split plot type designs. Revista Brasileira de Biometria 37 (4): 529–535.

Freitas JVM, Sousa FJ, Santos JKF, Silva FS, Silva RHD, Silva MS, Gonsalvez HRO 2020. Produção de bolo com substituição parcial da farinha de trigo por pólen apícola produzido na Caatinga-Ceará-Brasil. Research, Society and Development 9 (10): 1-13.

García J B, Cuevas F I H 2020. Apicultura: su contribución al ingresso de los hogares rurales del sur de Yucatán. Península 15 (2): 9-29.

Instituto Adolfo Lutz 2008. Métodos Físico-químicos para análise de alimentos. 4ª edição, Odair Zenebon, Neus Sadocco Pascuet e Paulo Tiglea, São Paulo, 1020 pp.

Karabagias, IK, Karabagias VK, Gatzias, I, Riganakos I G 2018. Bio-functional properties of bee pollen: the case of “bee pollen yoghurt”. Coatings 8: 423, 2018.

Khalifa SAM, Elashal MH, Yosri N, Du M, Musharraf SG, Nahar L, Sarker SD, Guo Z, Cao W, Zou X, El-Wahed A, Xiao J, Omar HA, Mohamed-Elamir FH, El-Seedi HR 2021. Bee Pollen: current status and therapeutic potential. Nutrients 13: 1876.

Krystyjan M, Gumul D, Ziobro R, Korus A 2015. The fortification of biscuits with bee pollen and its effect on physicochemical and antioxidante properties in biscuits. In press LWT – Food Science and Technology.

Lazcano-Hernández M, Navarro-Cruz AR, Sanchez RAS, Hernandez-Abundez JA, Zerón-Alvarado CA, Pereira DS 2019. Incorporación de harina de polen en panificacion. Revista Verde de Agroecologia e Desenvolvimento Sustentável 14 (1): 48-54.

Lourenço MSM, Cabral, JEO 2016. Apicultura e sustentabilidade: visão dos apicultores de Sobral (CE). Revista em Agronegócio e Meio Ambiente 9 (1): 93-115.

Manning R, Harvey M 2002. Fatty acids in honeybee-collected pollens from six endemic Western Australian eucalypts and the possible signifcance to the Western Australian beekeeping industry. Australian Journal of Experimental Agriculture 42: 2017-2023.

Melo ILP, Freitas AS, Barth, OM, Almeira-Muradian LB 2009. Correlation between nutritional composition and floral origin of dried bee pollen. Revista Instituto Adolfo Lutz 68 (3): 346-353.

Modro AFH, Silva IS, Luz CFP, Message D 2009. Analysis of pollen load based on color physicochemical composition and botanical source. Anais da Academia Brasileira de Ciências 81: 281-285.

Novakovíc A, Djekic I, Pesic M, Kostic A, Milincic D, Stanisavljevic N, Radojevic, A, Tomasevic I 2021. Bee pollen powder as a functional ingredient in frankfurters. Meet Science 182: 108621.

Omran NSM 2011. Wintering of Honeybee Colonies (Apis mellifera L.) by using a new technique during winter Season in Sohag Region, Egypt. Journal of Applied Science Research 7 (2) 174-182.

Prediger CL, Ahlert A 2018. Ética e educação ambiental: lugares privilegiados na apicultura. Ensaios e Ciências 22 (2): 70-78.

Santos CS, Ribeiro, AS 2009. Apicultura uma alternativa na busca do desenvolvimento sustentável. Revista Verde 4 (3): 1-6.

Santos TR, Melo JS, Santos AV, Severino P, Lima AS, Souto EB, Zielinska A, Cardoso JC 2022. Development of a protein-rich by-product by 2³ factorial design: caracterization os its nutritional value and sensory analysis. Molecules 27: 8918.

Sattler JAG, Melo ILP, Granato D, Araújo E, Freitas ASF, Barth OM, Sattler A, Almeida-Muradian LB 2015. Impact of origin on bioactive compounds and nutritional composition of bee pollen from southern Brazil: A screening study. Food Research International 77: 82-91.

Serra Bonvehí J, Pere Lopez, A 1986. Etude microbiologiques du pollen d'abeilles. Rev. Franç. Apic. 79: 259-266.

Silva RA, Torres MBR 2020. Sustentabilidade e educação ambiental na agricultura familiar: o caso de uma cooperativa no semiárido potiguar. Sociedade e Ambiente no Semiárido: controvérsias e abordagens 55: 300-313.

Silva TJ, Soares EM, Navas R 2020. Apicultura como atividade de desenvolvimento e conservação do bioma Caatinga: um estudo de caso no sertão de Alagoas. Campo-território: revista de geografia agrária 15 (38): 412-432.

Sokmen O, Ozdemir S, Dundar AN, Cinar A 2022. Quality properties and bioactive compounds of reduced-fat cookies with bee pollen. International Jornal of Gastronomy and Food Science 29: 100557.

Szczesna T 2006. Long-chain fatty acids composition of honeybee collected pollen. Journal of Apicultural Science 50: 65–79.

Szczesna T, Rybak-Chielewska H, Chmielewski W, 2002. Sugar composition of pollen loads harvested at different periods of the beekeeping season. Journal of Apicultural Science 46 (2): 107–115.

Tolera K, Tura B, Admasu A, Kasim R 2021. Beekeeping promotes conservation of traditional home-gardens in Ethiopia. Journal of Agriculture and Environment for International Development 115 (2): 23-37.

Vasconcelos MRS, Duarte AWF, Gomes EP, Silva SC, López AMQ 2017. Physicochemical composition and antioxidante potential of bee pollen from diferente botanical sources in Alagoas, Brazil. Ciência e Agrotecnologia 41 (4): 447-458.

Végh R, Csóka M, Stefanovits-Bányai E, Juhász R, Sipos L 2023. Biscuits enriched with monofloral bee pollens: nutritional properties, Techno-functional parameters, sensory profile, and consumer preference. Foods 12 (18).

Villanueva MTO, Marquina AD, Serrano RB, Abellán G. B 2002. The importance of bee-collected pollen in the diet: a study of its composition. Internacional Journal of Food Sciences and Nutrition 531: 217-224.

VITAT [homepage on the internet]. São Paulo: Tabela nutricional: informação de alimentos [cited 2023 oct 20] Available from:

https://vitat.com.br/alimentacao/busca-de-alimentos.

Yang K, Wu D, Ye X, Liu D, Chen J, Sun P 2013. Characterization of chemical composition of bee pollen in China. Journal of Agricultural and Food Chemistry: 1-31.

Yerlikaya O 2014. Effect of bee pollen supplement on antimicrobial, chemical, rheological, sensorial properties and probiotic viability of fermented milk beverages. Mljekarstvo 64 (4): 268-279.

Zanatta CL, Schlabitz C, Ethur EM 2010. Avaliação físico-química e microbiológica de farinhas obtidas a partir de vegetais não conformes à comercialização. Revista Alimentos e Nutrição 21 (3): 459-468.

Published

2024-07-15

How to Cite

COELHO, Brenda Karoline Tiburcio; CALIXTO, Francisca Kariny da Silva; FREITAS, Rômulo Magno Oliveira de; SOUSA, Elisabete Piancó de; CARVALHO, Luciene Xavier de Mesquita. Composition and Sensory Profile of Caatinga Native Bee Pollen Based Biscuit. Fronteiras - Journal of Social, Technological and Environmental Science, [S. l.], v. 13, n. 2, p. 228–245, 2024. DOI: 10.21664/2238-8869.2024v13i2.p228-245. Disponível em: https://periodicos.unievangelica.edu.br/index.php/fronteiras/article/view/7352. Acesso em: 24 nov. 2024.