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https://doi.org/10.17113/ftb.64.02.26.8999 | Article in press |
Bacterial Cellulose Powder from Tropical Fruits Byproducts: Characterization and Application in Smoothies
Rafael Sousa Cruz1
, Giovana Matias do Prado1 Paulo Henrique Machado de Sousa1, Nágila Maria Pontes Silva Ricardo1, Débora Hellen Almeida de Brito1, Francisco Ernani Alves Magalhães2, Jéssica Azevedo Furtado1 and Larissa Morais Ribeiro da Silva1*
1Federal University of Ceará, Campus do Pici, Ac. Público, 856 - Pici, 60020-181 Fortaleza, CE, Brazil
2Laboratory of Bioprospection of Natural Products and Biotechnology (LBPNB), 63660-000, Rua Solon Medeiros, S/N, BR 020, Bairro Bezerra e Sousa, Tauá, Ceará, Brazil
Copyright © 2024 This is a Diamond Open Access article published under CC-BY licence. Copyright remains with the authors, who grant third parties the unrestricted right to use, copy, distribute and reproduce the article as long as the original author(s) and source are acknowledged.
Article history:
Received: 16 December 2024
Accepted: 23 November 2025
Keywords:
kombucha; co-product; powder; bacterial cellulose; industrial reuse
Summary:
Research background. The development of new products based on bacterial cellulose powder derived from tropical fruit byproducts (pulps and peels) represents a technological alternative that offers environmental benefits to everyone. This solution can be applied in both industrial and domestic settings. In this research, bacterial cellulose was produced from the fermentation of industrial waste from tropical fruits.
Experimental approach. Bacterial cellulose powders were produced via kombucha fermentation using agro-industrial byproducts from tropical fruits. The powders were selected and characterized according to physicochemical parameters, proximate composition, bacterial count, FTIR, TGA, and in vivo toxicity.
Results and conclusions. The powders presented pH values ranging from 4.5 to 2.49. The acerola bacterial cellulose showed the highest yield (6.25 %) and the highest vitamin C content ((1998.04±50.75) mg/100 g). Pseudoplastic behavior was observed in all smoothies, and the formulation containing bacterial cellulose from passion fruit showed higher viscosity. Zebrafish tests did not indicate any adverse effects related to the formulations.
Novelty and scientific contribution. The use of bacterial cellulose powders from agro-industrial waste appears as a healthy and sustainable alternative for the development of new products with a high content of vitamin C (acerola bacterial cellulose powder) or more viscous products (passion fruit bacterial cellulose powder).
| *Corresponding author: | +558533669744 | |