Low-Quality Date Syrup (Dibs) as a Cheap Carbon Source and Substrate in Comparative Study with Others to Produce Baker’s Yeast
Mohamed, H., ABD ELALEEM, W., Saleh, Y., mahroos, M. (2025). Low-Quality Date Syrup (Dibs) as a Cheap Carbon Source and Substrate in Comparative Study with Others to Produce Baker’s Yeast. EKB Journal Management System, (), -. doi: 10.21608/nvjas.2025.440313.1348
Hussein Ferweez Mohamed; WALEED MOHAMED ABD ELALEEM; Yasmin Mohamed Saleh; Mayyar Abdelrazek mahroos. "Low-Quality Date Syrup (Dibs) as a Cheap Carbon Source and Substrate in Comparative Study with Others to Produce Baker’s Yeast". EKB Journal Management System, , , 2025, -. doi: 10.21608/nvjas.2025.440313.1348
Mohamed, H., ABD ELALEEM, W., Saleh, Y., mahroos, M. (2025). 'Low-Quality Date Syrup (Dibs) as a Cheap Carbon Source and Substrate in Comparative Study with Others to Produce Baker’s Yeast', EKB Journal Management System, (), pp. -. doi: 10.21608/nvjas.2025.440313.1348
Mohamed, H., ABD ELALEEM, W., Saleh, Y., mahroos, M. Low-Quality Date Syrup (Dibs) as a Cheap Carbon Source and Substrate in Comparative Study with Others to Produce Baker’s Yeast. EKB Journal Management System, 2025; (): -. doi: 10.21608/nvjas.2025.440313.1348

Low-Quality Date Syrup (Dibs) as a Cheap Carbon Source and Substrate in Comparative Study with Others to Produce Baker’s Yeast

New Valley Journal of Agricultural Science
Articles in Press, Accepted Manuscript, Available Online from 16 November 2025
Document Type: Original Research
DOI: 10.21608/nvjas.2025.440313.1348
Authors
Hussein Ferweez Mohamed* 1; WALEED MOHAMED ABD ELALEEM2; Yasmin Mohamed Saleh3; Mayyar Abdelrazek mahroos4
1New Valley University
2Central Lab. of Organic Agriculture Agricultural Research Center,Giza, Egypt
3Department of Food Sciences and Technology, Faculty of Agriculture, New Valley University, EL-Kharga 72511, Egypt
4Food Science, Fac. Agri., New Valley University, Egypt.
Abstract
Baker's yeast (Saccharomyces cerevisiae) production requires substrates containing metabolizable sources of nitrogen, energy, carbon, vitamins, and minerals. While molasses remains the predominant substrate globally, date-derived products present a viable alternative, particularly in date-producing regions. This study evaluated the physicochemical, chemical, and phytochemical characteristics of date syrup (dibs) produced from high-, normal-, and low-quality Saidy cultivar dates, comparing them with commercial carbon sources (commercial dibs, cane syrup, and cane molasses).

Low-quality date fruit dibs (LQDFD) demonstrated notable potential as a primary carbon source, with total sugar content of 56.82% (w/w) and suitable mineral composition. Physical analysis revealed significant differences in extraction percentage (56.23–64.22%), pH (1.3193–1.3923 g/cm³), color (ICUMSA units), density, and viscosity among samples. Chemical composition analysis showed LQDFD contained 72.66% total carbohydrates, 1.10% total protein, and essential minerals including potassium (373.67 mg/100g) and magnesium (187.67 mg/100g). Sugar profiling indicated predominantly reducing sugars (glucose 27.90%, fructose 22.03%) suitable for fermentation. Phytochemical analysis showed higher flavonoid content (93.33 mg/100g) and phenolic compounds (965.67 mg GAE/100g) in LQDFD compared to cane syrup but lower hydroxymethyl furfural levels than cane molasses. These findings demonstrate that LQDFD represents an economically viable and accessible substrate for baker's yeast fermentation, particularly beneficial for date-producing regions where low-quality dates are abundant but underutilized.
Keywords
Saccharomyces cerevisiae, date syrup, dibs, baker'; s yeast production, carbon source,
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