Physicochemical and microbiological characteristics of sugar beet fibers

Due to the balanced ratio of soluble and insoluble fiber, small amount of lipids and sugar, and the low
energy value, sugar beet fibers provide excellent physiological benefits to human body and their physicochemical
characteristics allow a better compounding whit the other ingredients of the product. Sugar beet fibers are derived
from sugar beet pulp, which is obtained in the course of the technological processing of sugar beet following the
process of extraction of sucrose from the sweet pulp. The aim of this investigation was the characterization of the
sugar beet fiber for bread and toast production, as well as the definition of exact drying temperature of sugar beet
fiber to reach the best physicochemical properties for implementation in bread. In all samples the chemical
composition: soluble and insoluble fibers, ash and protein content are determined. During experimental work the
physicochemical (water holding capacity, aw value, colour parameters), and microbiological characteristics (total
number of bacteria, aerobe and anaerobe bacteria, yeast and mold) of sugar beet pulp dried on different temperatures:
at 55, 65 and 75 °C in the chamber drier are defined. The content of the total fiber content is about 75%, regardless
of drying temperature. In sugar beet fibers dominate nonsoluble fiber. Samples dried in the chamber dryer have
highwater holding capacity (from 488% to 524%) depend on temperature. By drying the samples in chamber dryer
at55°C, the highest lightness of the dried sugar beet pulp were reached (L* =71). The presence of the sporogenaous
aerobic and anaerobic bacterias are determined in all samples.