Search Results (95)

Fortifying sourdough bread with functional ingredients is an effective strategy to enhance nutritional value, bioactive content, and sensory quality. The novel strain Lactiplantibacillus paracasei SP5 was incorporated into mother sponges together with cereal-based derivatives, such as trahanas or delignified wheat bran (2% and 5% w/w), and their effects on sourdough bread functionality were compared with a control bread without supplementation. Sourdough bread containing 5% w/w trahanas exhibited the highest lactic acid bacteria (10.4 log cfu/g), approximately 22% higher than the control, and the strongest fermentation activity, leading to acetic acid levels 27% higher than the control. This sourdough bread sample also had 73% higher total phenolic content (112.1 mg GAE/100 g) and approximately 27% higher antioxidant activity compared to control bread. In addition, phytic acid degradation exceeded 91%, representing a 16% higher reduction than the control, thereby improving mineral bioavailability. Shelf-life was also markedly extended, in terms of mould and rope spoilage compared with the control. Wheat bran-supplemented breads showed moderate improvements, with LAB counts, antioxidant activity, and phytic acid reduction about 10–25% higher than the control. Overall, these findings demonstrate that L. paracasei SP5 in combination with nutrient-rich, low-cost cereal-based derivatives can significantly enhance the technological, nutritional, and bioactive properties of sourdough breads. This approach provides a simple, industrially feasible strategy for producing functional breads with improved health-promoting and preservative attributes. Full article

The safety and shelf life of wheat bread depend not only on recipe formulation and fermentation but also on post-baking handling, particularly the packaging stage. This study focused on evaluating the effect of the temperature of the bread crumb at the moment of packaging (30, 40, and 45 °C) on acrylamide content and microbiological spoilage during storage. Wheat bread samples prepared with 5, 10, and 15% Lactiplantibacillus plantarum sourdough were compared to control bread without sourdough. The results revealed that packaging at elevated temperatures (40–45 °C) led to higher residual acrylamide levels and accelerated mold growth due to condensation and increased humidity inside polyethylene bags. In contrast, packaging at 30 °C significantly reduced acrylamide formation, limited microbial proliferation, and extended the shelf life of bread up to 7 days while maintaining acceptable sensory qualities. The combined effect of sourdough concentration and packaging temperature demonstrated that the optimal conditions for ensuring safety and extending shelf life are the use of 5–10% sourdough and packaging at 30 °C. These findings underline the critical role of sourdough content and packaging temperature in controlling chemical contaminants and microbiological spoilage in bread production. Full article

Functional bread development with clean-label ingredients remains a technological challenge due to the negative effects of certain functional additives on dough rheology and bread quality. The aim of this study was to evaluate the effectiveness of dried sourdough as a natural improver in carob-enriched bread. Dough formulations included 10–20% carob flour as a partial replacement of wheat flour, with dried sourdough added as a dough improver at 5–10%. The results demonstrated that the addition of 10% dried sourdough increased maximum creep compliance of dough with 10% and 15% carob flour by 26% and 56%, respectively. The addition of 5% and 10% dried sourdough to dough with 10% carob flour decreased its Newtonian viscosity by 24% and 36%, resulting in improved dough handling. Crumb pore structure was enhanced by the addition of 5% dried sourdough, with average pore surface area increasing around 2.5 times in breads with 15% and 20% carob flour. Incorporation of dried sourdough reduced bread hardness and chewiness by up to 40% in samples with 15% carob flour and by 20–30% in samples with 20% carob flour. Sensory properties of crumb structure (crumb development, pore fineness, elasticity and crumbliness), which were adversely affected by carob flour addition, showed varying levels of improvement by the addition of dried sourdough. These results demonstrate the feasibility of using dried sourdough as a natural improver in functional bakery formulations, supporting the development of clean-label products without synthetic additives. Full article

Carob pulp flour (Ceratonia siliqua) is gaining attention as a sustainable ingredient with nutritional and functional potential. This study evaluated the partial replacement of soft wheat flour with 10% carob pulp flour in breadmaking, focusing on the role of different leavening strategies: commercial baker’s yeast (LB), a selected starter culture, Lactiplantibacillus plantarum SL31 and Saccharomyces cerevisiae SY17 (LI), and a type I sourdough (LS). Dough rheology, microbial dynamics, bread quality, acceptability, and shelf-life were assessed. Results showed that the inclusion of carob pulp flour enhances the nutritional profile while maintaining satisfactory technological performance. The leavening strategy strongly influenced the final products: breads made with commercial yeast displayed high volume and softness but were less stable during storage; LS breads achieved greater microbial stability but were limited by excessive acidity and reduced sensory acceptance; breads obtained with the selected starter culture offered the most balanced outcome, combining moderate structure with enhanced flavor and consumer preference. Overall, the findings demonstrate the feasibility of incorporating carob pulp flour into bakery products and highlight the potential of tailored starter cultures as a promising compromise between technological performance, sensory quality, and shelf-life. Future work should optimize fermentation approaches to further enhance consumer appeal and support industrial application. Full article

This study aimed to (i) investigate the effect of using grape water in the production of traditional sourdough; (ii) select seeds for use in laboratory-scale sourdough bread production; and (iii) assess the effect of incorporating fresh germinated seeds into recipe of organic sourdough bread on nutritional, technological, and sensory properties. The pH of both control (CSD, flour only) and boosted (BSD, supplemented with “grape water”) sourdough fell below 4.5 by day 3. After 10 days of back-slopping and fermentation, both sourdoughs harbored 9 log CFU/g of lactic acid bacteria, whereas yeast cell density in the CSD was 1 log cycle higher. Based on their high germination rates (~90%), lentil and wheat seeds were selected as additional ingredients (5%). Bread with germinated lentils (GL) and bread with germinated wheat (GW) were compared with control bread (without seeds). GL and GW breads showed gas cell areas of 28.6% and 18.1%, respectively, which were higher than the control. In addition, GL and GW received higher scores for taste (8.6) and softness (5.6), respectively. Additionally, GL contained more proteins (9.9%) and fewer lipids (0.3%) than the two other bread types, in addition to being potentially labeled as a “source of fiber”. Full article

Cereal grains have been dietary staples for millennia, providing essential nutrients alongside their primary carbohydrate content. Recently, the search for sustainable, nutrient-rich alternatives has drawn attention to spelt (Triticum aestivum ssp. spelta L.), a low-input crop with promising nutritional properties. Spelt supplies a higher content of unsaturated fatty acids and minerals, such as iron, zinc, and magnesium and exhibits lower levels of phytic acid compared to common wheat. This study explores the nutraceutical potential of fermented bakery products made from spelt and wheat flours using sourdough fermentation, a process driven by lactic acid bacteria (LAB) and yeasts. Breads produced with baker’s yeast were included for comparison. Specifically, this manuscript focuses on the generation of bioactive peptides (BPs), which have demonstrated anti-oxidant, anti-inflammatory, and gut-protective effects by modulating oxidative stress and inflammatory signaling pathways. By comparing aqueous extracts from breads prepared with varying flours and fermentation methods, optimal conditions for producing functional baked goods could be defined. The findings may offer new avenues for developing bakery products that potentially increase intestinal health while promoting sustainable agriculture through the use of spelt. Full article

The study investigates the impact of sourdoughs made with different flours (white wheat, wholemeal wheat, and barley) and specific enzymes (laccase, lipase, and hemicellulase) on the technological properties of gluten-based wheat breads, thereby exploring the combined role of sourdough and enzymes. Three levels of each sourdough (20, 30, and 40%) were tested, and the optimal level was then used to evaluate the impact of individual and combined enzyme treatment. Pasting properties and FT-IR analyses of the flours were evaluated. White wheat flour displayed the highest peak viscosity (353.50 mPas) and final viscosity (526.50 mPas). β-sheet structures predominated in all samples, although they were most prevalent in wholemeal wheat flour (51%) as opposed to white wheat flour (47%) and barley (47%). Sourdough breads exhibited better texture and moisture retention at 40% inclusion than at other levels. After 72 h, white wheat sourdough maintained the highest specific volume (3.71 cm³/g), while barley sourdough retained the most moisture (38.83%) and the lowest chewiness and hardness results, suggesting better softness and crumb retention. Whereas for enzyme treatment, they had different effects. White wheat and wholemeal wheat sourdough breads treated with enzymes had decreased hardness, chewiness, and gumminess; barley sourdough breads with enzymes were negatively affected by the texture. Correlations and multivariate analysis reveal that bread texture is strongly influenced by the type of sourdough and enzymatic treatment. Higher doses of laccase or hemicellulase improve softness in wholemeal-based sourdough bread, while excessive lipase leads to a firmer and less pleasant crumb. Full article

There is a growing interest within the food industry sector in applying natural and sustainable methods to improve functional, nutritional, and technological properties of foods. In this regard, sprouting and spontaneous sourdough (SD) fermentation, are emerging as promising technological solutions in the bakery industry. The aim of this work was to evaluate the effect of using unsprouted whole-wheat flour (USWF) and sprouted whole-wheat flours (SWFs), obtained under controlled conditions (20 and 25 °C for 24 h), on the chemical and nutritional properties of spontaneous SD and their impact on whole-wheat bread technological quality. SDs were prepared with a dough yield of 200, incubated at 30 °C for 24 h, and refreshed daily for 7 days. In general, an increase in both yeast and lactic acid bacteria counts was observed in all SD samples. All SDs showed reduced α-amylase activity and enhanced contents of free amino acids groups, water-extractable arabinoxylans, total phenolics, and antioxidant capacity, along with lower phytic acid content. Substituting 20% of USWF with SD improved bread volume and crumb softness. Notably, breads made with sourdough prepared from 20% sprouted whole-wheat flour (SWF25) promoted the formation of volatile compounds associated with pleasant aromas, which may increase consumer acceptability. Promising nutritional and sensory advantages could result from combining fermentation and sprouting. Full article

Surplus bread accounts for a significant proportion of food waste in many countries. The focus of this study was twofold: firstly, to investigate the use of carasau bread residue as a sourdough substrate, and secondly, to reuse this sourdough into a new carasau baking process. Selected lactic acid bacteria (Lactiplantibacillus plantarum) and yeast strains (Saccharomyces cerevisiae and Wickerhamomyces anomalus) were used to inoculate three substrates: bread residue (S1), bread residue supplemented with durum wheat middlings (S2), and semolina (S3). Sourdoughs were refreshed for five days by backslopping, and microbiological and physicochemical analyses were performed. Results indicated that incorporating wheat middlings into bread residue enhanced microbial performance, as evidence by a decrease in pH from 6.0 to around 4.5 compared to using bread residue alone as a substrate. Carasau bread produced with the sourdough derived from bread residue and wheat middlings exhibited comparable physicochemical properties to commercial baker’s yeast carasau bread, but had better sensory properties, scoring a mean acceptability of 7.0 versus 6.0 for baker’s yeast bread. These results show that bread residue supplemented with wheat middlings can serve as a sourdough substrate, allowing its reuse in the baking process to produce high-quality carasau bread and promote the circular economy. Full article

The wastage of by-products generated in the food industry is an issue that should be addressed by determining a second use for these products, with sourdough fermentation being the most popular technology used. The aim of this research was to evaluate the impact of adding agave bagasse (AB) and Lactococcus lactis NRRL B-50307 to sourdough that was later used in the formulation of bread rolls. Five treatments were tested: B1: wheat flour; BI2: wheat flour inoculated with L. lactis (1 × 10⁶ CFU/mL); C10: wheat flour + AB (10% w/w); T5: 5% AB + wheat flour inoculated with L. lactis (1 × 10⁶ CFU/mL); and T10: 10% AB + wheat flour inoculated with L. lactis (1 × 10⁶ CFU/mL). Sourdoughs were back-slopped daily for 6 days, dried in a climatic chamber, reactivated, and left to ferment for 24 h. Samples of each treatment of dried and reactivated sourdough were collected and tests for antioxidant activity (DPPH and ABTS), total amino acid content (OPA), and phenolic and flavonoid content were performed. Phenolic compounds and flavonoids decreased when the sourdough was dried (1.5 to 2.0 mg/g of quercetin); however, an increase in bioactive compounds was observed after reactivation, with the treatments with AB recording the highest values (2.5 mg/g). The DPPH and ABTS tests showed that T10 had the highest activity (25% and 23%, respectively). The OPA results showed an increment in amino acid content (2.0 mg lysine/g), indicating proteolysis. The fermentation curves showed that leavening time was achieved after 600 min of fermentation. AB addition did not affect the viscosity of the sourdough rolls. Sourdough with added AB and L. lactis provided a novel approach to achieve more sustainable baked goods. The drying process decreased the sourdough’s bioactive compounds, which were recovered after reactivation. Full article

Roasted carob flour is a sustainable ingredient rich in dietary fiber, polyphenols, and pinitol, offering potential for both food and pharmaceutical applications. However, its high sugar content and the presence of undesirable compounds such as furans present challenges for its use in bread making. This study evaluated the effects of prolonged sourdough fermentation on roasted carob flour, with a focus on microbial dynamics and its functional and technological properties. Carob and carob–wheat sourdoughs were prepared using a mixed starter culture comprising three lactic acid bacteria (Lactiplantibacillus plantarum, Fructilactobacillus sanfranciscensis, and Lactobacillus helveticus) and three yeast species (Saccharomyces cerevisiae, Kazachstania humilis, and Torulaspora delbrueckii). The sourdoughs underwent six consecutive refreshment cycles and were analyzed to determine their pH, microbial and biochemical composition, gassing power, and volatile organic compounds (VOCs). The carob–wheat sourdough exhibited faster acidification and higher lactic acid bacteria (LAB) activity, resulting in a 90–98% reduction in the sugar content, compared to 60% in the carob sourdough. Microbial sequencing revealed that L. plantarum was the dominant species in all samples, while K. humilis and S. cerevisiae were enriched in carob and carob–wheat sourdough, respectively. Both types of sourdough demonstrated effective leavening in bread dough without the addition of commercial yeast. Fermentation also modified the VOC profiles, increasing esters and alcohols while reducing acids, aldehydes, ketones, and furans. While the antioxidant activity showed a slight decline, the pinitol content remained unchanged. These findings suggest that extended sourdough fermentation, supported by multiple refreshments, enhances the baking suitability of roasted carob flour and supports its application as a functional, sustainable ingredient. Full article

This study investigates the potential of utilising the proteolytic activity of two different strains, Levilactobacillus brevis FST140 and Pediococcus pentosaceus FST22, to assess their impact on wheat gluten proteins. A high-power ultrasound (US) treatment (850 kHz; 500 W/cm²; 35 °C) was used to activate the proteolytic system of LAB to promote gliadin-like protein degradation in wheat wholemeal-based sourdough. The proteolytic activity of L. brevis and P. pentosaceus increased two-fold with 10 and 20 min US stimulation, respectively, compared to fermentation without ultrasonication. Regarding the impact of proteolysis and sonication on gliadin proteins, fermentation with both strains reduced gliadin content in commercial gluten by an average of 77.4% compared to the untreated sample, and additional US treatment further enhanced gliadin degradation efficiency to an average of 83.5%. The combined application of US and lactic acid fermentation initiated a seven-fold decrease in wheat wholemeal flour (WF) gliadin levels compared to the untreated sample (47.2 mg/g). Furthermore, the synergistic application of US, LAB, and yeast fermentation allowed us to reduce gliadin content up to 1.6 mg/g, as well as to reduce gluten content in the sourdough up to 3 mg/g. Despite complete hydrolysis of the gliadin fraction under the combined effects of US and fermentation, glutenins were less affected by the applied treatments in all cases. The technology presented in this study offers a promising approach for producing gluten-free or low-gluten fermented products in the bread-making industry. Full article

The aim of this study was to characterize in vitro digestion of wheat breads baked with sourdough or the postponed baking method without and with arabinoxylan (AX) of different molar mass. The influence of the AX share on the rate of starch digestion, the molar mass of resistant starch (RS) and the pasting characteristics of crumb suspensions of breads baked by the sourdough and postponed baking methods were investigated. Sourdough wheat breads were characterized by contents of very slowly digestible starch (DS) of 1.3% and RS of 1% higher in the crumb, compared to breads baked by the postponed baking method. In the crumb of sourdough breads, after storage for 1 and 3 days, in all variants of the samples (especially with the 2% share of high molar mass AXs), the content of the rapidly digested starch (RDS) fraction decreased, the content of the slowly digestible (SDS) and DS fractions did not change significantly, while the content of the RS fraction increased. In addition, the RS fraction present in the crumb of sourdough breads was generally characterized by a lower molar mass than the RS isolated from the crumb of breads baked by the postponed baking method. The crumb of wheat breads baked using sourdough was characterized by higher viscosity, compared to those baked by the postponed baking method. Full article

In the present study, Lactiplantibacillus plantarum G8, exhibiting higher antifungal activity, and G12, displaying weaker antifungal activity, were isolated from naturally fermented wheat sourdough. Their impacts on bread quality and shelf life were subsequently investigated. The results demonstrated that both strains exhibited robust growth in rye bran sourdough. Compared to the blank control rye bran–wheat flour dough (RB dough), sourdough incorporation enhanced percentages of β-sheet and α-helix secondary structures, facilitating the formation of a more ordered gluten network structure. This contributed to reduced bread baking loss and decreased bread hardness, gumminess, and chewiness, with Lpb. plantarum G8 exhibiting the most pronounced effects. Notably, G8 bread displayed superior antifungal efficacy, extending shelf life by 8 d (mold appearance at room temperature: 12 d for G8 vs. 4 d for RB). Furthermore, G8 bread exhibited significantly increased diversity and content of volatile compounds, and received higher preference scores from the sensory panel. This study further advances the development of mold-resistant bakery products. Full article

Galician wheat (Triticum aestivum L.) serves as the foundational component of Galician bread, a traditional Spanish product granted the Protected Geographical Indication (PGI, EU quality scheme), which is primarily conserved at the Agricultural Research Center of Mabegondo (CIAM), Xunta de Galicia, A Coruña, Spain. This study evaluated 20 ecotypes and cultivars, in comparison to 4 Galician wheats and 14 commercial wheat varieties used as references. Seventeen simple sequence repeats (SSRs) were evaluated to elucidate their genetic structure, determine their origins, and differentiate them from commercial cultivars for traceability purposes. In total, 296 wheat plants were analyzed, revealing 156 unique genotypes, 13 of which were from commercial cultivars and 143 of which were from local cultivars and ecotypes. The SSR loci revealed 221 microsatellite alleles, with an average of 11 alleles per locus. Of these, 151 alleles were found in local cultivars and ecotypes, and 134 were present in commercial cultivars, with 65 and 50 alleles exclusive to each group, respectively. A Structure software analysis demonstrated substantial genetic differentiation (Fst = 0.26) between two primary clusters, RPP1 (comprising commercial cultivars, and two ecotypes, 41 and 43) and RPP2 (consisting of local cultivars, elite lines, and ecotypes). Moreover, neighbor-joining tree analysis and principal component analysis (PCA) confirmed the high differentiation between these clusters, highlighting the singularity of Galician wheat, which is useful for the traceability of Galician bread. Furthermore, the SSRs were effective in tracking the use of Galician wheat, which displayed specific Galician alleles, in flour, sourdough, and bread samples, corroborating previous findings even when a greater number of Galician ecotypes were included. Full article