Your search keyword '"wheat bran"' showing total 5,756 results

1. Biomethane Gas Production from Anaerobic Co-Digestion of Wheat Bran and Livestock Manure and Its Energy and Exergy Performance Analysis

Author

Umar, Huzaifa, Aliyu, Maryam Rabiu, LaMoreaux, James W., Series Editor, Gökçekuş, Hüseyin, editor, and Kassem, Youssef, editor

Published

2025

2. Zinc biofortification of wheat through fertilizer and genotype management.

Author

Tayyari, Farrokh, Shariatmadari, Hossein, Shahbazi, Karim, and Shirvani, Mehran

Subjects

*SUSTAINABLE agriculture, *WHEAT, *ZINC sulfate, *SUSTAINABILITY, *PLANT cells & tissues, *BIOFORTIFICATION, *WHEAT bran

Abstract

This study investigated the responses of two wheat varieties, Alvand (Zn-inefficient) and Pishtaz (Zn-efficient), to various zinc (Zn) fertilization methods to determine optimal strategies for enhancing wheat growth and grain quality. The primary aim of this research was to evaluate the effects of various Zn fertilization strategies, including foliar applications of Zn sulfate and Zn-EDTA with and without urea, as well as synthetic Zn amino acid complexes, along with soil applications of Zn sulfate, on the yield and nutritional quality of grains in these two contrasting wheat varieties. The results revealed that wheat varieties responded differently to Zn treatments. While Alvand showed a promising trend of elevated grain yield with foliar zinc sulfate application, Pishtaz exhibited a stronger response to foliar treatments like Zn-Met and Zn-EDTA + urea. Yield components as 1000-grain weight and spike weight, were significantly influenced by Zn fertilization. Foliar application of zinc sulfate + urea enhanced 1000-grain weight in Alvand, whereas Zn-EDTA + urea substantially increased spike weight in Pishtaz. Soil application of zinc sulfate was found to be as an effective method to enhance grain Zn content. Furthermore, the Zn concentrations in flour, straw, bran, and roots elucidated the complex patterns of Zn distribution among various plant tissues. Soil applications were particularly effective in increasing Zn levels in flour and bran, while foliar treatments influenced Zn content in straw and roots. Overall, this research highlights the importance of Zn fertilization strategies for different wheat varieties biofortification. These findings can provide practical implications for sustainable wheat production, addressing Zn deficiency challenges, and advancing food security worldwide. Further exploration into the underlying mechanisms of these responses is encouraged to refine Zn management practices for wheat cultivation. [ABSTRACT FROM AUTHOR]

Published

2024

3. Sustainable Producing of Oxalic Acid from Aspergillus niger and Candida albicans Isolated from Environmental and Clinical Sources.

Author

Jasim, Amjad Ali and Al-Shibly, Majid Kadhem

Subjects

OXALIC acid, ASPERGILLUS niger, CANDIDA albicans, PLANT nutrients, CROP yields

Abstract

Oxalic acid is one of the important acids that is used in many fields. It is of medical, industrial and agricultural importance and is used as an acid in foods, building and construction, pharmacy, and others. This acid is produced in multiple ways, and the biogenic method is the best method because it is safe and cheap. Hence, this study came about, where reliance was placed on wheat bran in preparing nutrient medium to produce oxalic acid from Candida albicans and Aspergillus niger yeast isolated from environmental and pathogenic sources. The study aimed to use wheat bran as an alternative medium for growing fungi and yeasts that produce oxalic acid, and to compare the productivity of this medium with standard media. One hundred fungal isolates were isolated from different environmental and clinical sources, and grown in Sabouraud dextrose agar medium (SDA) and potato dextrose agar to obtain pure isolates of A. niger and C. albicans. Thirty seven isolates of C. albicans and thirty two isolates of A. niger were isolated. Thirty one contaminated samples were discarded. The isolates were grown in standard (SDB, PDB) and alternative (wheat bran) media. The amount of acid was estimated by mulching against potassium permanganate. The results showed that wheat bran medium was the most efficient in producing oxalic acid with a rate of 26.2% for A. niger and 25.3% for C. albicans, compared to standard media. The best temperature for acid production was 32 °C with a production rate of 19.1% for A. niger and 22.7% for C. albicans. The best pH was 6.5 for A. niger with a production rate of 20.2% and 5.5 for C. albicans with a production rate of 23.3%. The study conclude from the above that the fungus A. niger is the best compared to C. albicans, as well as the medium of wheat bran is a promising and effective medium in the production of oxalic acid in an environmentally friendly way. [ABSTRACT FROM AUTHOR]

Published

2024

4. Insight into the conformational changes and allergenic reactivity of coarse wheat bran induced by ozone treatment.

Author

Zhu, Wenyan, Yao, Yaya, Tao, Peijun, and Li, Huijing

Subjects

*WHOLE grain foods, *WHEAT products, *LABORATORY rats, *WHEAT proteins, *CHEMICAL structure, *WHEAT bran

Abstract

BACKGROUND RESULTS CONCLUSION Whole grain food has gradually come into view because of its high nutritional value, but the incidence of wheat allergies has been increasing year by year. Ozone is a new non‐thermal desensitization technology in food processing, and its effect on coarse wheat bran protein has received little study. We investigated the effects of different ozone airflow rates and treatment times on wheat bran allergenic property and protein structure.The ozone treatment time of 30 min at an airflow rate of 5 L min−1 reduced the coarse wheat bran allergenic property by 61.14%; subunits of 33, 46, 48 and 68 kDa were significantly less allergenic via western blotting; and the lowest releasing rate of β‐hexosaminidase was 25.32% in the cell model of rat basophilic leukaemia 2H3. According to secondary structure and chemical interaction determination, the protein molecules were reorganized and aggregated by disulfide bonds and hydrophobic contacts following ozone exposure.Ozone treatment has a beneficial potential in reducing the allergenic property of coarse wheat bran and improving the safety of whole wheat products. © 2024 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2024

5. Exploring Ganoderma lucidum: morphology, cultivation and market potential.

Author

Thakur, Pratibha, Khanal, Sonali, Tapwal, Ashwani, Kumar, Dinesh, Verma, Rachna, Chauhan, Poonam, and Sharma, Neha

Abstract

Ganoderma lucidum, known as the "mushroom of immortality," is a white rot fungus renowned for its medicinal properties, attributed to its bioactive compounds. Although species with similar morphological traits to G. lucidum are found across the globe, precise identification is made possible through DNA barcoding and molecular phylogenetic analysis. Global cultivation and wild harvesting of G. lucidum are both done in response to the growing market needs. Artificial cultivation is typically performed on sawdust, but other woody substrates and the wood log method are also employed. This cultivation leverages the fungus's ecological role in converting industrial and agricultural solid wastes into biomass, thereby producing functional food and potential pharmaceutical sources. The review consolidates research on various aspects of, including cultivation methods (sawdust, agricultural waste, wood logs, and submerged fermentation), and the current global market conditions. [ABSTRACT FROM AUTHOR]

Published

2024

6. Effect of Processed Coffee Husk on Feed Intake, Nutrient Digestibility, Body Weight Changes and Economic Feasibility of Bonga Sheep Fed on Natural Pasture Hay as a Basal Diet.

Author

Marew, Lidya, Meheret, Fentahun, and Asmare, Bimrew

Subjects

*FEED utilization efficiency, *WHEAT bran, *WEIGHT gain, *RUMINANT nutrition, *SHEEP feeding

Abstract

Background: Ethiopia is one of the world's coffee producers, generating about 192,000 metric tonnes of coffee husks annually as by‐products. The material can be used for ruminant diets to improve the nutrient utilisation of animals. However, coffee husk has toxic compounds, which can be minimised through different processing methods. Though the above techniques can minimise the toxicity level of coffee husk and increase the bioavailability of nutrients, there is scanty information on the comparative efficacy of these techniques, especially in ruminant nutrition. Objective: The study was conducted to examine the effect of processed coffee husk on feed intake, nutrient digestibility, body weight changes and profitability of Bonga rams based on natural pasture hay. Methods: In the experiment, 24 rams were used, and the rams were grouped into six blocks based on initial body weight (mean BW 21.5 ± 1.01 kg). The rams were quarantined for 21 days, and each ram was randomly assigned to one of the experimental feed treatments in a randomised complete block design (RCBD). The experimental treatment feeds include 400 g conventional concentrate mix (CM) containing Noug seed cake and wheat bran (T1); 200 g boiled coffee husk + 200 g CM (T2); 200 g roasted coffee husk + 200 g CM (T3) and 200 g raw coffee husk + 200 g CM (T4). The CM was made in the ratio of 1:1. The data collected from the 90‐day experimental period were: dry matter and nutrient intakes, initial body weight, final body weight and body weight changes. After the growth experiment, a 7‐day digestibility trial was followed by collecting faeces using a harness bag. The data were managed using Microsoft (MS) Excel 2010 and analysed using R software (v. 4.3.2). The chemical compositions of the CM had maximum crude protein (22%), followed by boiled coffee husk (14.74%), which was higher than natural pasture hay (6.91%) and raw coffee husk (12.4%). Results: The total dry matter intake (p < 0.05), metabolisable energy, and total nutrient intakes of rams were significantly (p < 0.001) maximised when rams fed on boiled coffee husk (T2) than raw (T4) and roasted (T4) coffee husk, except for NDF and organic matter intakes. The apparent digestibility of nutrients and feed conversion efficiency were maximised for rams assigned to T2. There was maximum daily body weight gain (p < 0.001) when rams were supplemented with boiled coffee husk (T2). Also, body weight changes of rams were significantly (p < 0.001) higher for rams supplementation with boiled coffee husk. Conclusion: Therefore, the boiled coffee husk as an alternative feed resource can be replaced by about half of the commercial CM without adverse effects of anti‐nutritional factors and enhance the income of smallholder farmers in the coffee crop‐livestock production system. [ABSTRACT FROM AUTHOR]

Published

2024

7. The Impact of Biowaste Composition and Activated Carbon Structure on the Electrochemical Performance of Supercapacitors.

Author

Abdisattar, Alisher, Yerdauletov, Meir, Yeleuov, Mukhtar, Napolskiy, Filipp, Merkulov, Aleksey, Rudnykh, Anna, Nazarov, Kuanysh, Kenessarin, Murat, Zhomartova, Ayazhan, and Krivchenko, Victor

Subjects

*CLEAN energy, *CARBON-based materials, *ACTIVATED carbon, *ENERGY storage, *ENERGY density, *WHEAT bran, *WHEAT straw

Abstract

The increasing demand for sustainable and efficient energy storage materials has led to significant research into utilizing waste biomass for producing activated carbons. This study investigates the impact of the structural properties of activated carbons derived from various lignocellulosic biomasses—barley straw, wheat straw, and wheat bran—on the electrochemical performance of supercapacitors. The Fourier Transform Infrared (FTIR) spectroscopy analysis reveals the presence of key functional groups and their transformations during carbonization and activation processes. The Raman spectra provide detailed insights into the structural features and defects in the carbon materials. The electrochemical tests indicate that the activated carbon's specific capacitance and energy density are influenced by the biomass source. It is shown that the wheat-bran-based electrodes exhibit the highest performance. This research demonstrates the potential of waste-biomass-derived activated carbons as high-performance materials for energy storage applications, contributing to sustainable and efficient supercapacitor development. [ABSTRACT FROM AUTHOR]

Published

2024

8. Effects of airflow superfine pulverization on the structure, functional properties, and flavor quality of wheat bran.

Author

Mao, Ying, Zhang, Yinghui, Li, Tiantian, Chen, Yueyi, Wang, Zhan, Guo, Cheng, Jin, Weiping, Shen, Wangyang, and Li, Jinling

Subjects

*WHEAT bran, *FLOUR, *DIETARY fiber, *CHEMICAL industry, *AIR flow

Abstract

BACKGROUND: Wheat bran (WB) is a byproduct of refined wheat flour production with poor edible taste and low economic value. Herein, the WB was micronized via airflow superfine pulverization (ASP), and the effects of the ASP conditions on its particle size, nutritive compositions, whiteness, hydration characteristics, moisture distribution, microstructure, cation exchange capacity, volatile flavor components, and other characteristics were investigated. RESULTS: Reducing the rotational speed of the ASP screw and increasing the number of pulverizations significantly decreased the median particle size Dx(50) of WB to a minimum of 12.97 ± 0.19 μm (P < 0.05), increased the soluble dietary fiber content from 55.05 ± 2.94 to 106.86 ± 1.60 mg g−1, and improved the whiteness and water solubility index. In addition, the water holding capacity and oil holding capacity were significantly reduced (P < 0.05), while the cation exchange and swelling capacities first increased and then decreased. Up to about 70% of water in WB exists as bound water. As the Dx(50) of WB decreased, the content of bound and immobile water increased, while the free water decreased from 14.37 ± 1.21% to 7.59 ± 1.03%. Furthermore, WB was micronized and the particles became smaller and more evenly distributed. Using gas chromatography–ion mobility spectrometry, a total of 37 volatile compounds in micronized WB (including 10 aldehydes, 9 esters, 7 alcohols, and several acids, furans, ethers, aldehydes, esters, and alcohols) were identified as the main volatile compounds of WB. CONCLUSION: Collectively, ASP improved the physicochemical properties of WB. This study provides theoretical references for the use of ASP to improve the utilization and edibility of WB. © 2024 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2024

9. Natural Inhibitors of the Polyphenol Oxidase Activity Isolated from Shredded Stored Iceberg Lettuce (Lactuca sativa L.).

Author

Sierocka, Małgorzata and Świeca, Michał

Subjects

POLYPHENOL oxidase, WHEAT bran, ORANGE peel, ENZYMATIC browning, CATECHOL

Abstract

Polyphenol oxidase (PPO) is the key enzyme responsible for enzymatic browning. To extend the shelf life of shredded lettuce, knowledge about biochemical PPO properties is required. The characterization of the enzyme from shredded, cold-stored lettuce was performed using pyrocatechol and the endogenous substrate (ES) (lettuce phenolics). The optimum pH and temperature for PPO activity were 5 and 50 °C, respectively. Natural infusions used as the PPO inhibitors (IC50) were ranked as follows: lovage (0.09%), marjoram (0.13%), orange peel (0.14%), oregano (0.15%), basil (0.22%), lemon peel (0.24%), parsley leaves (0.58%), and wheat bran (1.06%). Among well-recognized PPO inhibitors, kojic acid (0.00043%), ascorbic acid (0.00053%), and L-cysteine (0.00085%) were the most effective. Among the metal ions, MgCl2, FeCl2, and CaCl2 at 0.5 mM inhibited the PPO activity most effectively (by 28%, 27%, and 21%, respectively). The substrate used (pyrocatechol/ES) significantly influenced the enzyme inhibition. Using pyrocatechol, the lovage extract acted in a mixed mode (Kmi = 27.8 mM, Vmaxi = 2.03 mU), while the ES acted according to the non-competitive mode (Kmi= 0.57 mg GAE/mL, Vmax = 0.0046 U). The study confirms that natural extracts are more effective than L-cysteine when the ES is used. A pre-storage treatment with an infusion may be potentially used to improve the quality of shredded lettuce. [ABSTRACT FROM AUTHOR]

Published

2024

10. Assessment of Fungal Decomposition Strategies as a Step Towards the Development of Sustainable Pressure Sensitive Adhesives.

Author

Castaño, Jesus D., Hauge, Drew A., Severtson, Steven J., and Zhang, Jiwei

Subjects

SOLID-state fermentation, WHEAT bran, TRAMETES versicolor, SUSTAINABLE design, FUNGAL remediation

Abstract

Water-based pressure-sensitive adhesives (PSAs) are widely used for different applications due to their cost and convenience. However, their synthesis relies on petroleum-based acrylic monomers, which negatively affects their biodegradability and recyclability. Hybrid acrylic polymers combining acrylic monomers and acrylate-functionalized lactide-based macromonomers could help solve this issue. Recently, we reported on the remarkable biodegradability of these hybrid PSAs in their latex format when using fungal treatments. In this study, we focused on the degradation of dried PSA films, a prevalent application format in commercial settings, by utilizing fungal consortia and solid-state fermentation. Our findings indicated that the type of fungal treatment, carbon source provided, and substrate thickness significantly affected biodegradation rates. The co-culture of Pestalotiopsis microspora and Trametes versicolor demonstrated particularly promising results, achieving degradation rates exceeding 50%, notably, when utilizing wheat bran as a carbon source. Moreover, the renewal of culture media and inoculum further amplified PSA biodegradation. These results underscore the potential of fungal consortia in solid-state cultures to substantially enhance the biodegradation of hybrid acrylic PSA films, offering insights for the design of more sustainable adhesive bio-based products and finally leading to an environmentally responsible end of the PSAs lifecycle. [ABSTRACT FROM AUTHOR]

Published

2024

11. Sustainable utilization of agro-industrial waste for the production of chromium tanning agent through redox synthesis for leather industry: a circular economy approach.

Author

Ramesh, Renganath Rao, Javid, Mohammed Abu, Ponnuvel, Muthukumaran, and Rathinam, Aravindhan

Abstract

Almost 90% of the leather produced globally uses basic chromium sulfate (BCS) as a tanning agent for permanent stabilization of collagen protein that is produced by reducing hexavalent chromium into trivalent chromium using either organic or inorganic reducing agents. Even though organic reduction using molasses paves a greenway toward BCS manufacture, the quantum of molasses available is insufficient for BCS production to meet global needs. On the other hand, India generates approximately 500 million tonnes of agricultural waste every year, majorly comprising crop residues of rice and wheat that are burned every year to battle surplus amounts of waste. Herein, we report a new method for BCS production using polysaccharide-rich wheat bran (WB) as a reducing agent, making it a facile method to tackle molasses non-availability and burning surplus crop residues. The offer level of WB required for BCS production was optimized to match BIS norms, and the prepared product was evaluated as a tanning agent in leather production. The mechanism of chromium reduction by WB studied using IR and NMR techniques revealed polysaccharide oxidation into aldehyde and carboxylic acid following a classic redox reaction. Additionally, a method for the synthesis of metal complexes of definite morphology using agro-industrial wastes as templates is also proposed in this work. The calculated product cost also confirmed that using WB as a reducing agent in BCS production is economically feasible. [ABSTRACT FROM AUTHOR]

Published

2024

12. Effects of water-insoluble wheat bran-fraction powder on disease activity and caecal microbiota in dextran sodium sulphate-induced inflammatory bowel disease mouse model.

Author

Koga, Kazuya, Sato, Mizuki, Okamoto, Nanase, Ogura, Hikaru, Nakamura, Ayaka, Takahashi, Hajime, and Kuda, Takashi

Abstract

Background: Water-soluble arabinoxylan exerts anti-colitic effect and exhibits ameliorative activity in an inflammatory bowel disease (IBD) mouse model. Water soluble fibre from wheat bran (WB) also exhibits anti-colitic effect. However, arabinoxylan is a primary compound of insoluble polysaccharide (hemicellulose) in WB. This study aimed to clarify the anti-IBD effects of the WB water-soluble (WBS) and water-insoluble (WBI) fractions. Methods and results: WB suspension was autoclaved and fractionated to WBS and WBI. C57BL/6 mice were divided into control (CT), dextran sodium sulphate (DSS), WBI, and WBS groups. They were fed as follows from day 1: CT, standard diet and distilled water; DSS and WBI, 3% (w/v) DSS in drinking water; WBI, 8% (w/w) WBI diet; and WBS, 50% (v/v) WBS and 3% (w/v) DSS in water. DSS group mice showed diarrhoea, body weight reduction, and blood in faeces by day 5 and colon tissue damage by day 6. These inflammatory indices were significantly inhibited by treatment with WBI. Amplicon sequencing of the 16S rDNA (V4) gene of the caecal contents of the CT, DSS, and WBI groups showed that the abundances of Escherichia, Allobaculum, and Bacteroidaceae increased and that of Faecalibaculum decreased in the DSS group. KEGG pathway prediction showed that amino acid metabolism and lipopolysaccharide biosynthesis decreased and increased, respectively, in the DSS group. However, WBI treatment tended to suppress these effects. Conclusion: WBI, rather than WBS, reduces inflammation and maintains the gut microbiota. However, further studies are warranted to elucidate the properties of the WBI active components and efficacy of WBI metabolites on gut microbiota, particularly on Faecalibaculum. [ABSTRACT FROM AUTHOR]

Published

2024

13. Aqueous phase extractable protein of wheat bran and germ for the production of liquid and semi-solid foods.

Author

Janssen, Frederik, Courtin, Christophe M., and Wouters, Arno G. B.

Subjects

*WHEAT germ, *PLANT proteins, *FLUID foods, *FOOD production, *MANUFACTURING processes, *WHEAT bran, *WHEAT

Abstract

To achieve a more sustainable global food production, a shift from animal to plant protein based food is necessary. At the same time, these plant proteins are preferentially derived from side-streams of industrial processes. Wheat bran and germ represent two major side-streams of the wheat milling industry, and contain aqueous-phase soluble proteins with a well-balanced amino acid composition. To successfully use wheat bran and germ proteins in novel plant-based liquid and semi-solid foods, they need to (i) be rendered extractable and (ii) contribute functionally to stabilizing the food system. Prior heat treatment and the occurrence of intact cell walls are important barriers in this regard. Several strategies have been applied to overcome these issues, including physical processing and (bio)chemical modification. We here present a comprehensive, critical overview of the aqueous-phase extraction of protein from (modified) wheat bran and germ. Moreover, we discuss the functionality of the extracted protein, specifically in the context of liquid (foam- and emulsion-type) and semi-solid (gel-type) food applications. In each section, we identify important knowledge gaps and highlight several future prospects that could further increase the application potential of wheat bran and germ proteins in the food industry. [ABSTRACT FROM AUTHOR]

Published

2024

14. ADDITION OF SELENIUM NANOSCALE TO HIGH DIETS WITH WHEAT BRAN AND ITS EFFECT ON MILK PRODUCTION AND COMPOSITION IN AWASSI EWES.

Author

KAREEM, OMAR MAHER, SAADI, ALI M., and ALMALLAH, OMAR D.

Abstract

The study was conducted to investigate the effect of nano selenium on feed utilization of ration containing a high ratio of wheat bran. Fifteen Awassi ewes were used with an average body weight of 51.58 ± 1.71 kg and age ranged between 3-4 years. The ewes were distributed into three groups, five in each. Through the study that lasted 72 days, ewes were fed with a restricted amount of feed, 1.5 kg of dry matter per day. The first group (control) was fed a diet high in barley grains with an optimal ratio of wheat bran (17%), while ewes in the second and third groups were fed with diets higher in wheat bran (37%) with a dosage 0.3 mg nanoselenium/ewe for ewes in third group. The results indicated that increasing the wheat bran ratio in the ewe diet led to a significant decrease (P≤0.05) in milk production in the second group 301.71 g/day, as compared to the control 390 g/day. The addition of selenium led to an improve milk production which reached to 455.15 g with a difference of 16.71%, as compared to the control. In general, milk composition of fat, protein, lactose, and solid non-fat were not affected significantly by treatments. However, the somatic cell count was significantly lower in the second period of the study in the second and third groups as compared to the control. [ABSTRACT FROM AUTHOR]

Published

2024

15. Influence of Different Lignocellulosic Materials on Laccase Activity in Liquid Fermentation of Chinese Low-temperature Straw Mushroom (Volvariella brumalis).

Author

Xue Xiong, Peng Li, Zhun Xiang, Jing Huang, and Jing Wang

Subjects

*SOLID-state fermentation, *AGRICULTURAL wastes, *WHEAT bran, *LIGNOCELLULOSE, *LACCASE, *WOOD waste

Abstract

The laccase activity of a low-temperature strain of Volvariella brumalis was studied using different lignocellulosic biomasses for liquid fermentation. The results showed that the laccase activity induced by wheat bran or pressed rapeseed residue was higher than the other auxiliary cultivation substrates. Compared to other primary cultivation substrates, Quercus acutissima sawdust and rice straw not only stimulated V. brumalis to produce more laccase in liquid fermentation, but also promoted better mycelial growth in solid-state fermentation. Therefore, these agricultural and forestry wastes should be prioritized as culturing materials of V. brumalis for laccase high-secretion and hyphal growth to increase production of V. brumalis. [ABSTRACT FROM AUTHOR]

Published

2024

16. In vitro and in vivo investigation of the biological action of xylooligosaccharides derived from industrial waste.

Author

Chinbat, Odgerel, Erdenetsog, Purevdulam, Tuvshintur, Buyankhuu, Gantumur, Anuujin, Burenjargal, Munkhjargal, Chimeddorj, Battogtokh, and Janlav, Munkhtsetseg

Subjects

*BREWER'S spent grain, *LACTOBACILLUS fermentum, *LACTOBACILLUS casei, *INDUSTRIAL wastes, *AGRICULTURAL wastes, *WHEAT bran

Abstract

Xylooligosaccharides (XOS) are prebiotics of significant biological value that can be obtained through cost‐effective purification of agricultural waste. The present research featured in vitro and in vivo investigation of prebiotic effects of xylooligosaccharides derived from wheat bran powder and brewer's spent grain. Prebiotic activity of Lactobacillus. fermentum, Lactobacillus. casei, and Bifidobacterium spp. was investigated in vitro using standard selective media. 16S rRNA quantitative PCR used for in vitro and in vivo investigation quantified relative abundance of Bifidobacterium spp., Lactobacillus spp., and Akkermansia. muciniphila in samples of fecal matter, cecal content, and intestinal tissue. Research revealed a favorable association between XOS concentration and both bacterial count and diameter of resultant colonies. The standard strain of L. casei showed no noticeable effect on growth rate. Bifidobacterium spp. proliferation in intestinal tissue was validated via in vivo tests using XOS obtained from wheat bran powder and brewer's spent grain. Findings indicated increased prevalence of the A. muciniphila species and the presence of XOS showed a protective function in preserving the structural integrity of intestinal mucus secretions. The presence of XOS in food indicated direct association with proliferation of Bifidobacterium spp. and A. muciniphila spp. Study results suggest that XOS extracted through enzymatic hydrolysis in Mongolian food industry by‐products such as wheat bran products and brewer's spent grain exhibit prebiotic properties that justify XOS manufacture on a large scale and incorporation of XOS as nutritional enhancement in food products and pharmaceuticals. [ABSTRACT FROM AUTHOR]

Published

2024

17. Aflatoxins Levels in Concentrate Feeds Collected from Specialized Dairy Farms and Local Markets in Selected Urban Centers of Eastern Ethiopia.

Author

Tesfaye, Angassa, Kurtu, Mohammed Yusuf, Mummed, Yesihak Yusuf, and Mohammed, Abdi

Subjects

*FEED contamination, *FOOD safety, *AFLATOXINS, *CONCENTRATE feeds, *DAIRY farmers

Abstract

Aflatoxin constitutes a significant concern for food and feed safety, posing detrimental health risks to both animals and humans. This study aimed to examine the prevalence and concentration of aflatoxins in maize feed, total mixed ration, and wheat bran collected from specialized dairy farms and local markets in three major urban centers in eastern Ethiopia. A total of 180 feed samples were collected from September 2021 to January 2022 in Chiro town, Dire Dawa city, and Harar city. These samples underwent thorough extraction and immunoaffinity clean-up before aflatoxin analysis using HPLC/FLD. The results revealed that AFB1, AFB2, AFG1, AFG2, and TAF contamination was detected in 72.2%, 66.1%, 71.1%, 68.7%, and 82.8% of the feed samples, respectively. The corresponding mean levels of each aflatoxin were 28.15 ± 3.50, 3.3 ± 0.40, 19.87 ± 1.87, 2.7 ± 0.32, and 54.01 ± 4.72 µg/kg, respectively. The occurrence and levels of aflatoxin varied across different study sites and feed types. Notably, feeds from Dire Dawa city exhibited significantly higher mean levels of AFB1 (43.98 ± 5.3 µg/kg), AFB2 (5.69 ± 0.6 µg/kg), AFG1 (32.25 ± 2.7 µg/kg), and AFG2 (5.01 ± 0.5 µg/kg) than feeds from other urban centers did. Additionally, a significantly higher occurrence of AFB1 (29.4%) and AFG1 (28.3%) was detected in feed from Dire Dawa city. Similarly, the total mixed ration (TMR) displayed significantly higher levels of AFB1 (50.67 ± 5.2 µg/kg), AFB2 (4.74 ± 0.6 µg/kg), AFG1 (32.87 ± 2.6 µg/kg), and AFG2 (3.86 ± 0.5 µg/kg) compared to the other feed types. Moreover, a significantly higher occurrence of AFB1 (30.7%) and AFG1 (28.7%) was detected in the TMR. Furthermore, a moderate correlation was observed between the count of aflatoxigenic Aspergillus species and the levels of TAF in the feed samples. Overall, this study underscores the widespread presence of aflatoxin contamination in dairy feeds in eastern Ethiopia, highlighting the urgent need for stringent monitoring and mitigation measures to ensure food and feed safety, as well as public health. [ABSTRACT FROM AUTHOR]

Published

2024

18. Prospects and Application of Solid-State Fermentation in Animal Feed Production – A Review.

Author

Betchem, Garba, Monto, Abdul Razak, Lu, Feng, Billong, Laura Flavorta, and Ma, Haile

Subjects

*SOLID-state fermentation, *FERMENTATION of feeds, *COMPOSITION of feeds, *ANIMAL feeds, *RAPESEED meal, *WHEAT bran

Abstract

Animal feed production has recently received significant attention in the food and livestock sectors due to its high nutritional value and substantial environmental potential. Extensive studies have been conducted to explore the effects of solid fermented feeds on different growth stages of animals but also on the health status of animals, the quality of animal products, and the composition of intestinal micro-flora to replace non-fermented feed production. The purpose of this review is to provide up-to-date existing trends, recent developments, and prospects of solid-state fermentation (SSF) practices for the production of animal feeds. Studies on enhancing nutritional factors by increasing the crude protein content, enzymes, and antioxidant activity of feed using physical processing methods on agro-industrial waste such as rapeseed meal, cottonseed, wheat bran, soybean meal, and legumes by mainly SSF are reviewed and discussed thoroughly. [ABSTRACT FROM AUTHOR]

Published

2024

19. Evaluating the Net Energy Requirements for Maintenance Based on Indirect Calorimetry and Heart Rate Monitoring in Gestating Sows.

Author

Li, Zhe, Gao, Wenjun, Shi, Huangwei, Xu, Song, Zeng, Zhengcheng, Wang, Fenglai, Lai, Changhua, and Zhang, Shuai

Subjects

*HEART rate monitors, *HEART rate monitoring, *YORKSHIRE swine, *WHEAT bran, *ANIMAL welfare, *PREGNANCY in animals, *METABOLIZABLE energy values, *SWINE farms

Abstract

Simple Summary: This study was conducted to ascertain the net energy requirements for maintenance in gestating sows utilizing indirect calorimetry, and to evaluate the potential of daily heart rate monitoring as a predictive method for these energy needs. In the first experiment, six sows were subjected to varying energy intake levels, and their heat production was measured to determine energy requirements. In the second experiment, heart rate data were collected to explore its predictive value. The results indicated that the net energy requirements for maintenance averaged 410 kJ/BW0.75·d−1 during late gestation, and it was also found that heart rate monitoring could accurately predict energy requirements, offering a practical tool for managing sow nutrition. These insights are instrumental for refining feeding strategies within pig production, leading to enhanced animal welfare and improved economic efficiency. The objectives of this study were (1) to determine the net energy requirements for the maintenance of gestating sows based on indirect calorimetry, and (2) to explore the feasibility of predicting the net energy requirements for the maintenance of gestating sows based on daily heart rate monitoring. In Exp. 1, six Landrace × Yorkshire crossbred reproductive sows with an initial body weight of 229.5 ± 14.9 kg at d 56 of gestation were randomly assigned to six diverse energy feeding levels using a 6 × 6 Latin square design. The experimental diet was formulated using corn, soybean meal, and wheat bran as major ingredients, and the six feeding levels were set as 1.2, 1.4, 1.6, 1.8, 2.0, and 2.2 times metabolizable energy for maintenance (100 kcal ME/kg BW0.75·d−1), respectively. The animal trial lasted for six periods with 9 days per period, encompassing 5 days of adaptation, 3 days of calorimetry in fed state, and 1 day of calorimetry in fasting state. In Exp. 2, six Landrace × Yorkshire crossbred pregnant sows with an initial body weight of 232.5 ± 12.5 kg at d 64 were fed a corn–soybean meal diet. All sows were tested in a respiratory calorimetry chamber for a 4 day calorimetry test. The heat production of the gestation sows was measured every 5 min using indirect calorimetry, and the heart rate of the gestating sows was recorded every minute using a belt-shape monitor. The results showed that the net energy requirements for the maintenance of gestating sows significant increased as the gestational stage progressed (p < 0.05), and a linear regression model revealed the average net energy requirement for the maintenance of gestating sows was 410 kJ/BW0.75 d−1 during late gestation (days 70–110). Moreover, the average heart rate of the gestating sows was 84 bpm, and the mathematical model developed to predict the net energy requirements for the maintenance of gestating sows was N E m (k c a l / h) = 1990 1 + e x p ⁡ [ 136 − H R (b p m) 43 ] . In conclusion, the average net energy requirement for the maintenance of sows during late gestation was 410 kJ/BW0.75 d−1, and the utilization of the heart rate monitoring method was found to provide a relevant, accurate prediction for the net energy requirements of sows. [ABSTRACT FROM AUTHOR]

Published

2024

20. Role of Metabolomics and Metagenomics in the Replacement of the High-Concentrate Diet with a High-Fiber Diet for Growing Yushan Pigs.

Author

Xie, Min, Fei, Dan, Guang, Yelan, Xue, Fuguang, Xu, Jun, and Zhou, Yaomin

Subjects

*HIGH-fiber diet, *SWINE growth, *HIPPURIC acid, *ABDOMINAL adipose tissue, *RICE bran, *WHEAT bran

Abstract

Simple Summary: The objective of this study was to investigate the regulatory effects of replacing a high-concentrate diet with a high-fiber content feed, which consists of wheat bran, rice bran, and corn bran, on the productive performance, meat quality, and fat acid composition. Our findings showed that increasing dietary fiber content significantly increased average daily feed intake (ADFI), up-regulated carbohydrate metabolism-related metabolites, proliferated abundances of fiber-degradable microbial communities, such as Lactobacillus and Bifidobacterium, and significantly down-regulated lipid metabolism and cofactors and vitamin metabolism. Our findings indicated that higher dietary fiber content significantly reduced dietary energy provision, effectively decreased the backfat and abdominal fat content of Yushan pigs through proliferating intestinal fiber-degradable bacteria, and up-regulating the hepatic lipolysis-related gene expression. This finding may provide an altered method for rearing domestic Chinese pigs. The objective of this study was to investigate the regulatory effects of a high-fiber content feed on the productive performance, meat quality, and fat acid composition. A total of 18 120-day-old Yushan pigs with similar initial body weight were randomly allotted into high-concentrate diet (high energy, HE) and high-fiber diet (low energy, LE) treatments for the determination of regulatory effects on productive performance, meat quality, and fatty acid content. Further, blood metabolomic, gut microbiota, and liver energy-related gene expression measurements were used to investigate the underlying mechanisms. Results showed that the LE treatment significantly increased ADFI while decreasing carcass weight, fat percentage, and IMF. Metabolomic results showed that the high-fiber treatment significantly down-regulated metabolites that participated in lipid metabolism such as cyclic ADP-ribose and hippuric acid, while up-regulated metabolites were mainly enriched in nitrogen metabolism such as DL-arginine and propionylcarnitine (p < 0.05). Microbial results showed relative abundances of Lactobacillus and Bifidobacterium are significantly proliferated in the high-fiber feeding treatments (p < 0.05). Transcriptomic results showed that genes mainly enriched into the lipid metabolism are significantly up-regulated under the high-fiber dietary treatment (p < 0.05). Conclusion: higher dietary fiber significantly reduced dietary energy provision, effectively decreased the backfat and abdominal fat content of Yushan pigs through proliferating intestinal fiber-degradable bacteria, and up-regulating the hepatic lipolysis-related gene expression. [ABSTRACT FROM AUTHOR]

Published

2024

21. Utilization of wheat bran protein isolate as a fortifier for production of high protein yoghurts.

Author

Slavíková, Zuzana, Smatana, Igor, Diviš, Pavel, Smilek, Jiří, Slaninová, Eva, and Pořízka, Jaromír

Subjects

*WHEAT proteins, *RHEOLOGY, *BACTERIAL growth, *YOGURT, *AGE groups, *WHEAT bran

Abstract

Yoghurts with increased protein content are becoming very popular and beneficial across all age groups. The economic growth of the high-protein yoghurt market contributes to the production and research of various alternatives for these products. In this study, plain yoghurt was fortified with 2 % and 5 % wheat bran protein isolate (WBPI) before fermentation. The influence of the addition of WBPI on nutritional and rheological characteristics, bacteria growth, and sensory properties of yoghurt samples was evaluated. Apart from the nutritional benefits of wheat bran proteins, which have a favourable amino acid profile, fortification also resulted in changes in the rheological properties of the yoghurts. The increase in dry matter led to an increase in water holding capacity and, consequently, the viscosity of the yoghurt samples. The presence of WBPI did not affect bacterial growth or the fermentation process. However, the natural bitter taste of WBPI persisted even after the fermentation process, negatively influencing the sensory acceptability of WBPI-fortified yoghurt samples. [ABSTRACT FROM AUTHOR]

Published

2024

22. Fertilizing synbiotic system with different vegetable brans: effects on nitrification, plankton composition, and growth of Penaeus vannamei in the nursery phase.

Author

Pimentel, Otávio Augusto Lacerda Ferreira, Wasielesky Jr, Wilson, da Silva, Natália Pereira, do Valle Borges, Lucélia, and Krummenauer, Dariano

Subjects

*WHITELEG shrimp, *BACILLUS licheniformis, *BACILLUS subtilis, *SYNBIOTICS, *BACTERIAL communities, *RICE bran, *WHEAT bran

Abstract

The aim of this study was to evaluate the effect of using different vegetable brans as organic carbon source in synbiotic system fertilization on the nitrification process, plankton composition, and growth of Penaeus vannamei in the nursery phase, also comparing it with the biofloc system. An extended nursery rearing was carried out for 53 days, at a density of 2000 shrimp m−3 (initial weight: 0.03 ± 0.01 g). The following treatments were established, with five repetitions: CW, clear water (control); BFT, biofloc system; RB, synbiotic system fertilized with rice bran; SB, synbiotic system fertilized with soybean bran; and WB, synbiotic system fertilized with wheat bran. The synbiotic fertilization protocol used a commercial blend of Bacillus subtilis and Bacillus licheniformis, molasses, sodium bicarbonate as buffer, and water. The fertilizers were processed by an anaerobic (24 h) and an aerobic (24 h) phase. BFT treatment used molasses as organic carbon source. At the end of the trial, final weight was higher in CW, BFT, and RB treatments than in WB. In RB, SB, and WB treatments, TAN was controlled between days 10 and 14 and NO2−-N was controlled from day 40 of the trial, resembling a newly started system. At the end of the trial, a higher abundance of coccoid and bacillus was observed in the RB treatment, while a higher abundance of vibrio bacteria was observed in WB. Rice bran proved to be the best alternative for the synbiotic fertilization, as it presented a final weight (3.27 g) similar to BFT and CW treatments, and higher than WB (2.61 g). Also, the use of rice bran produced a high load of microorganisms, which can improve shrimp growth. [ABSTRACT FROM AUTHOR]

Published

2024

23. Determination and prediction of standardized ileal amino acid digestibility of wheat bran in broiler chickens.

Author

Xingbo Liu, Xianglong Yun, Zichen Cheng, Yuming Guo, Jianmin Yuan, and Wei Nie

Subjects

*FEED analysis, *GLUTAMIC acid, *BROILER chickens, *WHEAT as feed, *TITANIUM dioxide, *WHEAT bran

Abstract

Objective: The objective of this experiment was to determine the standard ileal digestibility (SID) of amino acid (AA) in 10 different sources of wheat bran fed to broilers and establish the SID AA prediction based on the chemical composition. Methods: A total of 660 1-day-old broilers were randomly divided into 11 treatments with 6 replicates of 10 chickens each. Diets included 10 semi-purified mash diets and 1 nitrogenfree diet. Titanium dioxide (TiO2) 0.50% was used as an indigestible index. On day 13, 6 chickens from each replicate were selected for slaughter to collect ileal contents. On day 28, 4 chickens from each replicate were selected for slaughter to collect ileal contents. Results: Results showed that the coefficient of variation of the conventional nutrients (except for gross energy, and dry matter) and all AAs was greater than 8.00%. The average SID of essential AA in wheat bran for 13-day-old broilers was 37.24% and the average SID of nonessential AA was 42.02%; the average SID of essential AA for 28-day-old broilers was 67.13% and the average SID of nonessential AA was 69.51%. A correlation was observed (p<0.05) between most SID AA and crude protein (CP), crude fiber (CF), acid detergent fiber (ADF), and ash at day 13. A correlation was observed (p<0.05) between most SID AA and CF, and ADF at day 28. The R² value of stepwise regression equations for predicting the SID AA at day 13 and day 28 was best for glutamic acid (R² = 0.97 using CP, ash, CF, ether extract (EE), and neutral detergent fiber [NDF]) and lysine (R² = 0.74 using ash, ADF, EE, and NDF), respectively. Conclusion: In conclusion, broiler age had a significant effect on the SID AA values of wheat bran. The chemical composition of wheat bran varied widely between sources, and CP, CF, ADF, NDF, and ash were reasonable predictors of the SID AA of wheat bran. [ABSTRACT FROM AUTHOR]

Published

2024

24. PRODUCTION OF CELLULOLYTIC ENZYMES BY PAECILOMYCES TP08 USING GRAPE STALK AND WHEAT BRAN AS SUBSTRATES IN SOLID STATE CULTURE.

Author

Vitória de Santana Cabral, Emmely, de Souza Pontes Andrade, Eline, Aparecida de Sousa Silva, Hellen, Albino Morais, Maria Luiza, Barbosa de Sousa, Adna Cristina, and Farias de Almeida, Andréa

Subjects

FUNGAL enzymes, BIOCHEMICAL substrates, GRAPES, PAECILOMYCES, BIOTECHNOLOGY, WHEAT bran

Abstract

Copyright of Environmental & Social Management Journal / Revista de Gestão Social e Ambiental is the property of Environmental & Social Management Journal and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

25. Conversion of wheat bran into fermentable sugars using deep eutectic solvent pretreatment in a high-pressure reactor.

Author

Hosta Yavuz, Hatice Gozde, Yavuz, Ibrahim, Yakan, Asli Isci, and Turhan, Irfan

Abstract

In the present work, a systematic study has been performed to optimize the pretreatment of lignocellulosic biomass (wheat bran (WB)) to maximize fermentable sugar content by using an effective combination of high-pressure and deep eutectic solvents (DES). First, DES type and molar ratios were compared to determine the most suitable condition for the pretreatment at high-pressure reactor (HPR). This was performed with a two-stage pretreatment. WB samples were mixed with choline chloride (ChCl):glycerol and ChCl:acetic acid at different molar ratios (1:2, 1:4, and 1:6) and treated at 80 °C for 24 h in a water bath (conventional DES treatment). Then, DES-applied biomass was mixed with 1.99% (v/v) sulphuric acid solution at 121 °C in an autoclave for 1 min. ChCl:glycerol (1:2 molar ratio) and ChCl:acetic acid (1:2 molar ratio) provided the highest fermentable sugar concentrations (FSCs), 72.54 and 69.77 g/L, respectively. Therefore, the experiments in the high-pressure reactor (HPR) were continued with the aforementioned DES types. The effects of temperature (T, 100–150 °C), time (t, 20–40 min) and liquid-to-solid ratio (LSR, 4–10 w/w) on the FSCs in the HPR were examined using Box–Behnken Design (BBD) of response surface methodology (RSM). FSC and total phenolic substance concentration (TPC) were selected as dependent variables. In addition, the levels of sugars (glucose, xylose, fructose, sucrose, maltose and arabinose) and furans (furfural and 5-hydroxymethylfurfural (HMF)) in the samples were also measured after the pretreatment. Based on the results, the optimal pretreatment conditions were found as 130 °C, 27 min and 4 w/w liquid-to-solid ratio with ChCl: glycerol (1:2). Under optimal conditions, FSC and TPC were 75.43 g/L and 0.41 g GA/L. The results showed that DES pretreatment in the HPR is a promising technology that can be successfully implemented for the pretreatment of lignocellulosic biomass resulting in high sugar yields. [ABSTRACT FROM AUTHOR]

Published

2024

26. Wheat Bran and Saccharomyces Cerevisiae Biomass' Effect on Aerobic and Anaerobic Degradation Efficiency of Paper Composite.

Author

Markevičiūtė, Zita, Guerreschi, Arianna, Menin, Glauco, Malpei, Francesca, and Varžinskas, Visvaldas

Subjects

WHEAT bran, FOOD packaging, PACKAGING materials, SACCHAROMYCES cerevisiae, BIODEGRADABLE materials, COMPOSTING

Abstract

This study is a continuation of research on sustainable food packaging materials made from locally available feedstock and industrial by-products within the Baltic Sea region. Its main focus is the impact of wheat bran filler and Saccharomyces cerevisiae additive, which was used to develop a novel bio-coating for paper composite packaging, on the biodegradation efficiency of paper composites under aerobic and anaerobic conditions. In this study, we analyzed the effect of 15% and 40% concentrations of wheat bran filler and Saccharomyces cerevisiae biomass on the biodegradation efficiency of paper composites. This research was conducted under controlled environmental conditions, with aerobic biodegradation tested at 46 °C in a compost-based mesophilic–thermophilic environment and anaerobic biodegradation tested at 55 °C in an active inoculum thermophilic environment. The results show that the presence of wheat bran filler significantly improves biodegradation efficiency compared to microcrystalline cellulose reference material. Under aerobic conditions, the biodegradation efficiency for the 40% wheat bran and yeast sample was 6.34%, compared to only 0.71% for the cellulose reference material. In anaerobic conditions, the 15% wheat bran and yeast sample showed a biodegradation efficiency of 96.62%, compared to 82.32% for the cellulose reference material. [ABSTRACT FROM AUTHOR]

Published

2024

27. Solid-State Fermentation of Wheat Bran with Clostridium butyricum : Impact on Microstructure, Nutrient Release, Antioxidant Capacity, and Alleviation of Ulcerative Colitis in Mice.

Author

Zhang, Heng, Zhang, Min, Zheng, Xin, Xu, Xiaofang, Zheng, Jiawen, Hu, Yuanliang, Mei, Yuxia, Liu, Yangyang, and Liang, Yunxiang

Subjects

WHEAT bran, ULCERATIVE colitis, SOLID-state fermentation, SHORT-chain fatty acids, CLOSTRIDIUM butyricum, ARABINOXYLANS, DEXTRAN

Abstract

This study investigated the effects of solid-state fermentation with Clostridium butyricum on the microstructure of wheat bran, the release of dietary fiber and phenolic compounds, and antioxidant capacity. Compared with unfermented wheat bran, insoluble dietary fiber and phytic acid content decreased, whereas soluble dietary fiber and water-extractable arabinoxylan content increased in C. butyricum culture. Because of the increased release of phenolic compounds, such as ferulic acid and apigenin, and organic acids, such as isobutyric acid, the antioxidant capacity of the culture was considerably improved. Furthermore, the culture of C. butyricum treated with dextran sulfate sodium-induced ulcerative colitis in mice enhanced the expression of intestinal mucus and tight-junction proteins, modulating the gut microbiota structure, increasing the levels of short-chain fatty acids in the intestine, and restoring the essential functions of the gut microbiota. These anti-inflammatory effects stemmed from the combined action of various effective components. [ABSTRACT FROM AUTHOR]

Published

2024

28. Kinetics of cellulase-free endo xylanase hyper-synthesis by Aspergillus Niger using wheat bran as a potential solid substrate.

Author

Ali, Sikander, Noor, Pakeeza, Ahmad, Muhammad Usman, Khan, Qaiser Farid, William, Kaynat, Liaqat, Iram, Shah, Tawaf Ali, Alsahli, Abdulaziz Abdullah, Younous, Youssouf Ali, and Bourhia, Mohammed

Subjects

*STABILITY constants, *WHEAT bran, *ASPERGILLUS niger, *XYLANASES, *CARBOXYMETHYLCELLULASE, *SOLID-state fermentation

Abstract

The present study deals with the production of cellulase-free endoxylanase by Aspergillus niger ISL-9 using wheat bran as a solid substrate. Endoxylanase was produced under a solid-state fermentation. Various growth parameters were optimized for the improved production of the enzyme. The Substrate level of 15 g was optimized as it provided the fungus with balanced aeration and nutrition. Among the six moisture contents investigated, Moisture Content 5 (MC5) was optimized (g/l: malt extract, 10; (NH4)2HPO4, 2.5; urea, 1.0) and 10 mL of MC5 was found to give the highest production of endoxylanase. The pH and time of incubation were optimized to 6.2 and 48 h respectively. The Inoculum size of 2 mL (1.4 × 106 spores/mL) gave the maximum enzyme production. After optimization of these growth parameters, a significantly high endoxylanase activity of 21.87 U/g was achieved. Very negligible Carboxymethylcellulase (CMCase) activity was observed indicating the production of cellulase-free endoxylanase. The notable finding is that the endoxylanase activity was increased by 1.4-fold under optimized conditions (p ≤ 0.05). The overall comparison of kinetic parameters for enhanced production of endoxylanase by A. niger ISL-9 under Solid State Fermentation (SSF) was also studied. Different kinetic variables which included specific growth rate, product yield coefficients, volumetric rates and specific rates were observed at 48, 72 and 96 h incubation time and were compared for MC1 and MC5. Among the kinetic parameters, the most significant result was obtained with volumetric rate constant for product formation (Qp) that was found to be optimum (1.89 U/h) at 72 h incubation period and a high value of Qp i.e.1.68 U/h was also observed at 48 h incubation period. Thus, the study demonstrates a cost-effective and environmentally sustainable process for xylanase production and exhibits scope towards successful industrial applications. [ABSTRACT FROM AUTHOR]

Published

2024

29. Non-antibiotic feed additives production by Acremonium terricola solid-fermented Camellia oleifera meal.

Author

Zhang, Peng, Xiong, Ying, Bi, Luanluan, Zhong, Haiyan, Ren, Jiali, and Zhou, Bo

Subjects

CAMELLIA oleifera, FEED additives, SOLID-state fermentation, RICE bran, WHEAT bran, CHITIN, SAPONINS

Abstract

The Camellia oleifera meal (COM), a primary byproduct of oil-tea processing, often being discarded or used as a low-grade fertilizer due to its low value. The underutilization has become a significant bottleneck hindering the high-quality development of the oil-tea industry. In this study, the production of antibiotic-free feed additives through the solid-state fermentation of COM by Acremonium terricola was investigated. Our findings revealed that a saponin concentration of 5 mg/mL significantly enhanced the production of cordycepic acid (70.4 mg/g), ergosterol (3.32 mg/g), and chitin (110 mg/g) by A. terricola. This concentration also promoted chitin production and the activities of peroxidase (POD) and Na+/K+-ATPase, thereby maintaining cellular homeostasis and energy balance in A. terricola. Solid-state fermented rice bran (RB), wheat bran (WB), and desaponificated COM (containing 2.6 mg/100 g of tea saponin) were all found to be beneficial for increasing the production of cordycepic acid and ergosterol. The blend of COM, RB, and WB in the ratio of 15:65:20 was particularly advantageous for the production and accumulation of cordycepic acid and ergosterol, yielding 1.54 and 1.43 times, 1.27 and 1.37 times, and 1.98 and 5.52 times more than those produced by WB, RB, and COM alone, respectively.Meantime, the difference in contents of sugar and protein in A. terricola cultures (ATCs) using combination were not significant compared to RB and WB. These results indicated that COM can partially replace foodstuffs or food by-products to prepare antibiotic-free feed additives by A. terricola. [ABSTRACT FROM AUTHOR]

Published

2024

30. Interaction of Wheat Bran Particle Size and Stimbiotic Supplementation on Growth Performance and Gut Health Parameters in Broilers.

Author

Veluri, Shravani, Bedford, Mike R., Gonzalez-Ortiz, Gemma, and Olukosi, Oluyinka Abiona

Subjects

*SHORT-chain fatty acids, *WEIGHT gain, *PARTICULATE matter, *DIETARY supplements, *FEED additives, *POULTRY growth, *WHEAT bran

Abstract

Simple Summary: Wheat bran inclusion beneficially affects the gut health of broilers at low inclusion levels, along with the supplementation of feed additives such as with a stimbiotic It was hypothesized that the coarse or fine particle size of the wheat bran has a significant influence and interaction with stimbiotic on the performance of, and gut-health beneficial effects, in broilers. Coarse- or fine-wheat-bran inclusion or stimbiotic inclusion increased the feed intake and FCR for younger broilers; however, fine wheat bran and stimbiotic inclusion increased the overall weight gain of broilers without influencing their feed intake and FCR. Fine-wheat-bran inclusion increased the jejunum villi height and ileal nutrient digestibility compared to coarse wheat bran or diets without wheat bran in broilers at day 18. Stimbiotic supplementation increased ileal nutrient digestibility at day 42. The particle size of the wheat bran or stimbiotic supplementation had no effects on the cecal total short-chain fatty acid concentration; however, stimbiotic supplementation or wheat bran inclusion tended to decrease the branched-chain fatty acid concentration. Stimbiotic supplementation and inclusion of wheat bran with a reduced particle size into broiler diets have beneficial effects on the overall performance and ileal nutrient digestibility. A 42-day study was conducted with 720-day-old Cobb male broiler chicks allocated to treatments in a 3 × 2 factorial, with the factors as wheat bran (WB) inclusion (no WB, 50 g/kg coarse WB, or 50 g/kg fine WB) and stimbiotic (STB) supplementation in corn-based diets. The inclusion of WB (p < 0.05) or STB supplementation (p < 0.05) increased the FCR and feed intake in the day 0–10 phase. During the day 0–28 phase, coarse-WB inclusion increased (p < 0.05) the FCR, compared to fine WB or diets without WB. In the day 0–42 phase, WB marginally decreased weight gain in diets without STB supplementation, but the STB-supplemented diet, weight gain was greater (p < 0.05) the diet with fine WB compared with diets with coarse WB. Fine-WB inclusion increased the ileal nitrogen and energy digestibility determined at day 18 compared to coarse WB or diets without WB. Supplementation with STB (p < 0.05) or fine WB (p < 0.05) inclusion increased the villi height compared to diets without STB supplementation or coarse WB, or the diet without WB. Coarse or fine WB decreased (p < 0.05) cecal branched-chain fatty acids compared to diets without WB. In conclusion, stimbiotic supplementation to fine WB improved the performance and nutrient digestibility of broilers compared to coarse WB with no effects on the caeca total SCFA concentration. [ABSTRACT FROM AUTHOR]

Published

2024

31. Optimisation and physicochemical characterisation of a thermo-alkali stable laccase produced by wastewater associated Bacillus sp. NU2.

Author

Edoamodu, Chiedu E. and Nwodo, Uchechukwu U.

Subjects

POLLUTANTS, CHEMICAL inhibitors, WHEAT bran, TRITON X-100, ORGANIC solvents, LACCASE

Abstract

Laccase is a multicopper enzyme that plays a unique role in bioremediation of environmental pollutants. Bacteria were isolated from hospital wastewater and screened for laccase production. The laccase production process condition was optimised, and the laccase obtained was characterised. The 16S rRNA molecular analysis conducted on the best laccase producer revealed a Bacillus sp. NU2 identified. The process conditions: pH5, 45°C, 100 rpm, 5% inoculum, and growth constituents viz: tangerine peel and wheat bran agro-wastes, beef extract, ammonium persulfate, glucose, galactose, xylose, sorbitol, fructose carbon sources; and 4-aminophenol inducer optimally stimulated laccase production. The Bacillus sp. NU2 laccase was optimal at pH and temperature conditions of 8.0°C and 60°C, with a noteworthy pH and thermal stability observed. Furthermore, NU2 laccase showed a moderate/high tolerance and relative activity effect on various chemical inhibitors, halides and surfactant of triton x-100 (105 ± 0.92%), PMSF (107 ± 0.81%), and NaCl (94 ± 0.81%) at 1, 3, and 6 (mM) concentration. Additionally, NU2 laccase maintained a relative activity of 101%, 104%, and 102% for Mg2+, Zn2+, and Fe3+ at 1, 3, and 6 mM respectively. Acetone and propanol significantly upregulated laccase activity at 114 ± 0.0008% and 118.24 ± 0.35 and also at 30 and 20 (%) concentrations. Conclusively, the tolerant effect of Bacillus sp. NU2 laccase in pH, temperature, inhibitors and organic solvents suggests its potential for biotechnological application and promotion of a greener environment. [ABSTRACT FROM AUTHOR]

Published

2024

32. Evaluating the Suitability of Orange Pulp Meal as a Partial Substitute of Corn on the Chemical and Sensorial Properties of Broiler Meat (Pectoralis major).

Author

Ahmed Readh, CHAIB EDDOUR, Miloud, LITIM, Abdelkarim, LARBAOUI, Kaddour, BOUDEROUA, Chaima, BELHOCINE, Islam, BOUZADI Imane, Nacer Eddine, AKLIL Oussama, Messaouda, SOUALEH MOHAMED, and Eddine, CHEMANI Allaa

Subjects

*PEARSON correlation (Statistics), *WHEAT bran, *CHEMICAL properties, *MEAT quality, *DIET, *SOYBEAN meal

Abstract

Background: The study aimed to assess the effect of a partial dietary substitution of corn with dried orange pulp (DOP) powder in broiler diets and their effect on Pectoralis major meat quality. Furthermore, the study investigated the relationship between physicochemical parameters and sensory characteristics of breast meat even of control and experimental broilers groups. Methods: Four dietary treatments namely basal diet (control), 5, 10 and 15% DOP were given to 200 broilers 16 days-old for 49 days. Throughout all breeding periods, the control group was fed a diet primarily composed of corn, soybean meal and wheat bran. The experimental groups were given the same initial diet as the control group, but their grower and finisher diets contained 5%, 10% and 15% of orange pulp powder respectively. Physicochemical parameters, proximate composition, lipid oxidation index and sensory characteristics of broiler breast muscle were determined. Result: Significant decreases in moisture and fats were observed in the experimental groups (P<0.0001). However, the experimental diets positively affected the lipid oxidation of breast meat samples, as indicated by the lower malondialdehyde content (P<0.05). The partial substitution with orange pulp powder did not show an effect (P>0.05) on sensory attributes of breast meat except for overall acceptability by the degustation panel. According to the panel degustation results, the flavor in experimental diets breast meat had a significant correlation on some sensory characteristic like juiciness and color of experimental breast samples (P<0.001). Pearson's correlation revealed that flavor of control breast meat was negatively correlated with 2 physicochemical parameters (pH and lipid peroxidation). Similarly, the flavor of experimental groups was negatively correlated with the sensory attributes (juiciness and color). Additionally, a significant positive correlation was found between juiciness and the parameters (color and pH) of experimental meat. [ABSTRACT FROM AUTHOR]

Published

2024

33. Effects of fermented flammulina mushroom bran on growth performance, meat quality, and breeding cost of mutton sheep.

Author

WANG Dong and ZHU Ling

Subjects

*MEAT quality, *SHEEP breeding, *SHEEP, *BRAN, *WHEAT bran, *MUSHROOMS, *DIETARY supplements, *WEIGHT gain

Abstract

The experiment aimed to explore the effects of different levels of fermented flammulina mushroom bran on the growth performance, meat quality, and breeding cost of mutton sheep. A total of 60 healthy Hu sheep with similar body weight were randomly divided into five groups, with 12 replicates per group and one Hu sheep per replicate. The mutton sheep in each group were fed a basic diet supplemented with 0, 10%, 20%, 30%, and 40% fermented flammulina mushroom bran, respectively, substituting an equivalent amount for the whole-plant corn silage in the basic diet. The preliminary trial period was 7 days, and the formal trial period was 60 days. The results showed that compared with the control group, feeding 20% and 30% fermented flammulina mushroom bran significantly increased the final weight and average daily weight gain of mutton sheep (P<0.05), and significantly reduced the feed-to-gain ratio (P<0.05). Compared with the control group, feeding 20% and 30% fermented flammulina mushroom bran significantly increased the carcass weight, slaughter rate, net meat weight, and net meat rate of mutton sheep (P<0.05), significantly improved the muscle redness and cooked meat rate (P<0.05), significantly increased the muscle pH value at 24 hours and muscle fiber density of mutton sheep (P<0.05). Feeding 20% fermented flammulina mushroom bran significantly reduced the muscle drip loss of mutton sheep (P<0.05). Feeding 10% to 40% fermented flammulina mushroom bran significantly increased the muscle fiber area of mutton sheep (P<0.05). Feeding fermented flammulina mushroom bran can increase the weight gain income of mutton sheep, improve breeding profitability, and the breeding profit of Hu sheep in each fermented flammulina mushroom bran group increased by 16.23%, 41.52%, 31.64%, and 2.19% compared to the control group. The study indicates that adding an appropriate amount of fermented flammulina mushroom bran to the diet of mutton sheep can improve the growth performance and meat quality, enhance the slaughter performance, reduce the breeding costs, and increase the breeding profit, with an optimal addition level of 20%. [ABSTRACT FROM AUTHOR]

Published

2024

34. DETERMINATION OF DEEP RED REMOVAL POTENTIAL OF ACTIVATED CARBON PRODUCED FROM WHEAT BRAN.

Author

DEMIRAL, Ilknur, SAMDAN, Canan, and KUS, Fatma Betül

Subjects

*ACTIVATED carbon, *WHEAT bran, *CHEMICALS, *CHEMICAL warfare agents, *SEWAGE

Abstract

In this study, the production of activated carbon from wheat bran was carried out using the chemical activation method. ZnCl2 was used as the chemical agent in the chemical activation. The impregnation ratio was used as 2:1, and the activation temperature was set to 500 °C. The activated carbon (WB-500) was used to remove the deep red dye substance from aqueous solutions. The outcome of the adsorption studies revealed that the highest adsorption capacity was attained when the adsorbent was exposed for 24 hours, maintained at a temperature of 45°C, and a pH of 2.17. The adsorption process effectively removed 95.238 mg with 1 g WB-500. Adsorption study was determined to follow the pseudo-second-order kinetic model and Langmuir isotherm. According to the second order, the adsorption rate increased from 1.22.10-4 to 3.43.10-4 with the increase in temperature from 25 °C to 45 °C. According to adsorption thermodynamics, adsorption is endothermic (ΔH0, 41.08 kj mol-1) and occurs physically and chemically forces. Activated carbon produced from wheat bran can effectively remove the Deep red dye substance from wastewater. [ABSTRACT FROM AUTHOR]

Published

2024

35. Farklı Oranlarda Mısır kırması ve Buğday Kepeği İlavesinin Kinoanın Silaj Kalitesine Etkileri.

Author

KESKİN, Bilal and AKSOY, Kemal

Subjects

*FEED analysis, *WHEAT bran, *PROPIONIC acid, *AGRICULTURAL research, *AGRICULTURAL colleges, *QUINOA, *BUTYRIC acid

Abstract

This study was carried out to determine the effects of different amounts of crushed corn (CC) and wheat bran (WB) on the silage quality of quinoa (Chenopodium quinoa Willd.). In the research, pH, dry matter (DM), raw ash (RA), fleig score, ammonia, crude protein (CP), acid detergent fiber (ADF), neutral detergent fiber (NDF), dry matter intake (DMI), dry matter digestibility (DMD), relative feed value (RFV), lactic acid (LA), acetic acid (AA), propionic acid (PA) and butyric acid (BA) contents of quinoa silage were determined. Quinoa plants were taken in the area sown at the research area of Iğdır University Agricultural Application and Research Center Directorate in 2022. The use of cracked corn as an additive increased the fleig score, DM, CP, DMD, DMI, RFV, LA and BA contents. On the other hand, cracked corn additive decreased pH, ammonia, NDF, ADF, RA, AA and PA contens of quinoa silage. The use of wheat bran as an additive increased the fleig score, DM, CP, DMD, NDF, LA and BA contents of quinoa silage. On the other hand, wheat bran additive decreased the pH, ammonia, ADF, DMI, RFV, RA, AA and PA contents of quinoa silage. [ABSTRACT FROM AUTHOR]

Published

2024

36. Statistical Modelling of Thermostable Cellulase Production Conditions of Thermophilic Geobacillus sp. TP-1 Isolated from Tapovan Hot Springs of the Garhwal Himalayan Mountain Ranges, India.

Author

Arya, Meghna, Chauhan, Garima, Fatima, Tazeem, Verma, Digvijay, and Sharma, Monica

Subjects

*GEOBACILLUS stearothermophilus, *HOT springs, *WHEAT bran, *LIGNOCELLULOSE, *CELLULASE

Abstract

A thermo-alkali stable cellulase from Geobacillus sp. TP-1 was isolated from Tapovan hot spring soil sample. The BLASTn sequence analysis of 16S rRNA sequence revealed that the isolate belonged to the Geobacillus genus and shared the highest degree of sequence similarity (99.43%) with the different strains of Geobacillus subterraneus. The neighbour joining method of multiple sequence alignment revealed that the 16S rRNA sequence of Geobacillus sp. TP-1 shows maximum similarity with Geobacillus stearothermophilus strain S_YE6-1017-022. One-Factor-At-a-Time analysis was used to optimize the carbon source, nitrogen source, pH, temperature, inoculum size and growth profile with respect to cellulase production. When compared to un-optimized basal media, optimised medium increased cellulase production by around 3.6 times. The Plackett Burman factorial design was employed to identify the critical medium components influencing cellulase activity and temperature was determined to have a significant effect on overall cellulase production. The current strain was capable of utilising lignocellulosic waste as an alternative carbon source. The use of sugarcane molasses and wheat bran as carbon sources resulted in a significant increase (~ 7.2 fold) in cellulase production in the current study, indicating the bacterium's potential for valorising lignocellulosic biomass into value-added products, which encourages its use in lignocellulosic-based bio refineries. [ABSTRACT FROM AUTHOR]

Published

2024

37. Effect of Dietary Sugarcane Bagasse on Reproductive Performance, Constipation, and Gut Microbiota of Gestational Sows.

Author

Huang, Rong-Hui, Zhang, Bing-Bing, Wang, Juan, Zhao, Wei, Huang, Yu-Xuan, Liu, Ying, Sun, Lv-Hui, and Deng, Zhang-Chao

Subjects

*FEED analysis, *RICE bran, *SHORT-chain fatty acids, *GUT microbiome, *ANIMAL feeds, *WHEAT bran, *RICE hulls

Abstract

Simple Summary: Sugarcane bagasse (SB), one of the more unconventional feedstuffs, is a processed agricultural and industrial by product. Our results show that SB contains higher levels of crude fiber (42.1%) and neutral detergent fiber (81.3%) than soybean hulls, and it also exhibited the highest volumetric expansion when soaked in water (50 g expanding to 389.8 mL) compared to the other six materials we tested (vegetable scraps, soybean hulls, wheat bran, rice bran meal, rice bran, and corn DDGS). Meanwhile, previous studies have reported that SB is worth being developed and utilized as a pig feedstuff, which could effectively alleviate the shortage of feed resources in the swine industry. In the present study, we explored the effects of SB on the reproductive performance, constipation, and gut microbiota of gestational sows. Our results showed that dietary supplementation of 5% SB can be used as an equivalent substitute for soybean hulls to improve the reproductive performance of sows without affecting their gut microbiota. This experiment aimed to evaluate the effects of using sugarcane bagasse (SB) as a substitute for soybean hulls and wheat bran in the diet of pregnant sows on their reproductive performance and gut microbiota. A total of seventy-two primiparous sows were randomly divided into four treatment groups, with eighteen replicates of one sow each. The sows were fed a basal diet supplemented with 0% (CON), 5%, 10%, and 15% SB to replace soybean hulls from day 57 of gestation until the day of the end of the gestation period. The results showed that SB contains higher levels of crude fiber (42.1%) and neutral detergent fiber (81.3%) than soybean hulls, and it also exhibited the highest volumetric expansion when soaked in water (50 g expanding to 389.8 mL) compared to the other six materials we tested (vegetable scraps, soybean hulls, wheat bran, rice bran meal, rice bran, and corn DDGS). Compared with the CON, 5% SB significantly increased the litter birth weight of piglets. Meanwhile, 10% and 15% SB significantly increased the rates of constipation and reduced the contents of isobutyric acid and isovaleric acid in feces. Furthermore, 10% and 15% SB significantly disturbed gut microbial diversity with increasing Streptococcus and decreasing Prevotellaceae_NK3B31-group and Christensenellaceae_R-7-group genera in feces. Interestingly, Streptococcus had a significant negative correlation with isobutyric acid, isovaleric acid, and fecal score, while Prevotellaceae_NK3B31-group and Christensenellaceae_R-7-group had a positive correlation with them. In conclusion, our study indicates that 5% SB can be used as an equivalent substitute for soybean hulls to improve the reproductive performance of sows without affecting their gut microbiota. [ABSTRACT FROM AUTHOR]

Published

2024

38. A fast, reliable, low‐cost, and efficient xylan extraction for xylooligosaccharides production.

Author

Kumari, Kajal, Nagar, Sushil, Goyal, Sakshi, Maan, Sonu, Kumar, Vinod, Kharor, Neeraj, Sindhu, Meena, and Kumar, Vinay

Subjects

*XYLANS, *WHEAT bran, *CORNCOBS, *SCANNING electron microscopy, *ROUGH surfaces, *MANUFACTURING processes

Abstract

A fast, reliable, low‐cost, and efficient method for the recovery of xylan from agro‐residue materials is needed to improve the use of xylan in industrial processes. Xylan was extracted from two agrowastes (corncobs and wheat bran) using a cost‐effective alkali extraction method. The characteristic band patterns and bending vibrations associated with hemicellulose and beta glycoside linkage could be seen in the corncob‐extracted xylan (CCEx) and wheatbran‐extracted xylan (WBEx). Scanning electron microscopy (SEM) analysis showed that the extracted xylans consisted of aggregated and nonaggregated particles with irregular morphology and rough surfaces. Particle‐size analysis displayed average sizes of 205.6, 210.8, and 794.2 nm for commercial beechwood xylan (Bx), CCEx, and WBEx, respectively. Alkali extraction was performed with different concentrations of NaOH, from 5% to 20%, with a solid–liquid ratio of 1:20. It was found that 82.90 and 76.77% of xylan were extracted from corncob and wheat bran, respectively, which represents a higher yield obtained in a shorter duration in comparison with studies in the literature. The enzymatic hydrolysis of wheat bran and corncob that used 250 IU/mL of Enterobacter hormaechie KS1 xylanase yielded 334.38 and 162.35 mg/g of xylooligosaccharides. Their properties were studied and were found to be very similar to those of commercial xylan. They could reduce costs if applied in industry. [ABSTRACT FROM AUTHOR]

Published

2024

39. Chitinase induction in Trichoderma harzianum: a solid-state fermentation approach using shrimp waste and wheat bran/commercial chitin for chitooligosaccharides synthesis.

Author

López-García, Cynthia Lizbeth, Guerra-Sánchez, Guadalupe, Santoyo-Tepole, Fortunata, and Olicón-Hernández, Dario Rafael

Subjects

*WHEAT bran, *TRICHODERMA harzianum, *WASTE minimization, *CHITINASE, *MONOMERS, *CHITIN

Abstract

This study innovatively employed solid-state fermentation (SSF) to evaluate chitinase induction in Trichoderma harzianum. Solid-state fermentation minimizes water usage, a crucial global resource, and was applied using shrimp waste chitin and a mixture of commercial chitin with wheat bran as substrates. Shrimp waste and wheat bran were pretreated and characterized for SSF, and the fungus's utilization of the substrates was assessed using spectrophotometric and microscopic methods. The resulting enzymes' ability to produce chitooligosaccharides (COS) mixtures was studied. Wheat bran/commercial chitin demonstrated superior performance, with a 1.8-fold increase in chitinase activity (76.3 U/mg protein) compared to shrimp waste chitin (41.8 U/mg protein). Additionally, the COS mixture obtained from wheat bran/commercial chitin showed a higher concentration of reducing sugars, reaching 87.85 mM, compared to shrimp waste chitin (14.87 mM). The COS profile from wheat bran/commercial chitin included monomers to heptamers, while the profile from shrimp waste chitin was predominantly composed of monomers. These results highlight the advantages of SSF for chitinase induction and COS production in T. harzianum, offering potential applications as dietary fiber, antioxidants, and antimicrobial agents. The findings contribute to by-product valorization, waste reduction, and the sustainable generation of valuable products through SSF-based enzyme production. [ABSTRACT FROM AUTHOR]

Published

2024

40. Mealworm (Tenebrio molitor) rearing and growth optimization as a sustainable food source using various larval diets under laboratory conditions.

Author

Shah, Azaz Ali, Usman, Amjad, Khan, Sarzamin, Khan, Faheem, Ahmed, Nazeer, Al‐Mekhlafi, Fahd A., Wadaan, Muhammad A., Malook, Saif ul, Iqbal, Toheed, Ullah, Misbah, Sohail, Kamran, Ali, Hamid, and Ali, Ijaz

Subjects

*TENEBRIO molitor, *EDIBLE insects, *SUSTAINABILITY, *INSECT larvae, *AGRICULTURE, *WHEAT bran

Abstract

A new approach to supplying foods and feeds that are high in protein has emerged in the form of insect farming. Insect‐farmed food may also serve as part of a sustainable diet for humans. The mealworm Tenebrio molitor L. (Coleoptera: Tenebrionidae) is the most widely consumed insect worldwide. In this study, 10 larval diets were tested in the laboratory to determine their suitability for mass‐feeding mealworms at 28 °C and 60–65% r.h., in a completely randomized design. Various larval diets had a significant impact on the biological features of T. molitor. The larvae, pupae, and adults were greater on diets containing wheat bran alone and wheat bran in combination with maize and porridge. Larval mortality was significantly higher (60.7%) on a diet with porridge alone, compared to a control diet, followed by diets with porridge in combination with barley (55.6%) or maize (50.6%). Sex ratio was also affected by the tested larval diets. Female hatch (65%) was higher than male hatch (35%) on diet containing wheat bran alone as compared to all other diets. The findings contribute to optimizing mealworm rearing practices for sustainable food production and promote the potential use of mealworms as a viable protein source – especially livestock diets based on mealworm reared on wheat bran show promise. [ABSTRACT FROM AUTHOR]

Published

2024

41. تأثیر تیمار مایکروویو بر مخلوط پودر دانه سبوس گندم و خرما ارزیابی اثرات جایگزینی بر خواص اطلاعات مقاله تاریخ های مقاله :فیزیکوشیمیایی آرد گندم.

Author

محمدرضا صحرائیا&, محمد گنجه, and افسانه طاهری

Abstract

Microwave radiation (MW) is an environmentally friendly technology and a physical method to enhance and modify the properties of flour. Dietary fiber -rich compounds in flour composition, such as date seed powder and wheat bran, can contribute to the health -promoting effects of the resulting flour and its derived products, such as bread. The present study aims to evaluate the impact of microwaves (750 watts for 120 seconds) on the combination of wheat bran and date seed powder (WB -DSP) and investigate the effects of its substitution on the physicochemical characteristics of wheat flour. To achieve this, wheat bran at various levels (3%, 6%, and 9%) and date seed powder (2%, 4%, and 6%) were combined (WB -DSP) and treated with microwave (WB -DSPMW). These mixtures were then substituted with wheat flour in proportions of 5%, 10%, and 15%. The produced flour samples were assessed for their physicochemical properties, color parameters (L*, a*, b*), and overall color difference (ΔE) compared to wheat flour as the control sample. The results revealed that microwave treatment led to lower moisture content and higher levels of ash and protein in the combination of wheat bran and date seed powder. Flour samples containing WB -DSPMW and WB -DSP showed higher water absorption capacity than the control sample (p < 0.05). Substituting WB -DSP combination with wheat flour significantly reduced L* and b* values and increased ΔE in flour samples compared to the control (p < 0.05). Based on the obtained results, it can be concluded that microwave application and substitution of wheat bran -date seed powder mixture with wheat flour plays a significant role in altering the physicochemical properties of wheat flour. Furthermore, further research is necessary to examine changes in other properties, such as functional properties and nutritional value of the resulting flour . [ABSTRACT FROM AUTHOR]

Published

2024

42. Characterising the effect of commercial wheat grain milling methods on wheat bran characteristics.

Author

Saini, Praveen, Sinha, Akhouri Sanjay Kumar, and Prasad, Kamlesh

Subjects

*GRAIN milling, *X-ray diffraction, *BRAN, *FLOUR mills, *WHEAT, *WHEAT bran

Abstract

Summary: To assess the effect of wheat milling or bran separation method, five wheat bran fractions, one from stone milling (SB), two from roller flour milling (coarse: RB1, fine: RB2), and two from grain pearling (0–3%: PB1, 3–6%: PB2) were analysed. Physiological properties provided good physical and flow characteristics of SB fraction; however, it was the darkest. Particle size was in the order of RB1 > SB > RB2 > PB1 > PB2. The fibre analysis showed the highest insoluble fibre components for RB1, PB1, and exceptionally higher soluble fibre for PB1. The protein, fat, ash, and starch content were highest for RB2 and PB2. Antioxidant properties followed the order PB2 > RB2 > PB1 > RB1 > SB. Pearled fractions (PB1 and PB2) showed better functional properties than others. SEM, XRD, and FT‐IR verified the changes in the properties of bran fractions. The characterisation data will find applications to help increase the usage of bran fractions in specific food products. [ABSTRACT FROM AUTHOR]

Published

2024

43. Production of a bacterial secretome highly efficient for the deconstruction of xylans.

Author

Topalian, Juliana, Navas, Laura, Ontañon, Ornella, Valacco, Maria Pia, Noseda, Diego Gabriel, Blasco, Martín, Peña, Maria Jesus, Urbanowicz, Breeanna R., and Campos, Eleonora

Subjects

*SUGARCANE, *PLANT cell walls, *WHEAT bran, *LIGNOCELLULOSE, *POLYSACCHARIDES, *XYLANS, *XYLANASES, *XYLOSE

Abstract

Bacteria within the Paenibacillus genus are known to secrete a diverse array of enzymes capable of breaking down plant cell wall polysaccharides. We studied the extracellular xylanolytic activity of Paenibacillus xylanivorans and examined the complete range of secreted proteins when grown on carbohydrate-based carbon sources of increasing complexity, including wheat bran, sugar cane straw, beechwood xylan and sucrose, as control. Our data showed that the relative abundances of secreted proteins varied depending on the carbon source used. Extracellular enzymatic extracts from wheat bran (WB) or sugar cane straw (SCR) cultures had the highest xylanolytic activity, coincidently with the largest representation of carbohydrate active enzymes (CAZymes). Scaling-up to a benchtop bioreactor using WB resulted in a significant enhancement in productivity and in the overall volumetric extracellular xylanase activity, that was further concentrated by freeze-drying. The enzymatic extract was efficient in the deconstruction of xylans from different sources as well as sugar cane straw pretreated by alkali extrusion (SCRe), resulting in xylobiose and xylose, as primary products. The overall yield of xylose released from SCRe was improved by supplementing the enzymatic extract with a recombinant GH43 β-xylosidase (EcXyl43) and a GH62 α-l-arabinofuranosidase (CsAbf62A), two activities that were under-represented. Overall, we showed that the extracellular enzymatic extract from P. xylanivorans, supplemented with specific enzymatic activities, is an effective approach for targeting xylan within lignocellulosic biomass. [ABSTRACT FROM AUTHOR]

Published

2024

44. Production of Amylase by Solid State Fermentation Using Agricultural Waste.

Author

Morbia, M. M., Pandey, A. A., Mahla, P. K., and Gohil, S. N.

Subjects

INDUSTRIAL enzymology, SOLID-state fermentation, AGRICULTURAL wastes, WHEAT bran, BACILLUS licheniformis

Abstract

This study presents a comprehensive investigation into the production of amylase, a crucial enzyme with wide-ranging industrial applications, using locally sourced substrates from Kachchh, Gujarat. The research employed the Bacillus licheniformis strain and substrates such as coconut, rice husk, wheat bran, paddy straw, and maize straw. The study found paddy straw to be the most promising substrate for amylase production. The research also systematically optimized various process parameters for amylase production in Solid-State Fermentation (SSF) using the One Variable at a Time (OVAT) method. These parameters included incubation period, temperature, inoculum level, additional carbon sources, starch concentrations, additional nitrogen sources, initial pH, different mineral salt ions, initial moisture level, and surfactants. The results showed that the optimal conditions for maximum amylase yield were an incubation period of 48 hours, an incubation temperature of 35°C, an inoculum level of 10%, starch as the additional carbon source, a starch concentration of 2.5%, yeast extract as the additional nitrogen source, an initial pH of 7, NaCl as the mineral salt, an initial moisture level of 75%, and Tween 80 as the surfactant. This research provides a reliable and sustainable approach to enzyme production, offering valuable insights for the optimization of the solid-state fermentation process for maximum amylase production. [ABSTRACT FROM AUTHOR]

Published

2024

45. Nutritional improvement of cactus fruit scraps with addition of alfalfa or Atriplex halimus, and comparison of two animal feed preservation methods (silage and solar drying).

Author

El Hajji, L, Azzouzi, H, Achchoub, M, Elfazazi, K, and Salmaoui, S

Subjects

ANIMAL feeds, ALFALFA, BOTANY, ATRIPLEX, MICROORGANISM populations, WHEAT bran, SILAGE

Abstract

This work aimed to study the effect of adding alfalfa (Medicago sativa L.) and Atriplex halimus L. on biochemical properties, microbial flora, ferment silage and solar-dried cactus fruit scraps. Alfalfa and Atriplex were added to cactus silage to improve nutrient quality. Three mixtures were prepared: M1 based on cactus, M2 based on cactus and alfalfa, and M3 based on cactus and Atriplex. Bran and wheat straw were added to the mixtures to improve the moisture content. After adding alfalfa and Atriplex, the protein content of the pre-ensiling material increased (p < 0.05), reaching 10.63% DM for M1, 16.35% DM for M2, and 17.22% DM for M3. During ensilage, a significant amount of sugar and protein was degraded. All silage treatments achieved stable pH values (M1: 4.35, M2: 4.55, and M3: 4.54). The M2 and M3 treatments had the highest amount of protein. After drying, the protein content of the dried treatments was higher than that of the ensiled treatments (8.05% DM for M1, 14.96% DM for M2, and 15.36% DM for M3). In both storage methods, the microbial population declined. However, silage reduces coliforms, yeasts and moulds more efficiently than solar drying. The drying operation preserves remarkedly the nutritional quality of the mixtures while ensiling reduces the number of undesirable microorganisms. [ABSTRACT FROM AUTHOR]

Published

2024

46. Solid-State Fermentation of Grain-Derived By-Products by Aspergillus kawachii and Rhizopus oryzae : Preparation and Evaluation of Anti-Allergic Activity.

Author

Huang, Chung-Hsiung, Liao, Yu-Ming, and Tsai, Guo-Jane

Subjects

REGULATORY T cells, FOOD allergy, RHIZOPUS oryzae, ORAL drug administration, WHEAT germ, RICE bran, WHEAT bran, SOLID-state fermentation

Abstract

Grain processing produces many by-products, including wheat bran, wheat germ and rice bran, which are rich in carbohydrates, proteins and trace elements. In this study, these grain-derived by-products were used as raw materials to conduct solid-state fermentation using mixed strains of Aspergillus kawachii and Rhizopus oryzae, and the potential immunomodulatory and anti-allergic properties of fermented product were evaluated. Solid-state fermentation of a grain by-product mixture, consisting of rice bran, wheat bran, and wheat germ in a 2:1:1 weight ratio, using both A. kawachii L1 and R. oryzae L1 at 26 °C for 5 days, significantly increased the total phenolic, flavonoid, and amino acid contents. The anti-allergic activity of aqueous extract of the fermented product was evaluated in murine models of food allergy and delayed-type hypersensitivity. Oral administration of the fermented product extract (100–200 mg/kg) notably alleviated allergic symptoms such as diarrhea and histopathological changes in the intestines. Moreover, the extract effectively reduced allergen-specific serum antibodies, suppressed splenic cytokine secretion, and mitigated tissue edema and inflammation induced by allergens. Importantly, the extract induced the production of IL-10 and TGF-β, which are well-known cytokines primarily secreted by regulatory T cells. These results underscore the promising immunomodulatory effects of A. kawachii and R. oryzae fermented grain product, suggesting their potential as functional foods or additives for managing allergic disorders, with implications for future therapeutic and dietary applications. [ABSTRACT FROM AUTHOR]

Published

2024

47. Agronomic potential of different fermented organic composts based on agro-industrial plant waste.

Author

dos Santos Cordeiro, Ana Amélia, de Sousa Antunes, Luiz Fernando, da Costa Rodrigues dos Santos, Giulia, Guerra, José Guilherme Marinho, Berbara, Ricardo Luiz Louro, da Silva Araújo, Ednaldo, and Espindola, José Antonio Azevedo

Subjects

WASTE recycling, FRUIT skins, PH standards, ORGANIC wastes, CASTOR beans, WHEAT bran

Abstract

Organic composts such as "bokashi", obtained from the fermentation of bran mixtures and inoculated with microorganisms, improve soil characteristics. In Brazil, the most widely used formulation for the production of this compost is obtained from a mixture of wheat and castor bean bran, but both have a high monetary cost. Replacing these components with regionally available sources represents the possibility of reducing costs and making more sustainable use of this waste. The aim of this study was to analyze the chemical characteristics and determine the availability of nitrogen for the plants. The study was divided into two stages, consisting of an incubation test in the laboratory and a bioassay in the greenhouse using forage sorghum as an indicator species. In the laboratory trial, the treatments consisted of two raw material sources with a low C/N ratio (castor bean bran—CAB and cottonseed bran—COB), corresponding to 40% of the mixture; three sources with a high C/N ratio (wheat bran—WHB or rice bran—RIB), gradually replaced by passion fruit peel bran—PFPB), corresponding to 60% of the mixture. The materials were mixed, moistened, inoculated with microorganisms (Embiotic®) and kept in sealed containers with a capacity of 620 cm3 for 21 days. In the greenhouse, in addition to the aforementioned treatments, seven controls were included: no addition of organic and synthetic N sources; ammonium nitrate; CAB; COB; WHB; RIB and PFPB. In the second stage, dry mass production and N content in sorghum plant tissues were determined, and the rates of N availability were estimated. It was found that the pH of the standard compost was 4.75, and in the other formulations it ranged from 4.62 to 5.3, the highest values being observed when WHB was fully replaced by RIB There was a significant difference in the EC values, but all were well below the value considered adequate. Replacing CAB with COB and WHB with RIB and PFPB resulted in a reduction in N content and an increase in the C:N ratio. Replacing WHB with PFPB led to an increase in K content and a reduction in P and Mg content. In the bioassay, the highest biomass production was in the treatments with the fermented composts, and the highest biological recovery of N was obtained in the ammonium nitrate treatment, followed by the CAB, COB and WHB treatments. [ABSTRACT FROM AUTHOR]

Published

2024

48. The Effects of Single- or Mixed-Strain Fermentation of Red Bean Sourdough, with or without Wheat Bran, on Bread Making Performance and Its Potential Health Benefits in Mice Model.

Author

Huang, Chengye, Zhang, Binle, Huang, Jing, Liu, Youyi, Chen, Cheng, Omedi, Jacob Ojobi, Liang, Li, Zhou, Zhongkai, Huang, Weining, and Li, Ning

Subjects

LACTOBACILLUS fermentum, SHORT-chain fatty acids, SOURDOUGH bread, PHYTIC acid, BREAD quality, WHEAT bran

Abstract

The effects of single- (Lactobacillus fermentum) or mixed-strain (Lactobacillus fermentum, Kluyveromyces marxianus) fermentation of red bean with or without wheat bran on sourdough bread quality and nutritional aspects were investigated. The results showed that, compared to unfermented controls, the tannins, phytic acid, and trypsin inhibitor levels were significantly reduced, whereas the phytochemical (TPC, TFC, and gallic acid) and soluble dietary fiber were increased in sourdough. Meanwhile, more outstanding changes were obtained in sourdough following a mixed-strain than single-strain fermentation, which might be associated with its corresponding β-glucosidase, feruloyl esterase, and phytase activities. An increased specific volume, reduced crumb firmness, and greater sensory evaluation of bread was achieved after mixed-strain fermentation. Moreover, diets containing sourdough, especially those prepared with mixed-strain-fermented red bean with wheat bran, significantly decreased serum pro-inflammatory cytokines levels, and improved the lipid profile, HDL/LDL ratio, glucose tolerance, and insulin sensitivity of mice. Moreover, gut microbiota diversity increased towards beneficial genera (e.g., Bifidobacterium), accompanied with a greater increase in short-chain fatty acid production in mice fed on sourdough-based bread diets compared to their controls and white bread. In conclusion, mixed-strain fermentation's synergistic effect on high fiber-legume substrate improved the baking, sensory quality, and prebiotic effect of bread, leading to potential health benefits in mice. [ABSTRACT FROM AUTHOR]

Published

2024

49. Utilization of Secondary Raw Materials from Rice and Buckwheat Processing for the Production of Enriched Bread: Optimization of Formulation, Physicochemical and Organoleptic Properties, Structural and Mechanical Properties, and Microbiological Safety.

Author

Yessembek, Madina, Tarabayev, Baltash, Kakimov, Mukhtarbek, Gajdzik, Bożena, Wolniak, Radosław, and Bembenek, Michał

Subjects

BAKED products, RICE bran, RICE diseases & pests, FOOD industry, TECHNOLOGICAL innovations, WHEAT bran

Abstract

Pursuing enhanced nutritional value in bakery products through technological advancements and new recipes is a promising facet of the food industry. This study focuses on incorporating rice and buckwheat brans, additional raw materials rich in biologically active substances, into bakery products. Utilizing a second-order rotatable plan, optimal ratios were determined—5% rice bran and 10% buckwheat bran. The application of these brans influenced dough and bread quality, reducing sugar content by 5% in dry form and 29% in the fermented brew, potentially aiding in diabetes prevention and cholesterol control. Introducing brans, especially in fermented brew, positively impacted microbiological stability, reducing the risk of mold and potato disease. The developed bread technology using rice and buckwheat brans in fermented brew significantly increased nutritional value, satisfying adult daily protein needs by 31.2%, fats by 15%, and dietary fibers by 18.4%. This innovative approach ensures a sufficient intake of essential vitamins and minerals, showcasing a promising avenue for creating healthier and more nutritious bakery products. [ABSTRACT FROM AUTHOR]

Published

2024

50. EFFECT OF SUPPLEMENTATION OF CACTUS (Opuntia ficus-indica) CLADODES, Acacia saligna, WHEAT BRAN AND COTTON SEED CAKE ON FEED INTAKE, DIGESTIBILITY, GROWTH AND CARCASS CHARACTERISTICS OF GOATS.

Author

BERHE, Genet, AREGAWI, Teferi, and SISAY, Amasalu

Subjects

FEED utilization efficiency, WHEAT bran, OPUNTIA ficus-indica, COTTONSEED, WEIGHT gain

Abstract

The objective of this study was to evaluate the effect of supplementation of cactus (Opuntia ficusindica) cladodes, Acacia saligna, wheat bran and cotton seed cake on growth, digestibility, intake and carcass characteristics of goats. A randomized complete block design was used in the experiment with 24 yearling central highland goats with an initial body weight of 15.6 - 16.1 kg. The same amount of grass hay (GH) + 150 gDM/head/day wheat bran (WB) was given to all animals. The experimental diets consisted of 80 gDM of cotton seed cake (CSC) as treatment 1 (T1); 45 gDM of CSC + 160 gDM of cactus cladodes (CC) as T2; 45g DM of CSC + 80 gDM of Acacia saligna (AS) as T3; and 45 gDM of CSC + 80 gDM of CC + 40 gDM of AS as T4 (per day per goat). Data were gathered on the goats' growth, digestibility, intake, and carcass of major organs, edible and nonedible organs. The consumption of dry matter and organic matter was higher in goats fed T2 and T4 than in the T1 group. The dry matter (DM), organic matter (OM) and crude protein (CP) digestibility, average daily body weight gain and feed conversion efficiency were higher in T4 and T3 goats when compared to T2 goats. Goats fed on T4 had higher hot carcass weight and dressing percentage on slaughter body weight basis than T2, T3, and T1 supplemented goats. Generally, the experimental diets improved goats' performance in descending order (T4 > T3 >T1 >T2). Supplementation of T4 (replacement of 35 gDM of cotton seed cake per day by 40 gDM of Acacia saligna and 80 gDM of cactus cladodes on dry matter bases) could be recommended to improve goat performance. [ABSTRACT FROM AUTHOR]

Published

2024