Your search keyword '"Water holding capacity"' showing total 3,905 results

1. Role of Hydrophilic Biopolymers Concoction Seed Coating on Seed Germination and Field Performance of Blackgram (Vigna mungo L.)

Author

Vijayalakshmi, V., Sathish, S., Sivasubramaniam, K., Malarkodi, K., Sujatha, K., Sundaralingam, K., Jeyasrinivas, R., and Navamaniraj, K. Nelson

Published

2024

2. Characterization of the electropermeabilization induced by pulsed electric field (PEF) technology and its effect on the ultrasonic-assisted drying of yellow turnip.

Author

Llavata, B., Lyng, J., Bedane, T. F., Simal, S., and Cárcel, J. A.

Subjects

*VEGETABLE drying, *ELECTRIC fields, *MASS transfer, *MATRIX effect, *TURNIPS

Abstract

Obtaining snacks from the drying of surplus vegetables is an alternative to reduce waste. A combination of pulsed electric field (PEF) pretreatments and ultrasonic-assisted (US) drying could significantly enhance the process, as this is the aim of this study. PEF pretreatments of yellow turnip significantly affected the cell disintegration index (CDI) and the water holding capacity (WHC): the more intense the PEF treatment, the greater the CDI and the lower the WHC. Both parameters, CDI and WHC, showed a high degree of correlation which indicated that WHC can be an alternative index to CDI to assess PEF effects on food matrices. Regarding yellow turnip drying (40 °C), PEF pretreatments (CDI 0.25 and 0.75) and US application (20.5 kW/m3) significantly accelerated the operation, but it was the combination of both technologies that provided the shortest process (CDI 0.75). PEF could generate changes in the food matrix which enhance the US effects on mass transfer. [ABSTRACT FROM AUTHOR]

Published

2024

3. Optimisation, characterization, and biological evaluation of novel exopolysaccharide from Bacillus licheniformis (BITSL006).

Author

Lakra, Usha, Lincoln Singh Munda, Vivek, Nigam, Vinod Kumar, and Sharma, Shubha Rani

Subjects

BACILLUS licheniformis, THERMOPHILIC bacteria, HOT springs, CARBOXYL group, HYDROXYL group

Abstract

The study investigated production, characterisation, and biological properties of exopolysaccharide (EPS) from a thermophilic bacterium, Bacillus licheniformis using sucrose as a main carbon source at a temperature of 75 °C, resulting in a yield of 2.87 g/L. The surface topology of EPS was determined using FESEM indicating its porous nature. Subsequently, FTIR was employed to examine EPS and identified the presence of carboxyl and hydroxyl groups, which are believed to be associated with water-holding capacity (WHC). Comparing the FTIR spectrum of various exopolysaccharides, it was inferred that the exopolysaccharide derived from Ramkund closely resembles dextran. EDX and ICP-MS analysis revealed the presence of Sulphur and Selenium which might be involved in the anticancer properties of EPS. This is the first report on bacterial EPS from a hot spring (Ram kund) with antioxidant property, WHC, and high solubility. These properties offer beneficial resources for exploration in the pharmaceutical and agriculture industries. [ABSTRACT FROM AUTHOR]

Published

2024

4. Advances in Research on the Improvement of Low-Salt Meat Product Through Ultrasound Technology: Quality, Myofibrillar Proteins, and Gelation Properties.

Author

Guo, Xiuyun, Xu, Shuangyi, Fu, Chao, and Peng, Zengqi

Subjects

*STANDARD of living, *DENATURATION of proteins, *MEAT flavor & odor, *MEAT, *SUSTAINABLE living

Abstract

The high sodium content in meat products poses health risks to consumers and does not align with modern green and healthy living standards. Current strategies for directly reducing the sodium content in meat products are limited by their negative impact on the sensory or quality attributes of the products. In recent years, there has been great interest in applying ultrasound technology to reduce sodium content. This paper discusses the advantages and disadvantages of current mainstream strategies for reducing the sodium content in meat products, as well as the potential mechanisms by which ultrasound-assisted marination improves the quality of low-salt meat products. The main findings indicate that ultrasound, through its cavitation and mechanical effects, facilitates the transition of proteins from stable insoluble aggregates to stable soluble complexes, exposing more hydrophilic groups and, thus, enhancing protein solubility. At the same time, ultrasound promotes a greater number of proteins to participate in the formation of interfacial layers, thereby increasing emulsifying activity. Furthermore, ultrasound treatment promotes the interaction between proteins and water, leading to partial unfolding of protein chains, which allows polar residues to more readily capture water in the gel, thereby improving the water-holding capacity of the gel. These effects will contribute to the formation of high-quality low-salt meat products. However, variations in the frequency, intensity, and duration of ultrasound treatment can lead to differing effects on the quality improvement of low-salt meat products. [ABSTRACT FROM AUTHOR]

Published

2024

5. Experimental analysis on thermophysical properties of clay found in geographical areas of India and their ability to cool water for semi-arid climate regions.

Author

Kumar, Mukesh and Sharma, Amit

Abstract

The Thermo physical behaviour of soil is the fundamental behaviour and plays significant position in its "utilization" as "electrical and heat insulation". However, numerous "researchers have studied" thermo-physical properties of soil. Still, the study on the relationship between soil's properties and its cooling effect through evaporation has not been investigated in detail. In this analysis, soil samples and earthen pots were collected from four states of India: Haryana, Delhi, Rajasthan, and Uttar Pradesh. The performance parameters used to evaluate the cooling effect of the soil, and earthen pot samples are "water-holding capacity", porosity, "thermal-conductivity", texture, and particle and bulk density. The application of "high temperature" fluctuate the "internal microstructure" of clay/soil and subsequently disturbs its "physical and thermal properties". The sand/clay is converted into an earthen pot by applying high temperatures in kilns. The pot samples collected are heated in kilns to bring them to the final form for the study. We are studying the properties after that treatment. In this paper, the impact of "firing temperature" (maximum 900°C) on the "thermo-physical properties" of earthen pots made up of soil of a similar kind as the soil samples collected and the impact of thermo-physical properties on the cooling of the earthen pots has been examined via experiments. The results specify that the "thermal conductivity" of soil/clay samples is less compared to earthen pot. The "porosity and water-holding capacity" of the soil are greater than earthen pots because pore space or pore volume has decreased due to the heating effect. From the experimental analysis, it was found that the soil of the Sohna location in Haryana state has a high water cooling capacity due to its high water-holding (49.28%) capacity and porosity (48.75%). The pot made out of clay, having higher porosity, and water-holding capacity, gives the maximum cooling temperature. [ABSTRACT FROM AUTHOR]

Published

2024

6. κ‐卡拉胶与可得然胶复合凝胶脂肪替代物的 制备工艺优化.

Author

李莲微, 赵毓, 梁鹏, and 姚闽娜

Subjects

FAT substitutes, CURDLAN, HEAT treatment, POLYSACCHARIDES, CAPACITY (Law), CARRAGEENANS

Abstract

Copyright of Food Research & Development is the property of Food Research & Development Editorial Department 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

7. Effects of Different Types of Starches on Katjang Goat Meat Emulsion Characteristics.

Author

Zamzurin, 'Ainaa' Nasuha, Ismail, Nur Aqilah, Asyrul-Izhar, Abu Bakar, Kumar, Pavan, Sazili, Awis Qurni, and Ismail-Fitry, Mohammad Rashedi

Subjects

*WHEAT starch, *GOAT meat, *TAPIOCA, *SHEARING force, *MEAT quality

Abstract

Katjang goat meat has the potential to be used for emulsified meat product production but the suitable starch type to be applied as the Aller is unknown. The present study was undertaken to evaluate the effect of various starches on the quality characteristic of Katjang goat meat emulsion. Katjang goat meat emulsion was prepared by incorporating various starches viz., tapioca starch (TS), sago starch (SS), and wheat starch (WS), as Aller by replacing lean meat. The developed emulsion samples were evaluated for physiochemical, proximate, colour, texture, and gel strength. The addition of TS into meat emulsion results in the most stable emulsion as exhibited by the lowest total expressible fluid (%TEF), expressible fat (%EFAT), and cooking loss. There was no significant (p>0.05) difference for the pH, water holding capacity (WHC), texture profile analysis (TPA), and colour values of all the samples. The incorporation of SS in the formulation decreased (p<0.05) the shear force and work of shearing. In conclusion, the incorporation of TS was found optimum to formulate goat meat emulsion with better quality characteristics. [ABSTRACT FROM AUTHOR]

Published

2024

8. Effect of Hydrocavitation Treatment on Physicochemical and Functional Properties of Chickpea Flour.

Author

Singh, Deepak, Sonawane, Sachin, Bhalerao, Prasanna, and Dabade, Ashish

Abstract

Chickpea flour, known for its protein richness, takes centre stage in this research, where innovation meets nutrition. Our findings illuminate a remarkable enhancement in protein content, with hydrodynamic cavitation treatment leading to a substantial increase. Notably, the 60-minute treatment (S2) and 90-minute treatment (S3) samples display an initial viscosity alteration compared to the control (S1), hinting at exciting possibilities for culinary applications. Furthermore, we delve into protein and starch digestibility, unveiling intriguing results. Protein digestibility reveals that S2 and S3 exhibit modified amino acid content, suggesting an impact on protein metabolism. Simultaneously, starch digestibility analysis indicates that S2 showcases improved digestibility, while S3 presents a unique perspective by displaying reduced starch digestibility. Our exploration extends to the glycaemic index, with S2 exhibiting a heightened index in comparison to both S1 and S3. [ABSTRACT FROM AUTHOR]

Published

2024

9. 天然保鲜剂对牛肉贮藏期间水分和 蛋白质结构变化的影响.

Author

徐　静, 丁珊珊, 陶宇婷, 刘琳欣, 武　杰, and 潘磊庆

Subjects

PROTEIN structure, WATER distribution, PROTEOLYSIS, PROTEIN stability, CHITOSAN, EDIBLE coatings

Abstract

Copyright of Science & Technology of Food Industry is the property of Science & Technology of Food Industry Editorial Office 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

10. Integrative analysis of genome‐wide association study and transcriptomics to identify potential candidate genes influencing drip loss in Beijing Black pigs

Author

Hongmei Gao, Jingjing Tian, Run Zhang, Xiance Liu, Hai Liu, Fuping Zhao, Zhenhua Xue, Lixian Wang, Xitao Jing, and Longchao Zhang

Subjects

Beijing Black pig, drip loss, genome‐wide association study, transcriptomics, water holding capacity, Animal culture, SF1-1100, Animal biochemistry, QP501-801

Abstract

Abstract Understanding the genetic factors related to meat drip loss is of great importance for animal breeding and production. In this study, we employed a combination of genome‐wide association study (GWAS) mapping and RNA sequencing (RNA‐seq) data to effectively identify potentially functional single nucleotide polymorphisms (SNPs) as well as candidate genes associated with drip loss (DL) in Beijing Black pigs. Initially, we conducted a single‐ and multi‐trait GWAS on drip loss traits in 441 Beijing Black pigs at 24 (DL24) and 48 (DL48) hours postmortem using the Illumina pig 50K SNP chip. Five SNPs with annotations for four genes (FGGY, LHFPL6, OSBPL1A, and NMNAT3) were consistently identified in single or multiple trait GWAS results, indicating their potential pleiotropic effects on drip loss. Next, a comprehensive comparative transcriptomic analysis was performed on samples of Beijing Black pigs exhibiting extremely high and low drip loss, resulting in the identification of 21 differentially expressed genes (DGEs) as potential candidates. Additionally, protein–protein interaction (PPI) network analysis revealed reciprocal regulatory relationships between FOXO1, OSBPL1A, DOCK1 (identified from GWAS) and the candidate DGEs obtained from RNA‐seq data. Therefore, we propose that these genes may impact drip loss traits through gene interactions. In conclusion, our integrative analysis screened candidate genes that may affect the drip loss traits in Beijing Black pigs, which provides crucial insights into the molecular mechanisms of drip loss and serves as a theoretical reference for improving meat quality in Beijing Black pigs.

Published

2024

11. Response of plant community structure and soil water conservation function to forbidden grazing and enclosure in alpine steppe of the Qinghai Lake

Author

ZHANG Li, GUO Longxin, ZHANG Mingyang, LI Xiaojuan, ZHAO Liang, and YANG Yongsheng

Subjects

qinghai lake, alpine steppe, forbidden grazing and enclosure, water holding capacity, vegetation community, Biology (General), QH301-705.5, Botany, QK1-989

Abstract

[Objective] This study aims to explore the impact of grazing enclosure on plant community structure and soil water conservation function in alpine steppe in the Qinghai Lake region, and to evaluate the effects of grazing enclosure on the restoration of the degraded grassland in Qinghai Lake. [Methods] By setting up free grazing and different years of enclosure in the alpine grassland on the north bank of the Qinghai Lake, we analyzed the effects of enclosure measures on plant species, biomass, functional groups, soil bulk density, water holding capacity, porosity, and other indicators. [Results] (1) With the increasing of enclosure time, the number of species in the alpine steppe was decreased, the vegetation cover, above-ground biomass, and below-ground biomass were first increased and then decreased. The percentage of grasses in the community was gradually increased. (2) The effects of grazing exclusion on soil moisture characteristics of alpine steppe were mainly concentrated in the 0-20 cm depth. With the increase of grazing exclusion time, soil bulk density at 0-20 cm was decreased gradually, soil saturated water holding capacity, capillary water holding capacity, field water holding capacity, and total porosity at 0-10 cm was first increased and then stabilized. (3) Soil bulk density was the most important soil water characteristic factor affecting the vegetation community structure in the alpine steppe. [Conclusion] From the view of vegetation community structure, the grazing exclusion time in the alpine steppe in Qinghai Lake may not exceed 7 years, and moderate disturbance might be allowed after 7 years of grazing exclusion.

Published

2024

12. Effects of Natural Preservatives on the Moisture and Protein Structure Changes of Beef during Storage

Author

Jing XU, Shanshan DING, Yuting TAO, Linxin LIU, Jie WU, and Leiqing PAN

Subjects

beef, storage, composite natural preservative, myofibrillar protein structure, water migration, water holding capacity, Food processing and manufacture, TP368-456

Abstract

In order to gain a deeper understanding of the changes in moisture and protein structure during beef storage, the preservation effects of different natural preservatives (0.5% ε-polylysine, 0.5% tea polyphenols, 0.5% chitosan, and 0.2% ε-polylysine+0.2% tea polyphenols+0.2% chitosan) during beef storage period at 4 ℃ (12 d) were investigated in this study. Total volatile base nitrogen (TVB-N), water-holding properties, water distribution and migration, protein secondary structure, hydrophobicity, and other indexes were determined. Results showed that natural preservatives could significantly reduce TVB-N (P

Published

2024

13. Texture and water holding capacity of oat drinks fermented with lactic acid bacteria, bifidobacteria and Propionibacterium

Author

Małgorzata Ziarno, Dorota Zaręba, Iwona Ścibisz, and Mariola Kozłowska

Subjects

Fermented oat drink, starter culture, bifidobacteria, propionic acid bacteria, pH, water holding capacity, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456

Abstract

Oats are among the most valued cereal commodities in the food market and are considered an exceptional grain. This study aimed focuses on assessing the impact of starter cultures, including lactic acid bacteria (i.e. Streptococcus thermophilus and Lactobacillus delbrueckii subsp. bulgaricus), Bifidobacterium animalis subsp. lactis Bb-12, and Propionibacterium freudenreichii subsp. shermanii PS-4, on selected quality parameters of yogurt-type fermented oat drinks. These drinks were produced by aqueous extraction of commercial oat flakes in drinking water. Acidification curves were determined during fermentation, and the oat drinks were subsequently stored at 6°C for 35 days. Throughout the study, acidity (measured by pH values), populations of lactic acid bacteria, bifidobacteria, and propionibacteria, as well as texture attributes (hardness and adhesiveness), water-holding capacity, and selected carbohydrate content were examined at the end of fermentation and every 7 days during storage. Results indicated that the addition of bifidobacteria and/or propionic acid bacteria in oat drink cultures expedited and improved the acidification process, resulting in a drink with a lower pH. Furthermore, the incorporation of propionic acid bacteria enhanced the water-holding capacity of the drink. Although the fermentation process had no significant impact on the texture of the oat drinks, the introduction of bifidobacteria reduced the adhesiveness of the final product. Carbohydrate content in the oat drinks diminished during fermentation, with sucrose experiencing the most substantial reduction. In conclusion, the study suggests that supplementing oat drink cultures with bifidobacteria and/or propionic acid bacteria proves to be an effective strategy for enhancing both the quality and shelf life of the final product.

Published

2024

14. Texture and water holding capacity of oat drinks fermented with lactic acid bacteria, bifidobacteria and Propionibacterium.

Author

Ziarno, Małgorzata, Zaręba, Dorota, Ścibisz, Iwona, and Kozłowska, Mariola

Abstract

Oats are among the most valued cereal commodities in the food market and are considered an exceptional grain. This study aimed focuses on assessing the impact of starter cultures, including lactic acid bacteria (i.e. Streptococcus thermophilus and Lactobacillus delbrueckii subsp. bulgaricus), Bifidobacterium animalis subsp. lactis Bb-12, and Propionibacterium freudenreichii subsp. shermanii PS-4, on selected quality parameters of yogurt-type fermented oat drinks. These drinks were produced by aqueous extraction of commercial oat flakes in drinking water. Acidification curves were determined during fermentation, and the oat drinks were subsequently stored at 6°C for 35 days. Throughout the study, acidity (measured by pH values), populations of lactic acid bacteria, bifidobacteria, and propionibacteria, as well as texture attributes (hardness and adhesiveness), water-holding capacity, and selected carbohydrate content were examined at the end of fermentation and every 7 days during storage. Results indicated that the addition of bifidobacteria and/or propionic acid bacteria in oat drink cultures expedited and improved the acidification process, resulting in a drink with a lower pH. Furthermore, the incorporation of propionic acid bacteria enhanced the water-holding capacity of the drink. Although the fermentation process had no significant impact on the texture of the oat drinks, the introduction of bifidobacteria reduced the adhesiveness of the final product. Carbohydrate content in the oat drinks diminished during fermentation, with sucrose experiencing the most substantial reduction. In conclusion, the study suggests that supplementing oat drink cultures with bifidobacteria and/or propionic acid bacteria proves to be an effective strategy for enhancing both the quality and shelf life of the final product. [ABSTRACT FROM AUTHOR]

Published

2024

15. 黄土地区生态边坡持水能力及抗冲性研究.

Author

雷少伟, 陶虎, 满海忠, 吴静, and 杨国强

Abstract

Copyright of China Rural Water & Hydropower is the property of China Rural Water & Hydropower Editorial Office 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

16. Can foliar application of Titanium and Zeolite Soil Addition Enhance Crisphead Lettuce Production, and Reduce N-Leaching or/and Volatilization?

Author

El-Awady, Rasha A., El-Sherpiny, Mohamed A., and El-Kafrawy, Mohamed M.

Subjects

ZEOLITES, NITROGEN fertilizers, TITANIUM, LETTUCE, PHOTOSYNTHETIC pigments, PLANT performance

Abstract

Excessive nitrogen application can lead to environmental pollution, thus improving soil properties, along with raising nitrogen fertilizer efficiency is necessary for sustainability in Egypt. Therefore, afield experiments were conducted to assess the impact of varying doses of nitrogen recommended (NR) at 100% and 75% as the main factor, different rates of soil zeolite addition (0.0, 2.5, and 5.0 tons fed-1 ) as sub-main factors, and spraying titanium at different rates (0.0, 3.0, and 6.0 mg L-1) as sub-sub-main factors on soil properties and growth performance of crisphead lettuce during the 2022 and 2023 seasons. Soil available nutrients, including nitrogen, phosphorus and potassium, along with other soil properties such as water holding capacity (WHC), electrical conductivity (EC), and cation exchange capacity (CEC), were determined. Additionally, plant performance and quality traits such as fresh and dry weights, relative water content, nitrogen and potassium levels, chlorophyll and carotene contents, head weight and diameter, total dissolved solids, dry matter, and vitamin C were assessed. Results revealed that the highest levels of available nitrogen, phosphorus, and potassium post-harvest were observed with the highest zeolite rate (5.0 tons fed-1), while the lowest levels were noted in the control treatment. Soil WHC, EC and CEC increased with higher zeolite application rates, with the highest values recorded in soil treated with 5.0 tons of zeolite fed-1, followed by 2.5 tons and the control treatment. Plant traits, including growth, leaf chemical constituents, photosynthetic pigments, head characteristics, and quality, gradually improved as the zeolite application rate increased from 0.0 to 2.5 and then 5.0 tons fed-1. Similarly, all aforementioned plant traits exhibited gradual enhancement as the titanium application rate increased from 0.0 to 3.0 and then 6.0 mg L-1. Overall, the most favorable results were achieved with plants treated with 100% of NR, zeolite at a rate of 5.0 tons fed-1, and simultaneously sprayed with 6.0 mg Ti L-1. Notably, plants treated with 75% of NR, zeolite at a rate of 5.0 tons fed-1, and simultaneously sprayed with 6.0 mg Ti L-1 demonstrated superior results compared to those treated with 100% of NR without zeolite and titanium. [ABSTRACT FROM AUTHOR]

Published

2024

17. Soil compaction reversed the effect of arbuscular mycorrhizal fungi on soil hydraulic properties.

Author

David, Püschel, Jana, Rydlová, Radka, Sudová, Jan, Jansa, and Michael, Bitterlich

Abstract

Arbuscular mycorrhizal fungi (AMF) typically provide a wide range of nutritional benefits to their host plants, and their role in plant water uptake, although still controversial, is often cited as one of the hallmarks of this symbiosis. Less attention has been dedicated to other effects relating to water dynamics that the presence of AMF in soils may have. Evidence that AMF can affect soil hydraulic properties is only beginning to emerge. In one of our recent experiments with dwarf tomato plants, we serendipitously found that the arbuscular mycorrhizal fungus (Rhizophagus irregularis 'PH5') can slightly but significantly reduce water holding capacity (WHC) of the substrate (a sand–zeolite–soil mixture). This was further investigated in a subsequent experiment, but there we found exactly the opposite effect as mycorrhizal substrate retained more water than did the non-mycorrhizal substrate. Because the same substrate was used and other conditions were mostly comparable in the two experiments, we explain the contrasting results by different substrate compaction, most likely caused by different pot shapes. It seems that in compacted substrates, AMF may have no effect upon or even decrease the substrates' WHC. On the other hand, the AMF hyphae interweaving the pores of less compacted substrates may increase the capillary movement of water throughout such substrates and cause slightly more water to remain in the pores after the free water has drained. We believe that this phenomenon is worthy of mycorrhizologists' attention and merits further investigation as to the role of AMF in soil hydraulic properties. [ABSTRACT FROM AUTHOR]

Published

2024

18. Development And Quality Evaluation Of Low-Fat Chicken Nuggets Incorporated With Brown Rice Flour.

Author

Ajay Kumar, K., Dilip Gupta, R. S., Devathkal, S. K., Eswara Rao, B., and subhasini, N.

Subjects

*CHICKEN as food, *RICE flour, *PROTEIN content of meat, *FIBER content of food, *MEAT

Abstract

Chicken nuggets prepared by incorporating three different levels of brown rice flour along with other non-meat ingredients. The formulations prepared were -- Control (0% brown rice flour), T1 (2% brown rice flour), T2 (4% Brown rice flour), T3 (6% Brown rice flour). Among different treatments, brown rice flour at 6% produced significantly (P<0.05) higher emulsion stability, water holding capacity, pH and better sensory scores than rest of the formulations. Proximate composition of the study revealed significant (P<0.05) increase in moisture, protein, fiber and ash content. The texture profile analysis studies revealed a significant (P<0.05) increase in some parameters, which are gumminess, springiness and cohesiveness. The microbiological studies revealed that products were acceptable up to 9 days. Based on the results obtained in the study it might be concluded that chicken nuggets could be prepared satisfactorily on addition up to 6% brown rice flour without adverse effect on the quality of the products. [ABSTRACT FROM AUTHOR]

Published

2024

19. 饲粮原料持水力测定方法 研究及持水力与营养指标相关性分析.

Author

刘倩, 徐明, 王典, 孙凯佳, 孙晓菊, 王小平, 徐良, and 王鹏宇

Abstract

The purpose of this experiment is to establish a method for measuring the centrifugal water holding capacity of feed materials. The water holding capacity of 21 diets was measured by membrane centrifugation, and the correlation between water holding capacity and nutritional indexes of diets was analyzed. The results showed that the optimum conditions for the determination of water holding capacity of feed materials by centrifugation of filter membrane were as follows: Pore diameter of filter membrane 25 μm, centrifugal speed 3 000 r/min. The standard deviation and average expanded uncertainty of the measurement results of centrifugal water holding capacity of filter membrane are less than those of centrifugal method the water holding capacity of diets was significantly positively correlated with hemicellulose content (P<0.05), positively correlated with neutral detergent fiber content (P>0.05), and negatively correlated with starch content. The study indicates that the establishment of centrifugal water holding capacity determination method of feed materials can provide reference for accurate determination of water holding capacity and later formula design. [ABSTRACT FROM AUTHOR]

Published

2024

20. Effects of high-pressure thawing on the quality and myofibrillar protein denaturation of Atlantic salmon.

Author

Li, Li

Subjects

*ATLANTIC salmon, *THAWING, *DENATURATION of proteins, *WATER immersion, *CHEMICAL properties, *FOOD quality

Abstract

The utilization of improper thawing methods can potentially compromise the quality of food, while the degeneration of myofibrillar protein during the thawing process directly impacts the alteration of physical and chemical properties of food. The effects of high-pressure thawing (HPT), water immersion thawing (WIT), and air thawing (AT) on the quality and myofibrillar protein (MP) denaturation of salmon were investigated. The thawing times of WIT, AT, and HPT-300 MPa were 23.6, 116.6, and 10.1 min, respectively, suggesting that HPT improved the rate of thawing. Compared with conventional thawing methods, the color difference of HPT-100 MPa and the water loss of HPT-150 MPa were reduced by 56.77% and 6.77%, respectively, and textural deterioration was weakened, preserving the quality of thawed salmon. In the current study, 200 and 300 MPa were the pressure thresholds for the degradation of salmon myosin and actin proteins, respectively. Meanwhile, HPT induced noticeable changes in the stability, secondary structure, and micromorphology of salmon MPs, which affected various physical and chemical properties of thawed salmon samples, such as water loss, color, and texture. In particular, the spatial structure stability of MP can be better maintained at HPT-100 MPa and HPT-150 MPa. HPT can be an alternative strategy to the traditional thawing of salmon. [ABSTRACT FROM AUTHOR]

Published

2024

21. Cold-Set Gelation of Soybean and Amaranth Proteins by Hydration of Freeze-Dried Protein Previously Denatured in the Presence of Calcium.

Author

Marinacci, Anabella, Piermaria, Judith, and Speroni, Francisco

Abstract

The gelation of soybean and amaranth proteins through a three-step-strategy: heat-induced denaturation at low protein content (2 or 4 wt%) in the presence of calcium (0.075–0.250 mmol Ca/g protein) and at pH 7.0, followed by freeze drying, and rehydration at higher protein content (10 or 13 wt%) was evaluated for mixtures 80:20 (soybean:amaranth) and for soybean proteins alone. Gelation was favored by high protein contents during denaturation and rehydration, and by a Ca2+:protein ratio of 0.100 mmol Ca/g protein. Gels were soft (hardness from texture profile analysis was 0.26 N) and self-supporting and exhibited excellent water-holding capacity (99% upon centrifugation at 20,000xg). The aggregates formed during denaturation were weakly associated upon rehydration and were mostly extractable with water, which partially explained the softness of gels. The appropriate Ca2+:protein ratio would lead to a particular distribution of Ca2+ between free in solution and bound to proteins, which in turn balanced associations and repulsions allowing gelation. The presence of 20% amaranth proteins led to a more brownish color, a higher adhesiveness and a lower cohesiveness (texture), lower storage modulus, apparent viscosity, consistency index, and area of hysteresis (rheology) when compared to gels containing only soybean proteins. The mechanical differences suggest that soybean proteins dominated the three-dimensional matrix while amaranth proteins were less engaged and acted as a filler. [ABSTRACT FROM AUTHOR]

Published

2024

22. Comparative study and characterization of water-treated bacterial cellulose produced by solid or liquid inoculum of Komagateibacter sucrofermentans.

Author

Drosos, Athanasios, Kordopati, Golfo G., Anastasopoulos, Charalampos, Zafeiropoulos, John, Koutinas, Athanasios A., and Kanellaki, Maria

Subjects

CELLULOSE, HYSTERESIS loop, CHEMICAL purification, COMPARATIVE studies, LIQUIDS, SOLIDS, WATER purification

Abstract

Structural and physicochemical properties of two types of bacterial cellulose (BC) produced by Komagateibacter sucrofermentans strain DSM 15973T after 7 days through either immobilized bacteria (solid inoculum) forming BCS7 or free bacteria (liquid inoculum) forming BCL7, followed by a water-based purification as a chem-free alternative treatment, were investigated in this study. SEM verifies the effectiveness of the water-based purification on BC network and reveals the insufficient interfibrillar space of BCS7 compared to BCL7. BCL7 was generally proved to be superior to BCS7 regarding degree of purification, BC yield, overall higher porosity, water swell ability, and water holding capacity (WHC), exhibiting higher hydrophilicity. However, thermally resistant BCS7 reveals a 35% residual up to 800 ºC compared to BCL7 (15%) and prevailed in terms of water retention rate. Both water-treated BC7 were proved to be Iα-rich cellulose type and exhibited a typical type IV(a) isotherm with an H3 type of hysteresis loop, a similar pore distribution, crystallinity index (~77%), crystallite size (~7.5 cm), same levels of moisture content (~98%) and the same poor levels of rehydration after the freeze-drying process. During BCL kinetics in 20 mL of HS medium over 7 days, K. sucrofermentans, 2D pellicle formation was observed until day 3 and then 3D. The highest WHC was obtained on day 4 (116 g water/g cellulose), while the lowest on day 1 (19 g water/g cellulose). Overall, we discussed the preparation and characterization of two different BCs water-treated for purification as an eco-friendly alternative method towards functional, and sustainable application. [ABSTRACT FROM AUTHOR]

Published

2024

23. Artemisia afra essential oils inclusion in diets induces desirable effects on meat quality and fatty acid profiles of broilers chickens

Author

U. Marume, W. Zvarivadza, and A. Hugo

Subjects

Slaughter weight, Drip loss, Water holding capacity, Omega-6, Omega-3, Veterinary medicine, SF600-1100

Abstract

The effects of Artemisia afra (African wormwood) essential oil incorporation in diets on meat quality and fatty acid profilers of broilers was assessed. Four hundred Cobb500 day-old chicks were obtained and placed randomly into the following 4 diets replicated 10 times: NC-Negative control (broiler diet without antibiotics), PC-positive control (broiler diet with zinc bacitracin), AA1-broiler diet + 0.1 % A. afra essential oil and AA2 - broiler diet + 0.3% A. afra essential oil. A pen having 10 chicks was regarded as the experimental unit. From the results, all carcass traits were influenced (P < 0.01) by diet apart from the dressing out percentage. The highest slaughter weights (1846g) and hot carcass weight (1427.36g) were obtained in birds fed the AA1 diet. Highest ultimate pH value (6.24) was obtained from the birds fed the AA1 while the highest values for meat lightness (L*) were obtained in birds offered the AA1 and NC diets (55.73 and 55.82). Cooking loss was highest in birds fed the NC (31.01%) diet. Birds fed the AA2 diet (23.7mg/g)) had the highest intramuscular fat followed by the AA1 fed birds. Inclusion of A. afra essential oils in diets also increased the proportion of PUFAs, n-6 and n-3 fatty acids and the PUFA/SFA ratios. In conclusion, the incorporation of A. afra essential oil in diets improved meat quality and fatty acid composition of broiler meat for the benefit of consumers.

Published

2024

24. Gelation Properties of a Sustainably Produced Fava Bean Concentrate

Author

Perez, Jessica, Santana, Ismael, Sciammaro, Leonardo, Bengoechea, Carlos, Puppo, Cecilia, Guerrero, Antonio, Ghosh, Arindam, Series Editor, Chua, Daniel, Series Editor, de Souza, Flavio Leandro, Series Editor, Aktas, Oral Cenk, Series Editor, Han, Yafang, Series Editor, Gong, Jianghong, Series Editor, Jawaid, Mohammad, Series Editor, Torres, Yadir, editor, Beltran, Ana M., editor, Felix, Manuel, editor, Peralta, Estela, editor, and Larios, Diego F., editor

Published

2024

25. Agronomic Benefits of Biochar Application in Sandy Soils

Author

Morim, Carolina, Santos, Márcia, Mendoza, Pollyanna, Tarelho, Luís, Silva, Flávio, Bezaeva, Natalia S., Series Editor, Gomes Coe, Heloisa Helena, Series Editor, Nawaz, Muhammad Farrakh, Series Editor, Galvão, João Rafael da Costa Sanches, editor, Brito, Paulo, editor, Neves, Filipe dos Santos, editor, Almeida, Henrique de Amorim, editor, Mourato, Sandra de Jesus Martins, editor, and Nobre, Catarina, editor

Published

2024

26. Use of biochar as a sustainable agronomic tool, its limitations and impact on environment: a review

Author

Vineet Upadhyay, Krishna Kumar Choudhary, and Shashi Bhushan Agrawal

Subjects

Biochar, Agroecosystem, Water holding capacity, Soil fertility, Secondary metabolites, Growth and yield, Agriculture (General), S1-972, Environmental sciences, GE1-350

Abstract

Abstract Ensuring global food security under present and futuristic scenario of climate change accompanied by expanding population is of major concern worldwide. Researchers across the world are focusing on sustainable agronomic practices to combat climate change induced issues like desertification, reduction in crop yield, pest outbreaks, and reduction in soil health. Biochar has demonstrated positive effects on plant growth, development, fruit quality, carbon capture and sequestration. Studies indicate that biochar amendments to soil can enhance soil health, plant growth and development as well as help in combating abiotic stressors. Biochar has several properties that make it an attractive soil amendment, including high porosity, surface area, water-holding capacity, and the ability to increase soil microbiota, which in turn can promote nutrient uptake and reduce soil erosion. Environmentally, biochar’s ability to degrade organic pollutant as well as sequester carbon makes it a very attractive addition to sustainable agriculture. Nonetheless, biochar has also been reported to have potential hazardous impacts on human health associated with possible leakage of toxic elements and particulate matter pollution. However, lack of exhaustive studies that detail all the major aspects of biochar application in agroecosystem impedes decision making on its overall usability in agriculture. There exists a need for comprehensive review that cover all the important aspects of biochar supplementation. This review provides a thorough overview of the multifaceted impacts of biochar, encompassing its positive effects on soil, plant growth, development and environment, while also exploring the limitations along with potential toxic effects associated with its application.

Published

2024

27. Litter Accumulation and Water Retention Characteristics of Different Stands of Tropical Rainforest in Hainan

Author

Cheng Siyuan, Chen Qiaoyan, Qiao Dong, and Dai Licong

Subjects

litter storage, tropical rainforest, water holding capacity, water absorption rate, effective blocking capacity, hainan, Geography (General), G1-922

Abstract

As the final layer for precipitation interception in forests, the litter layer is crucial to the vertical structure of forest ecosystems, situated between the forest vegetation and soil layers. Exploring the litter accumulation and water retention characteristics in different tropical rainforest stands is essential for assessing their water conservation functions. This study focused on three forest stands (primary forest, secondary forest, and rubber plantation) within Qixianling Hot Springs National Forest Park in Hainan, China. The immersion method was used to measure litter accumulation and water retention characteristics, exploring variations among these forest stands. Results revealed (1) significant differences in litter accumulation among the stands, with the primary forest having the highest litter accumulation (2.791 t/hm2), followed by the secondary forest (2.077 t/hm2) and rubber plantation (1.660 t/hm2). Litter moisture content followed the order: primary forest (57.57%) > secondary forest (48.33%) > rubber plantation (46.44%). (2) Regarding water retention and water retention rate, both primary and secondary forests showed an increasing trend with immersion time, with the primary forest exhibiting higher water retention and retention rates than the secondary forest. In contrast, rubber plantations showed no clear trends in water retention or retention rates over time. The relation between litter water absorption rate and immersion time followed a well-fitted power function. The maximum water retention capacities were in the order of primary forest (8.041 t/hm2) > secondary forest (6.251 t/hm2) > rubber plantation (4.896 t/hm2). (3) In terms of water absorption and water loss rates, the rubber plantation had the highest water loss rate, followed by the secondary forest and the primary forest. The maximum water loss was observed in the primary forest (5.225 t/hm2) > secondary forest (4.626 t/hm2) > rubber plantation (4.079 t/hm2), and the maximum water loss rates followed the order: rubber plantation (246.319%) > secondary forest (222.649%) > primary forest (189.748%). The forest litter layer's water retention capacity and storage are closely related, with larger litter reserves correlating with greater water retention. Therefore, among the three forest types, the maximum and effective water interception capacities exhibited the following trend: primary forest > secondary forest > rubber plantation. The maximum and effective interception rates show the pattern: primary forests ≈ rubber plantations > secondary forests. The water conservation function of litter is reflected in its water retention capacity and rate of water loss. Given that primary forests exhibit a higher water retention capacity and lower water loss rates, litter accumulation in primary forests is more conducive to forest water conservation functions. Hence, future efforts should focus on protecting litter from primary forests. Conversely, the litter in rubber plantations tends to have a higher rate of water loss, resulting in poorer water conservation. Therefore, future considerations should include planting understory vegetation in rubber plantations to enhance litter water-conservation capabilities and prevent soil erosion. These findings provide crucial theoretical guidance for forest management and the enhancement of water conservation in tropical regions.

Published

2024

28. Drainage of paddy terraces impacts structures and soil properties in the globally important agricultural heritage of Hani Paddy Terraces, China

Author

Ming Wang, Li Rong, Yanbo Li, Jiangcheng Huang, Yuanmei Jiao, and Xiaoyan Wei

Subjects

Hani paddy terraces, Terraces marginalization, Terrace structure degradation, Soil productivity, Water holding capacity, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Marginalization and abandonment of paddy terraces are widespread, but their effects on the sustainability of subsequent agricultural production are still unknown. Hani Paddy Terraces, included in Globally Important Agriculture Heritage Systems, are threatened by paddy fields drainage. Here, changes in terrace structure, the productivity of topsoil (0–20 cm), and soil water holding capacity at 0–70 cm depth were determined in a case study of Hani Paddy Terraces in Amengkong River Basin in Yuanyang County in Southwestern China, which had been converted into dryland terraces for 2–14 years. Our results showed that: (1) The degree of terrace structures degradation exhibited a U-shaped curve with increasing time since draining, with those drained for 5–9 years having the best structure; (2) Soil productivity index decreased first and then increased with time after conversion; (3) Maximum water holding capacity at 0–70 cm soil depth dramatically decreased after conversion and such trend became increasingly obvious with increasing time since conversion. Our study revealed that drainage of paddy terraces along with associated changes in crop and field management led to an increase in soil productivity, but degradation of terrace structures and a decrease in water holding capacity will inhibit restoration to paddy terraces. These findings enhance the understanding of the biophysical changes due to marginalization in paddy terraces.

Published

2024

29. Study on the effects of pre-slaughter transport stress on water holding capacity of pork: Insights from oxidation, structure, function, and degradation properties of protein

Author

Chao Ma, Jian Zhang, Ruyu Zhang, Lei Zhou, Laixue Ni, and Wangang Zhang

Subjects

Pre-slaughter transport stress, Protein oxidation, Protein structure, Protein degradation, Microstructure, Water holding capacity, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456

Abstract

This work systematically investigated the effects of pre-slaughter transport stress on pork water holding capacity (WHC) during aging from the perspectives of oxidation, structure, function, and degradation properties of protein. Pigs were randomly divided into three-hour transport (Transport-induced stress, T group) and three-hour transport followed by three-hour resting (Control, TR group). Results demonstrated that T treatment markedly declined pork WHC. Compared with TR group, T group presented increased oxidation levels. Meanwhile, T treatment exacerbated the shift of protein secondary structure from α-helix to random coil and protein unfolding levels. The decreased solubility, thermal stability, and degraded levels of proteins were also observed in T group. Additionally, muscle contractions of T group were more severe than TR group. This study supported that pre-slaughter transport stress altered physicochemical properties and structures of postmortem muscle proteins, which reduced pork WHC via impairing the interactions between protein and water molecules and changing the muscle fiber structure.

Published

2024

30. Use of biochar as a sustainable agronomic tool, its limitations and impact on environment: a review.

Author

Upadhyay, Vineet, Choudhary, Krishna Kumar, and Agrawal, Shashi Bhushan

Subjects

*SUSTAINABLE agriculture, *AGRONOMY, *ENVIRONMENTAL impact analysis, *BIOCHAR, *AGRICULTURAL technology, *FOOD security

Abstract

Ensuring global food security under present and futuristic scenario of climate change accompanied by expanding population is of major concern worldwide. Researchers across the world are focusing on sustainable agronomic practices to combat climate change induced issues like desertification, reduction in crop yield, pest outbreaks, and reduction in soil health. Biochar has demonstrated positive effects on plant growth, development, fruit quality, carbon capture and sequestration. Studies indicate that biochar amendments to soil can enhance soil health, plant growth and development as well as help in combating abiotic stressors. Biochar has several properties that make it an attractive soil amendment, including high porosity, surface area, water-holding capacity, and the ability to increase soil microbiota, which in turn can promote nutrient uptake and reduce soil erosion. Environmentally, biochar's ability to degrade organic pollutant as well as sequester carbon makes it a very attractive addition to sustainable agriculture. Nonetheless, biochar has also been reported to have potential hazardous impacts on human health associated with possible leakage of toxic elements and particulate matter pollution. However, lack of exhaustive studies that detail all the major aspects of biochar application in agroecosystem impedes decision making on its overall usability in agriculture. There exists a need for comprehensive review that cover all the important aspects of biochar supplementation. This review provides a thorough overview of the multifaceted impacts of biochar, encompassing its positive effects on soil, plant growth, development and environment, while also exploring the limitations along with potential toxic effects associated with its application. [ABSTRACT FROM AUTHOR]

Published

2024

31. Improving the Efficiency and Environmental Friendliness of Urban Stormwater Management by Enhancing the Water Filtration Model in Rain Gardens.

Author

Kravchenko, Maryna, Trach, Yuliia, Trach, Roman, Tkachenko, Tetiana, and Mileikovskyi, Viktor

Subjects

RAIN gardens, URBAN runoff management, WATER filtration, WATER management, WATERSHEDS, GARDEN structures

Abstract

Rain gardens are used to solve urban problems related to the negative impact of stormwater. (1) Scientific contributions from different countries provide general guidelines for the design and operation of rain gardens in different geographical areas. Given the small spatial scale of rain gardens, the use of existing infiltration models often leads to design errors. (2) The purpose of this paper is to develop a hydrological model by introducing a system of equations that extends the ability to calculate the rate, flow rate and time of saturation of layers with moisture and rainwater leakage from the rain garden system. (3) The results obtained allow us to describe the dynamic processes of passage and saturation of layers of the rain garden at a certain point in time, which extends the ability to calculate the flow rate. It was established that the smaller the area of the rain garden compared to the area of the catchment basin, the faster it reaches its full saturation. Increasing the thickness of the rain garden layers allows for an increase in the efficiency of water retention at a lower value of the area ratio. (4) The practical significance of the results obtained is especially important for the correct description of hydrodynamics in the system and determining the optimal conditions for the effective functioning and management of the rain garden structure for any climatic region. [ABSTRACT FROM AUTHOR]

Published

2024

32. 基于脂肪替代品的柠檬果胶凝胶特性.

Author

何雨婕, 张巧, 李巧巧, 雷激, 李贤, 魏春菊, 卢钏燚, and 周静

Abstract

Copyright of Food Research & Development is the property of Food Research & Development Editorial Department 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

33. The Biomass Amount of Spontaneous Vegetation Concerning the Abiotic Habitat Conditions in Coal Mine Heaps as Novel Ecosystems.

Author

Ryś, Karolina, Chmura, Damian, Dyczko, Artur, and Woźniak, Gabriela

Subjects

BIOMASS, HEAP leaching, SCIENTIFIC method, ECOSYSTEMS, COAL, HABITATS, COAL mining

Abstract

Biomass, primarily derived from photosynthesizing plants harnessing solar energy, is crucial for ecosystem functioning and diverse services. This study delved into the unique ecosystem of coal mine heaps, exploring unexpected relations between abiotic factors and biomass in spontaneous vegetation. Biomass quantity and quality are influenced by such factors as plant photosynthesis efficiency, necessitating an understanding of dynamics on postmining sites. The conducted investigation focused on diverse spontaneous vegetation on coal mine heaps, analyzing abiotic conditions such as soil texture, water holding capacity, pH, electrical conductivity, nitrogen, carbon, magnesium, sodium, and acidity. Contrary to the adopted hypothesis, nitrogen content negatively correlates with soil total nitrogen, carbon, and water holding capacity. However, the biomass of dominant plant species positively correlates with available phosphorus, pH, calcium, and sodium. These unexpected relationships highlight biomass dynamics complexity in novel ecosystems on coal mine heaps, stressing the need to consider spontaneous vegetation biomass as a valuable resource and ecosystem service in urban-industry landscapes. The obtained findings expand scientific inquiry and have practical implications for post-industrial area reclamation. Understanding biomass potential in identified vegetation types provides insights into biomass character on coal mine heaps, crucial for maximizing spontaneous vegetation potential and transforming post-industrial landscape reclamation approaches. [ABSTRACT FROM AUTHOR]

Published

2024

34. Biochar impacts on soil water dynamics: knowns, unknowns, and research directions.

Author

Acharya, Bharat Sharma, Dodla, Syam, Wang, Jim J., Pavuluri, Kiran, Darapuneni, Murali, Dattamudi, Sanku, Maharjan, Bijesh, and Kharel, Gehendra

Subjects

*SOIL moisture, *SOIL dynamics, *SOIL permeability, *SOIL infiltration, *BIOCHAR, *WATERSHEDS

Abstract

Amidst intensifying global agricultural water demand, optimizing management practices and understanding the role of soil amendments, particularly biochar (BC), in modulating soil water dynamics are critical. Here, we review the potential impacts of BC on soil water dynamics, elucidate mechanistic underpinnings, and identify critical research gaps and prospective avenues. In general, BC modifies soil structure, hydraulic properties, surface albedo, and heat fluxes, which influence soil water storage, energy balance, and irrigation paradigms. Depending on soil texture and BC properties, BC demonstrates a greater reduction in bulk density and saturated hydraulic conductivity in coarse-textured soils compared to fine-textured soils. BC application generally increases water holding capacity (WHC) while exhibiting no consistent impact on soil water infiltration. Increased WHC of soils results from increased porosity, surface area, and soil aggregation. Increased porosity arises from a confluence of factors, encompassing new pores formation, reorganization of pores, increased soil aggregation, dilution effects of BC, reduced soil compaction, and biotic interactions, including increased population of burrowing invertebrates. BC tends to increase plant-available water in coarser soils, attributed to its hydrophilic nature, augmented specific surface area, and enhanced overall porosity. However, BC may induce soil water repellency, contingent upon variables such as feedstock composition, pyrolysis temperature, and specific soil attributes. While BC exhibits transformative potential in enhancing soil hydraulic properties, scalability concerns and economic viability pose challenges to its widespread agricultural application. Overall, BC offers promising avenues for sustainable water management. However, it is imperative to explore large-scale applications and conduct long-term field studies across different management, climate, and soil types to fully understand how different types of BC impact soil water dynamics. Highlights: Biochar generally improves soil water retention in coarse-textured soils. In coarse-textured soils, biochar increases porosity and PAW but decreases bulk density and Ksat. The effects of biochar on infiltration rates vary depending on soil types, as well as biochar particle size, production temperature, and depth of placement. Further studies on the mechanisms governing water retention in biochar-amended soils are warranted. Long-term studies encompassing various soil and biochar types are necessary. [ABSTRACT FROM AUTHOR]

Published

2024

35. Synergistic mechanism of steam blanching and freezing conditions on the texture of frozen yellow peaches based on macroscopic and microscopic properties.

Author

Meilin Xian, Jinfeng Bi, Lina Hu, Yitong Xie, Yinuo Zhao, and Xin Jin

Subjects

*PEACH, *FREEZING, *ICE crystals, *STRESS fractures (Orthopedics), *MASS transfer, *FRUIT texture

Abstract

Freezing and blanching are essential processing steps in the production of frozen yellow peaches, inevitably leading to texture softening of the fruit. In this study, the synergistic mechanism of stem blanching, freezing conditions (-20°C, -40°C, -80°C, and liquid nitrogen [-173°C]), and sample sizes (cubes, slices, and half peaches) on macroscopic properties of texture, cellular structure, and ice crystal size distribution of frozen yellow peaches were measured. Blanching enhanced the heat and mass transfer rates in the subsequent freezing process. For nonblanched samples, cell membrane integrity was lost at any freezing rate, causing a significant reduction in textural quality. Slow freezing further exacerbated the texture softening, while the ultra-rapid freezing caused structural rupture. For blanched samples, the half peaches softened the most. The water holding capacity and fracture stress were not significantly affected by changes in freezing rate, although the ice crystal size distribution was more susceptible to the freezing rate. Peach cubes that had undergone blanching and rapid freezing (-80°C) experienced 4% less drip loss than nonblanched samples. However, blanching softened yellow peaches more than any freezing conditions. The implementation of uniform and shorter duration blanching, along with rapid freezing, has been proven to be more effective in preserving the texture of frozen yellow peaches. Optimization of the blanching process may be more important than increasing the freezing rate to improve the textural quality of frozen yellow peaches. [ABSTRACT FROM AUTHOR]

Published

2024

36. Functional properties of defatted chickpea flour heat-induced gels.

Author

Chonghao Bi, Aoxue Qie, Tong Zhou, Yi Liu, and Bin Tian

Subjects

*RHEOLOGY, *FLOUR, *STRUCTURAL stability, *TEMPERATURE effect, *VISCOELASTICITY

Abstract

Defatted chickpea flour (DCF), which is a by-product of chickpea oil extraction industry, is rich in nutrients that are beneficial to human health. In this study, the effects of temperature and DCF variation on the rheological properties, water holding capacity, freeze-thaw stability and microstructure of DCF heat induced gels were investigated. The results showed that the viscoelasticity, frequency dependence, and resistance strength of heat induced gels increased significantly with the increase of temperature and DCF variation. The degree of denaturation and water retention of heat induced gels increased significantly with increased variables within the temperature and variation windows of 75°C to 95°C and 13% to 21%. The CLSM results revealed that variations of both temperature and DCF variation could cause the proteins in the heat induced gels to aggregate gradually and to form protein aggregations. When temperature or variation exceeded certain value (85°C or 17%), the protein aggregations broke up and the protein clusters became smaller and more homogeneous. Therefore, the heat induced gels presented better water holding capacity, viscoelasticity, structural stability and gel property at a temperature of 95°C or a DCF variation of 21% within the present experimental range. [ABSTRACT FROM AUTHOR]

Published

2024

37. 海南热带雨林不同林分凋落物储量及其持水特性.

Author

程思源, 陈俏艳, 乔栋, and 戴黎聪

Abstract

As the final layer for precipitation interception in forests, the litter layer is crucial to the vertical structure of forest ecosystems, situated between the forest vegetation and soil layers. Exploring the litter accumulation and water retention characteristics in different tropical rainforest stands is essential for assessing their water conservation functions. This study focused on three forest stands (primary forest, secondary forest, and rubber plantation) within Qixianling Hot Springs National Forest Park in Hainan, China. The immersion method was used to measure litter accumulation and water retention characteristics, exploring variations among these forest stands. Results revealed (1) significant differences in litter accumulation among the stands, with the primary forest having the highest litter accumulation (2.791 t/hm2), followed by the secondary forest (2.077 t/hm2) and rubber plantation (1.660 t/hm2). Litter moisture content followed the order: primary forest (57.57%) > secondary forest (48.33%) > rubber plantation (46.44%). (2) Regarding water retention and water retention rate, both primary and secondary forests showed an increasing trend with immersion time, with the primary forest exhibiting higher water retention and retention rates than the secondary forest. In contrast, rubber plantations showed no clear trends in water retention or retention rates over time. The relation between litter water absorption rate and immersion time followed a well-fitted power function. The maximum water retention capacities were in the order of primary forest (8.041 t/hm2) > secondary forest (6.251 t/hm2) > rubber plantation (4.896 t/hm2). (3) In terms of water absorption and water loss rates, the rubber plantation had the highest water loss rate, followed by the secondary forest and the primary forest. The maximum water loss was observed in the primary forest (5.225 t/hm2) > secondary forest (4.626 t/hm2) > rubber plantation (4.079 t/hm2), and the maximum water loss rates followed the order: rubber plantation (246.319%) > secondary forest (222.649%) > primary forest (189.748%). The forest litter layer's water retention capacity and storage are closely related, with larger litter reserves correlating with greater water retention. Therefore, among the three forest types, the maximum and effective water interception capacities exhibited the following trend: primary forest > secondary forest > rubber plantation. The maximum and effective interception rates show the pattern: primary forests ≈ rubber plantations > secondary forests. The water conservation function of litter is reflected in its water retention capacity and rate of water loss. Given that primary forests exhibit a higher water retention capacity and lower water loss rates, litter accumulation in primary forests is more conducive to forest water conservation functions. Hence, future efforts should focus on protecting litter from primary forests. Conversely, the litter in rubber plantations tends to have a higher rate of water loss, resulting in poorer water conservation. Therefore, future considerations should include planting understory vegetation in rubber plantations to enhance litter water-conservation capabilities and prevent soil erosion. These findings provide crucial theoretical guidance for forest management and the enhancement of water conservation in tropical regions. [ABSTRACT FROM AUTHOR]

Published

2024

38. Efficacy of Topical Application of a Skin Moisturizer Containing Pseudo-Ceramide and a Eucalyptus Leaf Extract on Atopic Dermatitis: A Review.

Author

Takagi, Yutaka

Subjects

*TOPICAL drug administration, *ATOPIC dermatitis, *EUCALYPTUS, *SKIN diseases, *CERAMIDES

Abstract

Atopic dermatitis (AD) is a chronic inflammatory skin disease associated with pruritus, an impaired cutaneous barrier function and a disrupted water holding capacity. Levels of ceramides, which are major components of intercellular lipids and are crucial for their functions, are decreased in the stratum corneum of patients with AD. Treatments to increase ceramide levels are effective for AD care. Synthetic pseudo-ceramide (cetyl PG hydroxyethyl palmitamide (SLE66)), which has a structure developed via molecular designs, and a eucalyptus leaf extract (ELE) enhance ceramide synthesis in the epidermis. The topical application of a skin moisturizer containing SLE66 and ELE improves the barrier functions and water holding capacity of AD skin accompanied by an improvement in skin symptoms. This is a multifaceted review that summarizes the efficacy of the topical application of a skin moisturizer containing SLE66 and ELE on atopic dermatitis. [ABSTRACT FROM AUTHOR]

Published

2024

39. Soil moisture evaluation with spiral fringing field capacitive sensors.

Author

Oommen, B. A. and Philip, J.

Abstract

This work reports the design, fabrication, implementation and testing of Archimedean spiral, fringing field, planar interdigital capacitive sensor employing printed circuit board technology to evaluate moisture contents in soil samples. Two sensor designs are adopted with differing numbers of turns, each in two different configurations (single sided and double sided), to evaluate their performance in the determination of moisture contents. Four different types of soil samples are subjected to experimentation in this study with either the sensors kept inserted fully into the soil samples or kept above a compacted soil surface. It is found that the sensor capacitance, in general, increases exponentially with soil moisture contents. The fitting curves are found to vary with water holding capacity of the soil. As the water holding capacity decreases, the exponential variation turns into a linear fit correspondingly. The sensor capacitance is compared with standard gravimetric method for soil moisture evaluation. It is found that the sensitivity of the present sensor is superior to all the sensors tested and reported in the past for soil moisture evaluation, with 437.48 pF/MC% for the double-sided spiral design and 229.73 pF/MC% for the single-sided design in alluvial soil. It also has other advantages like ease of implementation, high accuracy, fast response and low cost. [ABSTRACT FROM AUTHOR]

Published

2024

40. Modulating Molecular Interactions in Extruded Pea Protein Isolate.

Author

Muhialdin, Belal J., Flores Sanchez, Cecia, Nakagawa, Hiroshi, and Ubbink, Job

Abstract

The impact of molecular interactions on the physical properties of extruded pea protein isolate (PPI) is investigated by adding interaction-modulating compounds to the matrix premix and studying the resulting variations in mechanical and physicochemical properties. Blends of PPI (water content 50% w/w) containing either sodium phosphate, urea, sodium dodecylsulphate and β-mercaptoethanol, as well as with all four compounds and only with deionized water (control) were extruded into thin strands (diameter ∼2.4 mm) using a lab-scale twin-screw extruder. The hardness from texture profile analysis (TPA) was the lowest for matrices extruded with β-mercaptoethanol and with all four chemicals, and highest for the control sample. The water holding capacity (WHC) of the matrices is lowest for the β-mercaptoethanol-containing matrix. These results are corroborated by the absorbance of the supernatant at λ = 280 and 600 nm. Our results confirm the importance of disulfide bonds in texturized PPI and show that hydrophobic and electrostatic interactions play auxiliary roles in modulating the properties of extruded PPI matrices. Our approach opens novel ways to modulate the physical properties of texturized plant protein matrices and thereby control their texture. [ABSTRACT FROM AUTHOR]

Published

2024

41. Characterization of Red Seaweed Chondracanthus Chamissoi from the Coasts of Perú: Chemical Composition, Antioxidant Capacity and Functional Properties.

Author

Gamero-Vega, Giulianna, Vásquez-Corales, Edison, Ormeño-Llanos, Mily, Cordova-Ruiz, Madeleine, and Quitral, Vilma

Subjects

OXIDANT status, DIETARY fiber, RF values (Chromatography), PLANT polyphenols, G proteins, PROCESSED foods, COASTS

Abstract

The present investigation finds that Chondracanthus chamissoi seaweed abounding in Peruvian coasts is characterized by its nutritional composition, total polyphenols, antioxidant capacity, and functional properties such as water-holding capacity (WHC), oil-holding capacity (OHC), and swelling capacity (SC). Boiling and steaming were applied before dehydration to evaluate the effect of these thermal treatments, keeping a control sample. The results indicated that the control dried seaweed sample presented 20.2 ± 0.16 g/100 g dw of proteins, 20.0 ± 0.61 g/100 g dw of ash, and 56.6 ± 0.08 g/100 g dw of total dietary fiber. In addition, the control sample presented 1.6 ± 0.07 mg GAE/g of total polyphenol content and 2.4 ± 0.30 mM Trolox mg/g of antioxidant capacity. In boiling samples, the apparent nutrient retention factors for proteins, fat, and dietary fiber are 96, 47 and 74%, respectively. In the steaming sample, the values were 102, 29, and 92%. The boiling before dehydration causes a significant decrease (p < 0.05) in total polyphenols and increases carbohydrates. Steaming before dehydration, a significant (p < 0.05) increase occurs in carbohydrates without significantly altering the concentration of total polyphenols. Regarding the functional properties, C. chamissoi presents 17.6 ± 0.15 g/g of WHC, 2.4 ± 0.78 g/g of OHC, and 9.8 ± 0.75 mL/g of SC. Boiling produces an increase in WHC and OHC; steaming does not affect the properties of the control sample. C. chamissoi seaweed collected from the coasts of Perú is an excellent alternative for use as food and ingredients in processed foods for human consumption. [ABSTRACT FROM AUTHOR]

Published

2024

42. Impact of frozen storage on physicochemical parameters and quality changes in cooked crayfish

Author

Taher Abdelnaby, Tingyu Feng, Zhang Tiantian, Xiaoming Jiang, Wang Yuming, Zhaojie Li, and Changhu Xue

Subjects

Procambarus clarkia, Ice crystal formation, Texture deterioration, Water holding capacity, Oxidation, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Customers are increasingly opting for ready-to-eat and easy-to-prepare food products, such as cooked crayfish. It is highly valued for its unique taste, tender meat, and nutritional properties. Therefore, we conducted an investigation into its quality parameters over an 8-week period at −20 °C. Parameters such as water distribution, oxidation reactions, color, microstructure, texture properties, and physicochemical parameters were examined. The physicochemical results indicated that as the storage time increased, the levels of pH and TVB-N (total volatile basic nitrogen) showed a significant increase, while the water holding capacity decreased significantly (P

Published

2024

43. Feeding pomegranate pulp to Ghezel lambs for enhanced productivity and meat quality

Author

Zabihollah Nemati, Saeid Amirdahri, Ardashir Asgari, Akbar Taghizadeh, Shahida Anusha Siddiqui, Magsoud Besharati, Kazem Alirezalu, and Benjamin W.B. Holman

Subjects

Pomegranate pulp, Lamb meat, Agrifood by-product, Total mixed ration, Liveweight, Water holding capacity, Veterinary medicine, SF600-1100

Abstract

Agrifood by-products contain nutrients and bioactive compounds that can be used in the diets of livestock – thereby value-adding to an otherwise waste product of environmental and economic significance. This study investigated the effect of dietary pomegranate pulp in the total mixed ration of Ghezel lambs, evaluating its effect on growth performance, blood parameters, carcass traits, as well as meat quality and shelf life. 3-month-old Ghezel lambs (individually housed, n = 8) were randomly assigned to be either non-supplemented (control) or supplemented with 100 g/kg DM of sun-dried pomegranate pulp for 28 days, post-adjustment. Results showed that supplementation of lamb diets with pomegranate pulp significantly increased liveweight and average daily gains, while not significantly affecting dry matter intake. Lamb serum urea and alkaline phosphatase concentrations and hot carcass weight were increased with pomegranate pulp supplementation. Compared to control lambs, the meat from lambs fed the supplemented diet had higher concentrations of intramuscular fat, mono- and polyunsaturated fatty acid, total unsaturated fatty acid, and meat phenolic compounds. Pomegranate pulp supplemented lambs also had a higher ratio of polyunsaturated to saturated fatty acids; and produced liver tissue with less fat and ash contents. Meat oxidative status (thiobarbituric acid reactive substance) and quality (water holding capacity, colour, and pH) were improved when lambs were supplemented with pomegranate pulp. These findings demonstrate that using pomegranate pulp as a feed for Ghezel lambs has advantageous effects on animal performance and meat quality, offering valorisation of an agrifood by-product.

Published

2024

44. Fortification of set yoghurts with lemon peel powders: An approach to improve physicochemical, microbiological, textural and sensory properties

Author

Md. Naimur Rahman, Md. Nahidul Islam, Md. Manik Mia, Shahriar Hossen, Md. Forshed Dewan, and Md. Sultan Mahomud

Subjects

Viscosity, Syneresis, Foaming properties, Emulsifying properties, Water holding capacity, Microstructure, Food processing and manufacture, TP368-456

Abstract

Lemon peel powder (LPP) is an excellent source of pectin and has been used as prebiotic polysaccharide. This study was conducted to assess the possibility of fortifying yoghurt with LPP (0.25 %, 0.5 % and 0.75 %) to improve the functionality of yoghurt. Physico-chemical properties of LPP as well as pH, acidity, color, total solids, viscosity, water holding capacity, syneresis, microbial, textural and sensory properties of LPP fortified yoghurt during 14 days of storage were evaluated. The results showed that bulk density, swelling, water absorption, emulsifying, and foaming capacity of LPP were 0.548, 8.61, 5.23 ml/g, 14.22 % and 11.33 % respectively. Addition of LPP enhanced the viscosity from 480 mPas to 610 mPas, total solid from 22.73 % to 25.93 %, acidity from 815 mg/100 ml to 1006 mg/100 ml and decreased pH values from 4.83 to 4.52. LPP fortification also improved the water holding capacity, microbial viability, and microstructure. The sensory test revealed that yoghurt with 0.5 % LPP had higher sensory scores and overall acceptability. Based on the data obtained from the current study, the addition of 0.5 % LPP in yoghurt had been suggested to enhance the nutritional quality of yoghurt by providing better physicochemical and organoleptic qualities.

Published

2024

45. THE PHYSICOCHEMICAL PROPERTIES OF A COMMERCIAL CRICKET (ACHETA DOMESTICUS) PROTEIN POWDER AS A BASIS FOR ITS USE IN FOOD PRODUCTS

Author

OLGA DRĂGHICI and GEORGIANA-DENISA MARCU

Subjects

additives, commercial, dsc, food, hygroscopicity, protein, swelling index, water holding capacity, Chemical technology, TP1-1185

Abstract

The present work investigates the stability over time and the possibility of using commercial cricket (Acheta domesticus) protein powder as an ingredient in various food products. The results indicated that the protein powder is hygroscopic, but it can be kept for 7 months in a package, even if it is unsealed. After one week of storage in an open package, in contact with atmospheric air, the water activity increases from 0.150 to 0.514 and the moisture value increased almost three times. Differential Scanning Calorimetry (DSC) analysis showed that the proteins are completely denatured. The values for water holding capacity increase as the pH of the environment increases between 6 and 8, and the swelling index has higher values for pH between 4 and 6. In the case of liquid products, commercial cricket (Acheta domesticus) protein powder can be add if the liquids have an ionic strength as low as possible and a pH around 4.

Published

2023

46. Histomorphometric traits, microbiota, nutrient digestibility, growth performance, carcass traits and meat quality parameters of chickens fed diets supplemented with different levels of Bacillus protease

Author

Chika E. Oyeagu, Victor Mlambo, and Francis B. Lewu

Subjects

Crypt depth, E. coli, gut integrity, villus height, water holding capacity, Veterinary medicine, SF600-1100

Abstract

The effects of dietary Bacillus protease on broiler performance were examined. Three hundred ‘Cobb 500’ day-old broilers were randomly assigned to five dietary groups with five replicates of 12 birds each. Treatments include: PROT0; without protease addition (0 g/kg; control), PROT10, PROT15, PROT20 and PROT25 diets supplemented with Bacillus protease at the level of 1, 1.5, 2 and 2.5 g/kg, respectively. Birds fed PROT25 had the highest (p

Published

2023

47. Advances in Research on the Improvement of Low-Salt Meat Product Through Ultrasound Technology: Quality, Myofibrillar Proteins, and Gelation Properties

Author

Xiuyun Guo, Shuangyi Xu, Chao Fu, and Zengqi Peng

Subjects

ultrasound, salt reduction, processed meat, flavor, water holding capacity, Organic chemistry, QD241-441

Abstract

The high sodium content in meat products poses health risks to consumers and does not align with modern green and healthy living standards. Current strategies for directly reducing the sodium content in meat products are limited by their negative impact on the sensory or quality attributes of the products. In recent years, there has been great interest in applying ultrasound technology to reduce sodium content. This paper discusses the advantages and disadvantages of current mainstream strategies for reducing the sodium content in meat products, as well as the potential mechanisms by which ultrasound-assisted marination improves the quality of low-salt meat products. The main findings indicate that ultrasound, through its cavitation and mechanical effects, facilitates the transition of proteins from stable insoluble aggregates to stable soluble complexes, exposing more hydrophilic groups and, thus, enhancing protein solubility. At the same time, ultrasound promotes a greater number of proteins to participate in the formation of interfacial layers, thereby increasing emulsifying activity. Furthermore, ultrasound treatment promotes the interaction between proteins and water, leading to partial unfolding of protein chains, which allows polar residues to more readily capture water in the gel, thereby improving the water-holding capacity of the gel. These effects will contribute to the formation of high-quality low-salt meat products. However, variations in the frequency, intensity, and duration of ultrasound treatment can lead to differing effects on the quality improvement of low-salt meat products.

Published

2024

48. L-Theanine Improves the Gelation of Ginkgo Seed Proteins at Different pH Levels.

Author

Zhang, Luyan, Ge, Huifang, Zhao, Jing, Liu, Changqi, and Wang, Yaosong

Subjects

GINKGO, GELATION, SEED proteins, THEANINE, FOOD biotechnology

Abstract

L-theanine (L-Th), a non-protein amino acid naturally found in teas and certain plant leaves, has garnered considerable attention due to its health benefits and potential to modify proteins such as ginkgo seed proteins, which have poor gelling properties, thereby expanding their applications in the food industry. The objective of this study was to investigate the impact of varying concentrations of L-Th (0.0%, 0.5%, 1.0%, and 2.0%) on the gelling properties of ginkgo seed protein isolate (GSPI) at various pH levels (5.0, 6.0, and 7.0). The GSPI gels exhibited the highest strength at a pH of 5.0 (132.1 ± 5.6 g), followed by a pH of 6.0 (95.9 ± 3.9 g), while a weak gel was formed at a pH of 7.0 (29.5 ± 0.2 g). The incorporation of L-Th increased the hardness (58.5–231.6%) and springiness (3.0–9.5%) of the GSPI gels at a pH of 7.0 in a concentration-dependent manner. However, L-Th did not enhance the gel strength or water holding capacity at a pH of 5.0. The rheological characteristics of the GSPI sols were found to be closely related to the textural properties of L-Th-incorporated gels. To understand the underlying mechanism of L-Th's effects, the physicochemical properties of the sols were analyzed. Specifically, L-Th promoted GSPI solubilization (up to 7.3%), reduced their hydrophobicity (up to 16.2%), reduced the particle size (up to 40.9%), and increased the ζ potential (up to 21%) of the sols. Overall, our findings suggest that L-Th holds promise as a functional ingredient for improving gel products. [ABSTRACT FROM AUTHOR]

Published

2024

49. 川西亚高山森林苔藓与枯落物持水.

Author

范金花, 谢汶天, 曹球铫, 王根绪, and 孙守琴

Abstract

Copyright of Mountain Research (10082786) is the property of Mountain Research Editorial Office 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

50. Oxidative Modification, Structural Conformation, and Gel Properties of Pork Paste Protein Mediated by Oxygen Concentration in Modified Atmosphere Packaging.

Author

Liu, Rui, Guan, Wen, Lv, Wei, Kang, Zhuangli, Wang, Qingling, Jin, Duxin, Zhao, Xinxin, Ge, Qingfeng, Wu, Mangang, and Yu, Hai

Subjects

CONTROLLED atmosphere packaging, GELATION, PORK, HYDROPHOBIC interactions, PROTEIN-protein interactions

Abstract

The objective of this study was to investigate the effect of pork oxidation through modified atmosphere packaging (MAP) on gel characteristics of myofibrillar proteins (MP) during the heat-induced gelation process. The pork longissimus thoracis (LT) was treated by MAP at varying oxygen concentrations (0, 20, 40, 60, and 80% O2) with a 5-day storage at 4 °C for the detection of MP oxidation and gel properties. The findings showed the rise of O2 concentration resulted in a significant increase of carbonyl content, disulfide bond, and particle size, and a decrease of sulfhydryl content and MP solubility (p < 0.05). The gel textural properties and water retention ability were significantly improved in MAP treatments of 0–60% O2 (p < 0.05), but deteriorated at 80% O2 level. As the concentration of O2 increased, there was a marked decrease in the α-helix content within the gel, accompanied by a simultaneous increase in β-sheet content (p < 0.05). Additionally, a judicious oxidation treatment (60% O2 in MAP) proved beneficial for crafting dense and uniform gel networks. Our data suggest that the oxidation treatment of pork mediated by O2 concentration in MAP is capable of reinforcing protein hydrophobic interaction and disulfide bond formation, thus contributing to the construction of superior gel structures and properties. [ABSTRACT FROM AUTHOR]

Published

2024