Your search keyword '"fiber degradation"' showing total 33 results

1. Recent advances on improving the mechanical and thermal properties of kenaf fibers/engineering thermoplastic composites using novel coating techniques: a review.

Author

Owen, Macaulay Mfon, Achukwu, Emmanuel Okechukwu, Romli, Ahmad Zafir, and Md Akil, Hazizan

Subjects

*NATURAL fibers, *THERMOPLASTIC composites, *THERMAL properties, *ACRYLONITRILE butadiene styrene resins, *EPOXY coatings, *FIBER-reinforced plastics, *KENAF, *FIBERS, *BIOPOLYMERS

Abstract

Natural fiber-reinforced polymer composites are presently receiving the attention of scholars and industrialists due to their specific properties, such as being naturally eco-friendly, biodegradable, economical, viable, available, and sustainable. The key problems associated with natural fiber polymer composites, including fiber/matrix compatibility, high moisture absorption, and, especially, thermal degradation in engineering plastics (high-temperature plastics), constitute the most critical thrust of this review. It is noted that at high temperatures, natural fibers degrade and this has adversely restricted their usage with only commodity thermoplastics having relatively low melting temperatures, such as polypropylene (PP) and polyethylene (PE). This review paper, therefore, provides valuable research highlights on utilizing and improving the mechanical and thermal properties of natural kenaf fibers as reinforcement in engineering polymer composites for high-temperature engineering applications using polymer matrices, such as polyethylene terephthalate (PET), acrylonitrile butadiene styrene (ABS), and polyphenylene ether (PPE). The initial and various chemical treatments of natural fibers, their effect on the thermal and performance properties of natural fiber engineering thermoplastic composites, and the advanced treatment of epoxy coatings are reviewed. Applications of natural fiber-reinforced thermoplastic composites in the construction and automotive industries, as well as in other applications, are outlined. It was established that the adhesion and thermal stabilities between polymer matrix and natural fibers are better improved by surface coating with diluted epoxy resin thermoset. This eventually improved the overall thermal and performance properties of the resultant composites and will serve as a data bank and guide for manufacturers and future research directions using high-end engineering polymers with higher processing temperatures. [ABSTRACT FROM AUTHOR]

Published

2023

2. Phosphasilazanes as Inhibitors for Respirable Fiber Fragments Formed during Burning of Carbon-Fiber-Reinforced Epoxy Resins.

Author

Kukla, Philipp, Greiner, Lara, Eibl, Sebastian, Döring, Manfred, and Schönberger, Frank

Subjects

*EPOXY resins, *FIRE resistant polymers, *FIREPROOFING, *FIRE resistant materials, *CARBON fibers, *CARBON fiber-reinforced plastics, *FIBERS, *CONDENSED matter

Abstract

Carbon-fiber-reinforced polymer composites (CFRPs) exhibit additional hazards during and after burning due to respirable fragments of thermo-oxidatively decomposed carbon fibers. In this study, various phosphasilazanes are incorporated into the RTM 6 epoxy matrix of a CFRP to investigate their flame-retarding and fiber-protective properties via cone calorimetry. Residual carbon fibers are analyzed using SEM and EDX regarding their diameter and elemental composition of deposits. The decomposition process of phosphasilazanes is characterized by DIP-MS and infrared spectroscopy of char. Flame-retardant efficiency and mode of action are correlated with the chemical structure of the individual phosphasilazane and compared for neat resin and composite samples. Phosphasilazanes mainly acting in the condensed phase show beneficial fiber-protective and flame-retardant properties. Those with additional gas phase activity are less efficient. The phosphasilazanes degrade thermally via scission of the Si-N bond. The distribution and agglomeration of deposited particles, formed during the fire, influence the residual fiber diameters. Continuous layers show the best combination of flame retardancy and fiber protection, as observed for N-dimethylvinylsilyl-amidophosphorus diphenylester. [ABSTRACT FROM AUTHOR]

Published

2023

3. Effect of the addition of cellulolytic bacteria to ruminal bacteria on in vitro fermentation characteristics.

Author

Torres-Salado, Nicolás, Ayala-Monter, Marco-Antonio, Sánchez-Santillán, Paulino, and Almaraz-Buendía, Isaac

Subjects

*RUMEN fermentation, *CELLULOLYTIC bacteria, *BACTERIAL cultures, *FEED analysis, *BIOGAS production, *METHANOGENS, *WATER buffalo

Abstract

Background: Digestibility of fiber in the rumen is not due to enzymatic activity of individual bacteria, but rather to their interaction, which complements their enzymatic functioning. Thus, efficiency of fiber digestion depends on the diversity and density of cellulolytic bacteria. Objective: To estimate in vitro production of biogas, methane, and fermentative characteristics of cobra grass (Brachiaria hibrido) inoculated with ruminal bacteria (RB) in coculture with isolated cellulolytic bacteria (ICB) from bovine (ICBbov) or water buffalo (ICBbuf). Methods: ICBbov and ICBbuf were isolated from ruminal cellulolytic bacteria consortia using specific culture media for cellulolytic bacteria. Both were morphologically characterized and a Gram stain was performed. In the in vitro gas production test, the substrate was cobra grass and the inocula were ruminal bacteria (RB), ICBbov, ICBbuf, Coculturebov (RB + ICBbov) and Coculturebuf (RB + ICBbuf). Biogas and methane (CH4) production, as well as dry matter degradation (DMD) and neutral detergent fiber degradation (NDFD) were measured. A completely randomized design was used. Results: The ICB obtained were Gram positive cocci. Accumulated biogas production at 72 h from ICBbov and ICBbuf was on average 42.11% of that produced by RB. The Coculturebov produced 14.24% more biogas than RB. The CH4 production was lower in ICBbov and ICBbuf than in RB, Coculturebov and Coculturebuf. The DMD and NDFD were not different among RB, Coculturebov and Coculturebuf. The ICBbov degraded 37.10 and 96.34% more DMD and NDFD than ICBbuf (p<0.05). Conclusion: The use of ICB from bovine or water buffalo in coculture with RB does not improve in vitro production of biogas, DMD or NDFD with respect to RB alone. [ABSTRACT FROM AUTHOR]

Published

2023

4. Fibrolytic Enzymes Increase Fermentation Losses and Reduce Fiber Content of Sorghum Silage.

Author

Campana, Mariana, de Morais, Jozivaldo Prudêncio Gomes, Capucho, Estefani, Garcia, Thaina Moreira, Pedrini, Cibeli Almeida, Gandra, Jefferson Rodrigues, and Valle, Tiago Antônio Del

Subjects

*FEED analysis, *SOLID-state fermentation, *SILAGE fermentation, *SILAGE, *ENZYMES, *SORGHUM

Abstract

Fiber digestibility is a key-point of forage usage in ruminant production systems. The present study aimed to evaluate the effect of fibrolytic enzyme blend on whole-plant sorghum silage fermentation profile, fermentative losses, chemical composition, in vitro degradation, and aerobic stability. It used fifty experimental silos (plastic bucket, 28 cm i.d. and 25 cm in height) in a blocked randomized design to evaluate the following fibrolytic enzyme levels: 0, 150, 300, 450, and 600 mL per ton of dry matter (DM). Enzymes had 300 U/mL of xylanase and 300 U/mL of cellulase. Enzymes linearly increased acetic acid, branched-chain organic acids, and ethanol concentration of silage. Although there was no treatment effect on silage DM recovery over the ensiling process, enzyme levels linearly increased gas, effluent, and total losses. Intermediary levels of enzymes (from 312 to 342 mL/ton DM) decreased fiber content (NDF and ADF), whereas improved NFC silage content. Besides, enzymes did not affect DM and NDF degradation and tended to linearly reduce acid detergent fiber in vitro degradation. The enzymes addition linearly decreased silage temperature after aerobic exposure. However, there was no treatment effect on silage pH after aerobic exposure also during the time that silage remained with a temperature lower than 2°C above environmental temperature. Thus, fibrolytic enzymes reduce fiber content, promote a heterolactic fermentation, and reduce silage temperature after aerobic exposure. However, this increases fermentative losses and has no positive effect on in vitro degradation and the time of aerobic stability. [ABSTRACT FROM AUTHOR]

Published

2023

5. Forages and pastures symposium: an update on in vitro and in situ experimental techniques for approximation of ruminal fiber degradation.

Author

Foster, Jamie L., Smith, William B., Rouquette, F. Monte, and Tedeschi, Luis O.

Abstract

Static quantification measures of chemical components are commonly used to make certain assumptions about forage or feed nutritive value and quality. In order for modern nutrient requirement models to estimate intake and digestibility more accurately, kinetic measures of ruminal fiber degradation are necessary. Compared to in vivo experiments, in vitro (IV) and in situ (IS) experimental techniques are relatively simple and inexpensive methods to determine the extent and rate of ruminal fiber degradation. This paper summarizes limitations of these techniques and statistical analyses of the resulting data, highlights key updates to these techniques in the last 30 yr, and presents opportunities for further improvements to these techniques regarding ruminal fiber degradation. The principle biological component of these techniques, ruminal fluid, is still highly variable because it is influenced by ruminally fistulated animal diet type and timing of feeding, and in the case of the IV technique by collection and transport procedures. Commercialization has contributed to the standardization, mechanization, and automation of the IV true digestibility technique, for example, the well-known DaisyII Incubator. There has been limited commercialization of supplies for the IS technique and several review papers focused on standardization in the last 30 yr; however, the IS experimental technique is not standardized and there remains variation within and among laboratories. Regardless of improved precision resulting from enhancements of these techniques, the accuracy and precision of determining the indigestible fraction are fundamental to modeling digestion kinetics and the use of these estimates in more complex dynamic nutritional modeling. Opportunities for focused research and development are additional commercialization and standardization, methods to improve the precision and accuracy of indigestible fiber fraction, data science applications, and statistical analyses of results, especially for IS data. In situ data is typically fitted to one of a few first-order kinetic models, and parameters are estimated without determining if the selected model has the best fit. Animal experimentation will be fundamental to the future of ruminant nutrition and IV and IS techniques will remain vital to bring together nutritive value with forage quality. It is feasible and important to focus efforts on improving the precision and accuracy of IV and IS results. [ABSTRACT FROM AUTHOR]

Published

2023

6. Isolation and Characterization of Ruminal Yeast Strain with Probiotic Potential and Its Effects on Growth Performance, Nutrients Digestibility, Rumen Fermentation and Microbiota of Hu Sheep.

Author

Wang, Yao, Li, Zihao, Jin, Wei, and Mao, Shengyong

Subjects

*YEAST culture, *RUMEN fermentation, *YEAST, *SHEEP, *PROBIOTICS, *MICROORGANISM populations, *OPACITY (Optics)

Abstract

Yeast strains are widely used in ruminant production. However, knowledge about the effects of rumen native yeasts on ruminants is limited. Therefore, this study aimed to obtain a rumen native yeast isolate and investigate its effects on growth performance, nutrient digestibility, rumen fermentation and microbiota in Hu sheep. Yeasts were isolated by picking up colonies from agar plates, and identified by sequencing the ITS sequences. One isolate belonging to Pichia kudriavzevii had the highest optical density among these isolates obtained. This isolate was prepared to perform an animal feeding trial. A randomized block design was used for the animal trial. Sixteen Hu sheep were randomly assigned to the control (CON, fed basal diet, n = 8) and treatment group (LPK, fed basal diet plus P. kudriavzevii, CFU = 8 × 109 head/d, n = 8). Sheep were housed individually and treated for 4 weeks. Compared to CON, LPK increased final body weight, nutrient digestibility and rumen acetate concentration and acetate-to-propionate ratio in sheep. The results of Illumina MiSeq PE 300 sequencing showed that LPK increased the relative abundance of lipolytic bacteria (Anaerovibrio spp. and Pseudomonas spp.) and probiotic bacteria (Faecalibacterium spp. and Bifidobacterium spp.). For rumen eukaryotes, LPK increased the genera associated with fiber degradation, including protozoan Polyplastron and fungus Pichia. Our results discovered that rumen native yeast isolate P. kudriavzevii might promote the digestion of fibers and lipids by modulating specific microbial populations with enhancing acetate-type fermentation. [ABSTRACT FROM AUTHOR]

Published

2022

7. Characterization of recycled and virgin polyethylene terephthalate composites reinforced with modified kenaf fibers for automotive application.

Author

Owen, Macaulay M., Achukwu, Emmanuel O., Hazizan, Akil Md, Romli, Ahmad Z., and Ishiaku, Umaru S.

Subjects

*FIBROUS composites, *POLYETHYLENE terephthalate, *FIBERS, *KENAF, *NATURAL fibers, *ENGINEERING plastics, *EPOXY coatings

Abstract

The current research has produced engineering plastics composite for automotive applications using waste recycled plastic recycled polyethylene terephthalate (RPET) bottles as the matrix and compounded with chemically modified natural kenaf fibers in comparison with virgin polyethylene terephthalate (PET) composites under the same processing conditions. Kenaf fibers were surface modified by alkali and epoxy coating treatment methods. The waste RPET bottles which were mechanically recycled were pulverized using a 5 mm mesh size aperture into flakes and melt‐mixed with 10 wt% of short kenaf fibers in a twin‐screw extruder and compression‐molded at 240°С optimized temperature. Mechanical and thermal analyses were performed on both RPET, virgin PET (VPET), and their constituent kenaf composites. Scanning electron microscopy (SEM) was carried out to assess the composite's morphological characteristics. The results show that both treated (TKF/RPET and TKF/VPET) composites gave higher mechanical properties compared to untreated (KF/RPET and KF/VPET) composites. RPET and its constituent composites show higher impact properties than VPET composites. However, the tensile and flexural strength of VPET composites was higher than that of recycled RPET composites. RPET and VPET showed melting peak temperatures of 252.9°C and 245.8°C respectively. Both treated TKF/RPET and TKF/VPET composites were more thermally stable and decomposed at higher temperatures compared to the untreated composites. The SEM results for both treated composites showed a strong fiber/matrix adhesion with no clear evidence of fiber degradation as compared to untreated composites. It can be concluded that RPET possessed similar thermal properties compared to its virgin counterpart and can serve as a substitute for virgin PET in the composite formulation. [ABSTRACT FROM AUTHOR]

Published

2022

8. Experimental Study on the Mechanical Properties, Water Absorption, and Fiber Degradation of Naturally Aged Glass Fiber and Polypropylene Fiber-Reinforced Concrete.

Author

Yuan, Zhu and Jia, Yanmin

Subjects

*FIBER-reinforced concrete, *POLYPROPYLENE fibers, *GLASS fibers, *FREEZE-thaw cycles, *FIBERS, *COMPOSITE materials

Abstract

The main objective of this study is to better understand the performance changes of naturally aged glass fiber-reinforced concrete (GFRC) and polypropylene fiber-reinforced concrete (PPFRC), especially the degradation of fibers, which is of great significance for evaluating the durability of structures using these two types of composite materials. The mechanical properties, water absorption, and microstructures of GFRC and PPFRC at a curing age of three years, including their compressive strength, full curves of water absorption, fiber-matrix interaction, and fiber degradation, were systematically studied, and the related properties were compared with those at the curing age of 28 days. The degradation of fibers after freeze-thaw cycles was also studied. The results revealed the following. The water/binder ratio (w/b) affects the rate of increase of the long-term compressive strength of naturally aged concrete. In general, the water absorption of fiber-reinforced concrete (FRC) at the curing age of three years was found to be significantly reduced, but with the increases of w/b and the fiber content to the maximum values, the water absorption of the specimens cured for three years was higher than that of the specimens cured for 28 days. Moreover, with the increase of the curing age, the optimal glass fiber (GF) contents for reducing the water absorption decreased from 1.35% to 0.90% (w/b = 0.30), and from 0.90% to 0.45% (w/b = 0.35), respectively. The GF surface was degraded into continuous pits with diameters of about 200 to 600 nm, and the surface of the pits was attached with spherical granular C-S-H gel products with diameters of about 30 to 44 nm. The freeze-thaw cycles were found to have no significant effect on the pits on the GF surface and the granular C-S-H gel products attached to the pits, but caused a portion of the cement matrix covering the GF to fall off. The interfacial bonding between the polypropylene fiber (PPF) and the cement matrix exhibited almost no change in the PPFRC after three years of curing as compared with that after 28 days of curing. Furthermore, the cement hydration gel on the PPF surface was not significantly damaged by 150 freeze-thaw cycles. [ABSTRACT FROM AUTHOR]

Published

2022

9. Laser fiber degradation following holmium laser enucleation of the prostate utilizing Moses technology versus regular mode.

Author

Assmus, Mark A., Lee, Matthew S., Sivaguru, Mayandi, Agarwal, Deepak K., Large, Tim, Fouke, Bruce W., and Krambeck, Amy E.

Subjects

*SURGICAL enucleation, *FIBER lasers, *HOLMIUM, *ENERGY dissipation, *PROSTATE

Abstract

Purpose: We sought to objectively compare laser fiber degradation for holmium laser enucleation of the prostate (HoLEP) cases performed with 550 μm standard fibers versus 550 μm Moses 2.0 fiber in BPH mode on a macroscopic and microscopic level. Methods: We prospectively collected outcomes for 50 standardized HoLEP cases using 550 μm Moses fiber with 2.0 BPH mode compared to our historical cohort of 50 patients using 550 μm standard fibers on regular mode. Macroscopic degradation length was the difference in length of exposed fiber at the start and end of each case. Five consecutive 550 μm standard fibers, five 550 μm Moses fibers and their respective controls underwent novel utilization of three objective corroborating imaging techniques: Brightfield high resolution microscopy, high resolution 3-D microCT and Confocal Reflection Surface Analysis. Mann–Whitney U, 2-tailed T tests and Chi-squared tests were used. Results: Standard fibers demonstrated greater degradation than the Moses fibers with 2.0 BPH mode [2.9 cm (IQR 1.7–4.3 cm) vs 0.2 cm (IQR 0.1–0.4 cm), p < 0.01]. This difference remained significant when comparing degradation per energy used, per minute enucleation and per gram enucleated (all p < 0.05). None of the cases with Moses fiber and 2.0 BPH mode required intraoperative interruption to re-strip the fiber. Objective fiber degradation by three microscopic techniques confirmed more damage to the standard fibers with regular mode. Conclusion: Overall, use of the 550 μm Moses fiber with 2.0 BPH mode resulted in less fiber degradation compared to a standard 550 μm fiber with regular mode as confirmed using 4 corroborating macroscopic and microscopic techniques. [ABSTRACT FROM AUTHOR]

Published

2022

10. Anaerobic co-digestion of swine manure and forage at two harvesting ages.

Author

Dias de Oliveira, Juliana, Amorim Orrico, Ana Carolina, Viana Leite, Brenda Kelly, Watte Schwingel, Alice, Previdelli Orrico Junior, Marco Antonio, Romeiro de Avila, Marcio, Freire Machado, Janaina, Domingos Ferreira Dias, Amanda Maria, Alencar Macena, Isabelly, and dos Santos, Wellington

Subjects

*SWINE manure, *ANAEROBIC digestion, *FEED analysis, *BIOCHEMICAL substrates, *BIOGAS production, *CENCHRUS purpureus, *METHANE, *BIOGAS, *FACTORIAL experiment designs, *MANURES

Abstract

The co-digestion of swine manure with vegetable waste is an alternative that can increase the production of biogas and methane generated by the isolated digestion of manure. However, recommendations that are based on the best ratio between manure and forage, as well as the age of harvest, are still scarce in the literature. This study was conducted to evaluate inclusions (0, 25, 50, 75 and 100%) of the total solids (TS) of Elephant grass (Pennisetum purpureum Schum) harvested at two ages medium age (MA) at 45 days of growth and advanced age (AA) at 90 days in co-digestion with swine manure, using an entirely randomized design in a 5x2 factorial scheme. Batch digesters were used and biogas production was monitored for 12 weeks. There was influence of forage age (P <0.05) on the degradation of solids and neutral detergent fiber, with higher values for the substrates containing MA forage. The highest CH4 yields were obtained by the substrates containing MA forage in the inclusion of 27.7 and 31.6%, being 253.7 and 222.2 L of CH4 per Kg of total or volatile solids. The age of the forages influenced the onset and persistence of biogas production, being advantageous only in the inclusion of 25% of MA forage. The AA forage inclusion is not recommended for co-digestion with swine manure. [ABSTRACT FROM AUTHOR]

Published

2022

11. EFFECTS OF MANNAN OLIGOSACCHARIDES ON RUMEN FUNGAL FLORA OF DAIRY COWS.

Author

Guo, C., Fu, Z., Zhang, L., and Xu, X.

Subjects

*OLIGOSACCHARIDES, *BOTANY, *FUNGAL growth, *BASIDIOMYCOTA, *LACTATION, *DAIRY cattle

Abstract

To study the effects of mannan oligosaccharides (MOS) on rumen fungal flora of dairy cows, four lactating Chinese Holstein dairy cows were randomly divided into two groups in the two-stage 2 × 2 cross-over design. The experimental group (MT) was fed with a basal ration and MOS were perfused orally 60 g/(d head). The control group (CK) was fed with a basal ration. The rumen fluid was collected through the oral cavity of dairy cows using a negative pressure suction device. 50ml rumen fluid of every cow was collected each time respectively before feeding (0 h) and 2h, 4h and 6h after feeding in a day. The rumen fungi were tested by ITS sequencing technology. The results showed that four phyla were identified in CK group and five in MT group. The dominant phyla in both groups were Ascomycota, Basidiomycota, Neocallimastigomycota, whose abundances were more than 90% of the total rumen fungi. At the level of genus, 74 genera were identified in CK group, while 91 genera in MT group. Several cellulolytic fungi genera showed a decreasing trend or decreased significantly, such as Neocallimastigaceae-NA. The previous experiments that shows the addition of mannan oligosaccharides promoted the proliferation of rumen bacteria, while the growth of rumen fungi was inhibited in this result, which may be due to the antagonism between rumen bacteria and fungi. The growth of cellulose-degrading fungi was inhibited to some extend after the addition of MOS in the diet. Candida and Zopfiella, closely related to mycotic mastitis and immunosuppression respectively, had decreasing trends in rumen with supplemental MOS in the diets of the dairy cows, indicating that MOS might play a positive role in inhibiting harmful fungi. The experimental result shows that mannan oligosaccharides in the diet of dairy cows inhibited the growth of cellulolytic fungi and the proliferation of harmful fungi. In addition, the results showed that there might be the antagonistic effect between rumen fungi and bacteria potentially, which should be focused on for further study. [ABSTRACT FROM AUTHOR]

Published

2021

12. Conditions stimulating neutral detergent fiber degradation by dosing branched-chain volatile fatty acids. II: Relation with solid passage rate and pH on neutral detergent fiber degradation and microbial function in continuous culture.

Author

Roman-Garcia, Y., Mitchell, K.E., Denton, B.L., Lee, C., Socha, M.T., Wenner, B.A., and Firkins, J.L.

Subjects

*FATTY acids, *CONTINUOUS functions, *MICROBIOLOGICAL synthesis, *PROTEIN synthesis, *BACTERIAL proteins

Abstract

To support improving genetic potential for increased milk production, intake of digestible carbohydrate must also increase to provide digestible energy and microbial protein synthesis. We hypothesized that the provision of exogenous branched-chain volatile fatty acids (BCVFA) would improve both neutral detergent fiber (NDF) degradability and efficiency of microbial protein synthesis. However, BCVFA should be more beneficial with increasing efficiency of bacterial protein synthesis associated with increasing passage rate (k p). We also hypothesized that decreasing pH would increase the need for isobutyrate over 2-methylbutyrate. To study these effects independent from other sources of variation in vivo, we evaluated continuous cultures without (control) versus with BCVFA (0 vs. 2 mmol/d each of isobutyrate, isovalerate, and 2-methylbutyrate), low versus high k p of the particulate phase (2.5 vs. 5.0%/h), and high versus low pH (ranging from 6.3 to 6.8 diurnally vs. 5.7 to 6.2) in a 2 × 2 × 2 factorial arrangement of treatments. Diets were 50% forage pellets and 50% grain pellets administered twice daily. Without an interaction, NDF degradability tended to increase from 29.7 to 35.0% for main effects of control compared with BCVFA treatments. Provision of BCVFA increased methanogenesis, presumably resulting from improved NDF degradability. Decreasing pH decreased methane production. Total volatile fatty acid (VFA) and acetate production were decreased with increasing k p , even though true organic matter degradability and bacterial nitrogen flow were not affected by treatments. Decreasing pH decreased acetate but increased propionate and valerate production, probably resulting from a shift in bacterial taxa and associated VFA stoichiometry. Decreasing pH decreased isobutyrate and isovalerate production while increasing 2-methylbutyrate production on a net basis (subtracting doses). Supplementing BCVFA improved NDF degradability in continuous cultures administered moderate (15.4%) crude protein diets (excluding urea in buffer) without major interactions with culture pH and k p. [ABSTRACT FROM AUTHOR]

Published

2021

13. Conditions stimulating neutral detergent fiber degradation by dosing branched-chain volatile fatty acids. I: Comparison with branched-chain amino acids and forage source in ruminal batch cultures.

Author

Roman-Garcia, Y., Denton, B.L., Mitchell, K.E., Lee, C., Socha, M.T., and Firkins, J.L.

Subjects

*ALFALFA, *FATTY acids, *AMINO acids, *ALFALFA as feed, *HAY as feed, *BACTERIAL proteins, *LEUCINE

Abstract

Three experiments assessed branched-chain volatile fatty acid (BCVFA) stimulation of neutral detergent fiber (NDF) disappearance after 24 h of incubation in batch cultures derived from ruminal fluid inocula that were enriched with particulate-phase bacteria. In experiment 1, a control was compared with 3 treatments with isomolar doses of all 3 BCVFA (plus valerate), all 3 branched-chain AA (BCAA), or half of each BCVFA and BCAA mix with either alfalfa or grass hays (50%) and ground corn grain (50%). A portion of the BCAA and BCVFA doses were enriched with 13C, and valerate (also enriched with 13C) was added with BCVFA. Although BCAA yielded a similar production of BCVFA compared with dosing BCVFA, equimolar substitution of BCVFA for BCAA decreased the percentage of N in bacterial pellets when alfalfa hay was fed but increased N when grass hay was fed. Substituting BCVFA for BCAA increased total fatty acid (FA) concentration with alfalfa hay. Dosing of BCAA or BCVFA did not affect total branched-chain FA, iso -FA, or anteiso -FA percentages in bacterial total FA, whereas numerous individual FA isomers and their 13C enrichments were affected by these treatments. Increasing recovery of the 13C dose from respective labeled BCVFA primers indicated facilitated BCVFA uptake and incorporation into FA compared with BCAA, whereas increased recovery of 13C from labeled BCAA in the bacteria pellet but not in the FA fraction suggested direct assimilation into bacterial protein. The BCVFA and valerate were dosed in varying combinations that either summed to 4 m M (experiment 2) or had only 1 m M no matter what combination (experiment 3). In general, grass hay was more responsive to stimulation in NDF digestibility by BCVFA than was alfalfa hay, which was attributed to the higher degradable protein in the latter. The net production of the BCVFA (after subtracting dose) was affected by source and combination of BCVFA. Isovalerate dosing tended to increase its own net production; in contrast, isobutyrate seemed to be used more when it was added alone, but 2-methylbutyrate seemed to be preferred over isobutyrate when 2-methylbutyrate was added. Results supported potential interactions, including potential feedback in production from feed BCAA or increased concentration-dependent competition for dosed BCVFA into cellular products. Under our conditions, the BCVFA appear to be more readily available than BCAA, probably because of regulated BCAA transport and metabolism. Valerate consistently provided no benefit. Using nonparametric ranking, all 3 BCVFA or either isovalerate or isobutyrate (both yielding iso -FA) should be combined with 2-methylbutyrate (yielding anteiso -FA) as a potential opportunity to improve NDF digestibility when rumen-degraded BCAA are limited in diets to decrease environmental impact from N in waste. [ABSTRACT FROM AUTHOR]

Published

2021

14. A Dissolvable Micromechanics Model for Composites.

Author

Jalali, S.K. and Pugno, N.M.

Subjects

*MICROMECHANICS, *INDUSTRIAL applications

Abstract

• A novel time-dependent micromechanics model is proposed for dissolvable composites. • The performance of composite is linked to dissolution and diffusion rates. • A comprehensive parametric study revealing the impact of key factors is presented. • The model is successfully applied to literature data on single polymer composites. This paper proposes a novel micromechanics model tailored for dissolvable composites, where the inclusion undergoes dissolution and diffusion within the matrix, with the aim of analytically predicting the time-dependent properties of composites. The dissolution of inclusion leads to a reduction of its volume fraction and the formation of a growing interphase layer around the inclusion. This versatile model is applicable to both short-term dissolutions, as observed in the fabrication process of composites and long-term degradation occurring in high-temperature or corrosive environments, common in industrial and biological applications. Dimensionless expressions for time-dependent volume fractions of composite components are related to the dissolution and the diffusion rates, and a micromechanics three-phase model is established to evaluate the properties of the composite as a function of dissolution time. A detailed parametric study is performed to demonstrate the effect of all the parameters on the final properties. The model is successfully applied to the experimental data in the literature to show its capability and flexibility in predicting the practical dissolution examinations. The introduced model provides a pioneering framework for the future evolution of the dissolvable micromechanics concept. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

15. Rumen degradation kinetics of coffee hulls treated with calcium oxide under aerobic or anaerobic conditions.

Author

Roseira, João P. S., Garcia, Rasmo, da-Silveira, Tâmara C., Veloso, Cristina M., da-Silva, Thiago C., da-Silva, Leandro D., and Ribeiro, Everton T.

Subjects

*COFFEE, *PSEUDOPOTENTIAL method, *ANAEROBIC reactors, *ANALYTICAL mechanics, *LIME (Minerals)

Abstract

Coffee hulls obtained from dry processing, have the potential to be used in ruminant diets. Objective: To evaluate the chemical composition and in situ degradability of dry matter (DM) and neutral detergent fiber (NDF) of coffee hulls treated with calcium oxide (CaO) in different environmental conditions (EC). Methods: Coffee hulls were subjected to treatments distributed in a 2 × 2 factorial arrangement, consisting of two levels of CaO (0 and 5%, on a DM basis) and two environmental conditions (aerobiosis and anaerobiosis) in a completely randomized design with four replicates, totaling sixteen experimental units. Five-gram samples were incubated in the rumen of two male cattle for 0, 3, 6, 9, 12, 24, 48, 72, 96, and 120 h. Results: Regarding dry matter degradation kinetic parameters, except for fraction b, the potential and effective degradability was affected (p<0.05) by a CaO × EC interaction. As for estimated fiber degradation parameters, the potentially degradable fraction b was affected (p<0.05) by CaO and EC. Treatment with CaO increased fraction b in 4.08 percentage points. Conclusions: The use of CaO in the treatment of coffee hulls increases the effective and potential degradability of DM and reduces the undegradable fiber fraction. Anaerobic condition is the best environment for the treatment of coffee hulls with CaO. [ABSTRACT FROM AUTHOR]

Published

2021

16. Fiber Length Reduction during Shearing in Polymer Processing.

Author

Moritzer, Elmar and Heiderich, Gilmar

Subjects

*FIBER-reinforced plastics, *SHEARING force, *STRENGTH of materials, *THERMOPLASTICS, *POLYMERS

Abstract

In recent years a continuously rising demand of short-fiber-reinforced thermoplastics has been noted. The reason for the rising demand are the excellent weight specific mechanical properties compared to non-reinforced thermoplastics. The mechanical properties of the compound of high-strength fibers and the ductile matrix polymer is based on complex physical relations in which the fiber length is a major influencing factor. When processing short fiber-reinforced thermoplastics with screw machines (injection molding, extrusion) the fiber length is a resulting material property that is, to some extent, influenced by the process parameters. The extent of the influence and the effects of the process parameters have been carried out in many different studies, mainly with parameter variations. Nevertheless, the influence of the shearing stress on the fiber breaking is also physically modelled. However, the influences of different fiber contents are not taken into account. To investigate the correlation between the fiber content of the thermoplastic polymer and the fiber length degradation a defined flow field is necessary. For this purpose, a test stand with a heated rotating piston and a stationary outer cylinder is used. In the gap between the piston and the outer cylinder the melted material faces shear stress depending on different rotational speeds. For the investigation different short-fiber-reinforced thermoplastics (polypropylene matrix) with different fiber content are used. By measuring the fiber length after different shear times the time-varying fiber length is determined. With these results the influences of the fiber content and shear stress on the fiber length can be identified. [ABSTRACT FROM AUTHOR]

Published

2017

17. Use of Asian selected agricultural byproducts to modulate rumen microbes and fermentation.

Author

Yasuo Kobayashi, Seongjin Oh, Htun Myint, and Satoshi Koike

Subjects

*AGRICULTURAL wastes, *RUMEN microbiology, *FERMENTATION, *ANIMAL nutrition, *METHANE, *ANTIBIOTICS

Abstract

In the last five decades, attempts have been made to improve rumen fermentation and host animal nutrition through modulation of rumen microbiota. The goals have been decreasing methane production, partially inhibiting protein degradation to avoid excess release of ammonia, and activation of fiber digestion. The main approach has been the use of dietary supplements. Since growth-promoting antibiotics were banned in European countries in 2006, safer alternatives including plant-derived materials have been explored. Plant oils, their component fatty acids, plant secondary metabolites and other compounds have been studied, and many originate or are abundantly available in Asia as agricultural byproducts. In this review, the potency of selected byproducts in inhibition of methane production and protein degradation, and in stimulation of fiber degradation was described in relation to their modes of action. In particular, cashew and ginkgo byproducts containing alkylphenols to mitigate methane emission and bean husks as a source of functional fiber to boost the number of fiber-degrading bacteria were highlighted. Other byproducts influencing rumen microbiota and fermentation profile were also described. Future application of these feed and additive candidates is very dependent on a sufficient, cost-effective supply and optimal usage in feeding practice. [ABSTRACT FROM AUTHOR]

Published

2016

18. Effects of supplementing a yeast culture in a pelleted total mixed ration on fiber degradation, fermentation parameters, and the bacterial community in the rumen of sheep.

Author

Wang, Xuan, Li, Fei, Zhang, Nana, Ungerfeld, Emilio, Guo, Long, Zhang, Xiumin, Wang, Min, and Ma, Zhiyuan

Subjects

*RUMEN fermentation, *YEAST culture, *BACTERIAL communities, *FEED analysis, *CORN stover, *MICROORGANISM populations, *MAGIC squares, *BIOCONVERSION

Abstract

Feeding animals with pelleted total mixed ration (TMR) is a widespread practice as it reduces feed losses during storage, feeding and the animal's sorting. Supplementation of yeast culture can promote rumen fiber degradation, which may occur through stabilizing rumen pH. There are few studies, however, evaluating the optimal supplementation level of yeast culture in pelleted TMR in which rumen pH has been continuously measured. This study aimed to determine the optimal level of a commercial yeast culture product (of which the number of viable CFU was not measured) mixed and pelleted with the TMR, on fiber degradation in situ , rumen pH dynamics, rumen fermentation variables, and the bacterial community composition of rumen fluid. Under a partial Latin square design, a total of twelve wethers equipped with permanent rumen fistulas were randomly assigned to four treatments of yeast culture at 0, 0.5, 1.0, or 2.0% dietary dry matter. After a 28 d period comprising 21 d for adaptation and 7 d for measurements, each group of three wethers was randomly reassigned to another treatment. Thus, each yeast supplementation level was fed to a total of six animals. In situ dry matter (DMD) and neutral detergent fiber (NDFD) disappearance of corn stover, mean rumen pH, total volatile fatty acids concentration, acetate, propionate, and n -butyrate molar percentages, and the acetate to propionate ratio were influenced (P ≤ 0.05) by dietary treatments. Quadratic (P ≤ 0.03) responses to increasing yeast culture supplementation level were observed for mean rumen pH, daily duration of pH below a 5.8 threshold considered inhibitory for fibrolysis, and the molar percentages of propionate, n- butyrate, and the acetate to propionate ratio. The highest in situ DMD and NDFD occurred when yeast was supplemented at 1%. Increasing yeast culture supplementation level tended to quadratically increase the abundance of fibrolytic bacterial genera NK4A214 and FD2005, which peaked at 1% yeast culture in the diet DM. The molar percentage of n -butyrate was positively correlated with the relative abundance of Rikenellaceae _RC9 and NK4A214. In our study, supplementation of pelleted TMR with 1% yeast culture provided as residual yeast medium components, was optimal for fiber degradation of forage fed to ruminants. Members of genera NK4A214 and FD2005 may contribute extra n -butyrate. • The highest in situ DM and NDFD occurred when yeast was supplemented at 1%. • Members of genera NK4A214 and FD2005 may contribute extra n -butyrate. • Yeast culture supplementation ameliorated rumen pH drops. • 1% yeast culture was optimal for fiber degradation of forage fed to ruminants. [ABSTRACT FROM AUTHOR]

Published

2023

19. The Effects of Environmental Exposure on the Optical, Physical, and Chemical Properties of Manufactured Fibers of Natural Origin.

Author

Brinsko, Kelly M., Sparenga, Sebastian, and King, Meggan

Subjects

*FORENSIC sciences, *SYNTHETIC fibers, *ENVIRONMENTAL exposure, *RAYON, *AZLON, *POLYLACTIC acid, *FOURIER transform infrared spectroscopy, *POLARIZATION microscopy

Abstract

Manufactured fibers derived from natural origins include viscose rayon, azlon, and polylactic acid ( PLA). A 2-year study was conducted to document any changes these fibers undergo as a result of exposure to various environmental conditions. Fabric swatches representing each fiber type were exposed to freshwater, saltwater, heat, cold, ultraviolet light, or composter conditions. Fibers from the swatches were periodically analyzed using polarized light microscopy and Fourier transform infrared microspectroscopy. Fiber solubility and melting-point behavior were measured every 6 months. Except for the complete degradation of viscose rayon in the composter, saltwater, and freshwater environs, no changes in the optical properties, infrared spectra, solubility, or melting points of the remaining fibers in any of the environments were observed. However, microscopic morphological changes were observed in fibers from two azlon swatches submerged in freshwater and saltwater, two PLA swatches exposed to ultraviolet light, and two viscose rayon swatches exposed to ultraviolet light. [ABSTRACT FROM AUTHOR]

Published

2016

20. Evaluation of Different Yeast Species for Improving In vitro Fermentation of Cereal Straws.

Author

Zuo Wang, Zhixiong He, Beauchemin, Karen A., Shaoxun Tang, Chuanshe Zhou, Xuefeng Han, Min Wang, Jinhe Kang, Odongo, Nicholas E., and Zhiliang Tan

Subjects

*YEAST, *GRAIN, *SACCHAROMYCES cerevisiae, *RUMEN fermentation, *FATTY acids, *PROPIONATES

Abstract

Information on the effects of different yeast species on ruminal fermentation is limited. This experiment was conducted in a 3×4 factorial arrangement to explore and compare the effects of addition of three different live yeast species (Candida utilis 1314, Saccharomyces cerevisiae 1355, and Candida tropicalis 1254) at four doses (0, 0.25×107, 0.50×107, and 0.75×107 colony-forming unit [cfu]) on in vitro gas production kinetics, fiber degradation, methane production and ruminal fermentation characteristics of maize stover, and rice straw by mixed rumen microorganisms in dairy cows. The maximum gas production (Vf), dry matter disappearance (IVDMD), neutral detergent fiber disappearance (IVNDFD), and methane production in C. utilis group were less (p<0.01) than other two live yeast supplemented groups. The inclusion of S. cerevisiae reduced (p<0.01) the concentrations of ammonia nitrogen (NH3-N), isobutyrate, and isovalerate compared to the other two yeast groups. C. tropicalis addition generally enhanced (p<0.05) IVDMD and IVNDFD. The NH3-N concentration and CH4 production were increased (p<0.05) by the addition of S. cerevisiae and C. tropicalis compared with the control. Supplementation of three yeast species decreased (p<0.05) or numerically decreased the ratio of acetate to propionate. The current results indicate that C. tropicalis is more preferred as yeast culture supplements, and its optimal dose should be 0.25×107 cfu/500 mg substrates in vitro. [ABSTRACT FROM AUTHOR]

Published

2016

21. Comparison of two live Bacillus species as feed additives for improving in vitro fermentation of cereal straws.

Author

Wang, Zuo, He, Zhixiong, Beauchemin, Karen A., Tang, Shaoxun, Zhou, Chuanshe, Han, Xuefeng, Wang, Min, Kang, Jinhe, Odongo, Nicholas E., and Tan, Zhiliang

Subjects

*BACILLUS (Bacteria), *FEED additives, *STRAW, *COLONY-forming units assay, *RUMEN fermentation, *RUMEN microbiology

Abstract

This study was performed in a 2 × 4 factorial arrangement to explore and compare the effects of inclusion of two live Bacillus additives ( B. licheniformis and B. subtilis) at four doses (0, 0.25 × 107, 0.50 × 107 and 0.75 × 107 colony-forming units (cfu)) on in vitro gas production kinetics, fiber degradation, methane production and ruminal fermentation characteristics of maize stover and rice straw by mixed rumen microorganisms in dairy cows. The pH, concentrations of ammonia nitrogen ( NH3-N) and isovalerate were increased ( P < 0.05), while the methane ( CH4) production, ratio of acetate to propionate, and total volatile fatty acids ( TVFA) concentration were decreased ( P < 0.05) by the supplementation of B. licheniformis compared with that of B. subtilis. Adding B. licheniformis and B. subtilis raised ( P < 0.05) or numerically raised the maximum gas production, while decreasing ( P < 0.05) or numerically lowering pH and concentrations of most volatile fatty acids. The addition of B. licheniformis increased ( P < 0.05) the NH3-N concentration but reduced CH4 production and ratio of acetate to propionate ( P < 0.05), while the NH3-N concentration was decreased ( P < 0.05), and the CH4 production and ratio of acetate to propionate were increased by that of B. subtilis compared to the control. Results obtained in this research suggest that B. licheniformis would be preferred as a live Bacillus additive in comparison with B. subtilis, and its optimal dose should be 0.25 × 107 cfu/500 mg substrates. [ABSTRACT FROM AUTHOR]

Published

2016

22. An Update on in Vitro and in Situ Experimental Techniques for Approximation of Ruminal Fiber Degradation.

Author

Foster, Jamie L.

Subjects

*MICROBIAL contamination, *ANIMAL feeding behavior, *FEED quality, *MATERIALS testing, *ANIMAL species

Abstract

Measures of the quantity of chemical components are used to make certain assumptions about forage or feed quality. However, additional ruminal degradation kinetic measures are necessary for modern nutrient requirement models and more accurate estimates of intake and digestibility. The extent and rate of ruminal degradation is most easily and inexpensively measured with in vitro and in situ experimental techniques. This presentation is a summary of updates to these techniques in the last thirty years. The Daisy Incubator by ANKOM Technology has been marketed for over twenty-five years. This product resulted in standardization of materials and methods used to measure in vitro true digestibility. The biological component of the technique, ruminal fluid, is still a variable component since it is influenced by fistulated animal diet and collection and transport procedures. Despite several calls through review papers over the last thirty years, the in situ experimental technique is not standardized and there remains variation among laboratories and experiments. Animal species, ingredients and quantity of animal diet, grind size of the test material, bag pore size, ratio of the sample: surface area of bag, replications, sample treatment prior to incubation and after removal, incubation method, microbial contamination, bag washing, and even laboratory balance weigh method contribute to the variation among in situ experiments. Once in situ data is obtained, it is typically fitted to a first order exponential model and parameters estimated without determining if the model is the best fit. Perhaps understanding the reasons that standardization of in situ methodology have failed would facilitate ways to make standardization possible. In the meantime, careful in situ experimental technique results in measures that are valuable inputs into models for nutrient requirements, intake, and digestibility and an increase in knowledge about ruminal degradation kinetics, despite the inability to compare results across laboratories or experiments. [ABSTRACT FROM AUTHOR]

Published

2022

23. Investigation of single-mode fiber degradation by 405-nm continuous-wave laser light.

Author

Gonschior, Cornell P., Klein, Karl-Friedrich, Menzel, Matthias, Sun, Tong, and Grattan, Kenneth T. V.

Subjects

*SEMICONDUCTOR lasers, *POWER transmission, *LASER beams, *FIBER optics, *SIMULATION methods & models

Abstract

The degradation of 405-nm fiber-coupled diode laser systems with more than 50 mW power was investigated in detail with focus on the effects occurring at the input end. The coupling and transmission loss of the laser light were associated with the growth of a projection and a periodic structure on the input surface. To avoid this degradation, a short launch fiber with a good surface quality was used at the input end. In this way, the power transmission was stabilized for at least one month. However, structural degradation was noticed on the output surface of the single-mode fiber. To investigate this effect, the damaged samples weremeasured after different periods of time and examined with a scanning electron microscope and with an atomic force microscope. Reproducible spherical projections with a submicron periodic structure were found in the core region. Additionally, the spectral loss of the fiber was measured, showing the formation of color centers in the deep ultraviolet along the length of the fiber. These investigations were accompanied by simulations of the growth of the structure on the output surface. The influence of the structure was mainly on the divergence angle of the emitted laser beam, reducing the beam quality for applications. [ABSTRACT FROM AUTHOR]

Published

2014

24. The 532-nm 180-W (GreenLight®) laser vaporization of the prostate for the treatment of lower urinary tract symptoms: how durable is the new side-fire fiber with integrated cooling system?

Author

Brunken, Claus, Munsch, Maximilian, Tauber, Stephan, Schmidt, Rainer, and Seitz, Christian

Subjects

*BENIGN prostatic hyperplasia, *LASER therapy, *URINARY organ diseases, *VAPORIZATION, *INTEGRATED cooling systems, *FIBER lasers, *LASER beams, *THERAPEUTICS, HYPERPLASIA treatment

Abstract

The 532-nm side-fire laser vaporization is established for the treatment of symptomatic benign prostate hyperplasia. Meanwhile, the third generation of this system is offered by American Medical Systems, Inc. The laser power increased from 80 and 120 to 180 W from the first to the third generation. Despite good functional results, with the 80- and 120-W systems, the removal of prostate tissue is limited because of fiber degradation. To overcome this problem, the fiber was designed newly with an integrated cooling system and a sensor for decreasing the laser energy in case of overheating. We evaluate whether the new fiber still suffers from degradation with consecutive drop of power transmission during the procedure. The power output of the cooled fiber was measured in vitro and during prostate vaporization in ten patients. Laser beam power was measured at baseline and after the application each of 50 kJ during laser vaporization. Power emission of the fiber remains constant at 20, 80, and 180 W of power settings over the whole 40-kJ lifespan. During the transurethral procedure, a median total energy of 276 kJ (standard deviation 153 kJ) was applied for vaporization. Median power output from the fiber at the end of the procedure was 97 % from the baseline value. There were no fiber malfunctions observed. In contrast to former generations, the third-generation laser fiber is durable without significant power loss during prostate vaporization. [ABSTRACT FROM AUTHOR]

Published

2014

25. Effects of the climatic conditions of the southeastern Brazil on degradation the fibers of coir-geotextile: Evaluation of mechanical and structural properties.

Author

Marques, Andréa Rodrigues, Santiago de Oliveira Patrício, Patrícia, Soares dos Santos, Fábio, Monteiro, Monisa Lopes, de Carvalho Urashima, Denise, and de Souza Rodrigues, Conrado

Subjects

*CLIMATE change, *SOIL degradation, *FOURIER transform infrared spectroscopy, *THERMOGRAVIMETRY, *GEOTEXTILES

Abstract

Abstract: In tropical countries where rainfall rates are high, and especially in deforested areas in the Atlantic Rainforest and Cerrado in southeastern Brazil, water is the dominant driving force of erosion. The most common method used to restore degraded tropical lands is to plant nursery-raised tree seedlings, but this method is not always practical and a variety of newer reforestation techniques have become available. Biodegradable coir geotextiles combined with native seeds can be used to restore degraded forest areas. The effects of the climatic conditions during a seasonal cycle of rain and drought were evaluated on the structural and mechanical properties of coir geotextile fibers that were treated, or not, with lime. Analyses of the tensile strength of coir fibers showed that after 12 months of exposure untreated fiber had retained 23% and treated fiber 19% of their initial strength. Two principal factors were considered in evaluating the structural properties of the coir fibers after environmental exposure: (i) initial cellulose retention and its stability after lime-treatment; (ii) lignin degradation and/or its loss to the environment. The structural changes seen by thermogravimetry (TGA) and Fourier Transforms in Infrared spectroscopy (FTIR) analyses explained the changes seen in coir mechanical properties. The greater cellulose contents of fiber structures treated with lime explained their greater tensile strength and high Young's modulus measures after the first three months of exposure in local weather conditions. Considering that lime treatment improved coir fiber properties, lime applications are indicated when coir geotextiles are to be used in acidic Brazilian Cerrado soils. [Copyright &y& Elsevier]

Published

2014

26. Survival of anaerobic fungus Caecomyces sp. in various preservation methods: a comparative study.

Author

Nagpal, Ravinder, Puniya, Anil, Sehgal, Jatinder, and Singh, Kishan

Subjects

*COMPARATIVE studies, *FUNGI, *GLYCERIN, *DIMETHYL sulfoxide, *ETHYLENE glycol

Abstract

The present investigation was designed to observe the survival of the anaerobic fungus Caecomyces sp. in various routine preservation methods. Among all the treatments, cryopreservation of fungi at −70 °C with glycerol was found to be most effective for long-term maintenance (more than 90 days) of rumen fungi, followed by dimethyl sulfoxide (DMSO) and ethylene glycol (up to 60 days). In contrast, at −196 °C, DMSO showed maximum survival (more than 90 days), followed by glycerol (up to 90 days) and ethylene glycol (up to 30 days). At 39 °C, maximum survival (up to 30 days) was observed with soft agar and wheat straw; at refrigeration temperature, preservation with Orpin's media containing straw showed maximum survival (up to 30 days). [ABSTRACT FROM AUTHOR]

Published

2012

27. Enhancing In Vitro Degradation of Alfalfa Hay and Corn Silage Using Feed Enzymes.

Author

Eun, J.-S. and Beauchemin, K. A.

Subjects

*ENZYMES in animal nutrition, *ALFALFA as feed, *CORN, *SILAGE, *FIBER content of feeds, *PAPAIN, *LACTATION, *DAIRY cattle

Abstract

A series of in vitro fermentation experiments was performed to assess the effects of 4 feed enzyme products (FE) that varied in enzymatic activities on the degradation of alfalfa hay and corn silage. The FE contained a range of endoglucanase, exoglucanase, xylanase, and protease activities, and a range of dose rates (DR) was used. The objective of the study was to identify effective formulations and optimum DR, and to establish if combining FE would further improve fiber degradation. For alfalfa hay, quadratic increases in gas production and degradation of dry matter (DM) and fiber were observed for all FE, with maximum responses at low to medium DR. For corn silage, none of the FE increased gas production or DM degradation, but all FE increased NDF degradation, with optimum DR in the low to medium range. The proteolytic enzyme papain improved fiber degradation of alfalfa hay and corn silage in a manner similar to that observed for polysaccharidase FE. Among the polysaccharidase FE, added activities of endoglucanase and exoglucanase were positively correlated with improvement in neutral detergent fiber (NDF) degradability of corn silage, whereas only added endoglucanase activity tended to be correlated with improvement in NDF degradability of alfalfa hay. Combining effective polysaccharidase FE further improved fiber degradation of both forages, with greater improvements for corn silage. Combining polysaccharidase and proteolytic FE further improved NDF degradation of corn silage, but not alfalfa hay. Combination treatments generally resulted in additive effects with increases in fiber degradation equal to the sum of the improvements for the individual enzyme components. Improved fiber degradation of corn silage was associated with decreased acetate to propionate ratios. Enzyme products that improve in vitro degradation of forages may have the potential to improve lactational performance of dairy cows. [ABSTRACT FROM AUTHOR]

Published

2007

28. Fiber degradation and carbohydrate production by combined biological and chemical/physicochemical pretreatment methods of lignocellulosic biomass – A review.

Author

Meenakshisundaram, S., Fayeulle, A., Leonard, E., Ceballos, C., and Pauss, A.

Subjects

*LIGNOCELLULOSE, *BIOMASS, *CARBOHYDRATES, *ACRYLONITRILE, *FIBERS, *BIOMASS energy

Abstract

• Pretreatment is an essential step for the breakdown of lignocellulosic biomass. • Combining pretreatment helps to lower the severity of the drawbacks of a single step. • Biological-chemical/physicochemical combined pretreatment strategies were reviewed. • The order of pretreatment in the combined studies affects the overall efficiency. Sustainable biorefinery concepts based on lignocellulosic biomass are gaining worldwide research interest because of their inexpensiveness and abundance. The recalcitrance of lignocellulosic biomass poses a major hindrance to enhance biofuel production. Therefore, a pretreatment step is critical to prepare the substrates for the downstream process. Combining pretreatment steps help to lower the severity of the drawbacks of a single pretreatment step. This paper systematically reviews the combined biological and chemical/physicochemical pretreatment based on fiber degradation and sugar yield. An energy-efficient biological pretreatment method combined with a chemical pretreatment that accelerates the pretreatment times has been seen to be efficient for fiber degradation and sugar yields. However, fungal species, culture conditions, biomass type, the severity of chemical pretreatment and the order of sequential pretreatment influences the relative component contents and sugar yield. Even the same biomass from different sources undergoing similar pretreatment conditions could result in a varying amount of digestibility. [ABSTRACT FROM AUTHOR]

Published

2021

29. Sequential Modulation of the Equine Fecal Microbiota and Fibrolytic Capacity Following Two Consecutive Abrupt Dietary Changes and Bacterial Supplementation.

Author

Collinet, Axelle, Grimm, Pauline, Julliand, Samy, Julliand, Véronique, and Costa, Marcio

Subjects

*HORSE health, *HIGH-fiber diet, *LACTIC acid bacteria, *CELLULOLYTIC bacteria, *DIETARY fiber, *PROBIOTICS, *FECAL analysis, *BACTERIAL diversity

Abstract

Simple Summary: The equine hindgut is colonized by microorganisms, some of which are involved in fiber digestion and are crucial for the horse's nutrition and health. These key microorganisms are very sensitive to dietary changes, which have been identified as a risk factor for colics. This study assessed the stressful effect of two consecutive abrupt dietary changes on the diversity, the composition, and the activity of fecal microorganisms focusing on fibrolytic bacteria. Twelve horses were subjected to an abrupt change from forage to a concentrate-rich diet, followed by a second change from a concentrate to forage-rich diet 5 days later. Half of the horses were given a supplement of living bacteria as a probiotic. Two days after the sudden change from forage to concentrate diet, the proportions and types of microorganisms were altered drastically, as was their capacity to degrade fibers. After this dietary stress, it took 3–4 weeks of a high-fiber diet to recover the basal state. Supplementation with probiotics promoted an earlier recovery of fibrolytic bacteria after the dietary stress. Abrupt dietary changes should be limited in horse management to protect the hindgut microorganisms and their capacity to use forage fibers, and consequently to limit the development of colic. In horses, abrupt changes from high-fiber (HF) to high-starch (HS) diets can affect the cecal and colonic microbiota. This study investigated modifications and recovery of fecal microbiota after two consecutive abrupt dietary changes. Twelve horses fed HF for 2 weeks were changed to HS for 5 days then returned to HF for 7 weeks. Six received lactic acid bacteria supplementation. Bacterial population diversity, structure, and activity, especially fibrolysis, were assessed to obtain an overview of alteration in hindgut microbiota. Two days after the abrupt change from HF to HS, the findings in feces were consistent with those previously reported in the cecum and colon, with a decrease in fibrolytic activity and an increase in amylolytic activity. Fecal parameters stabilized at their basal level 3–4 weeks after the return to HF. A bloom of cellulolytic bacteria and lower pH were observed after 1.5 weeks, suggesting a higher level of fiber degradation. In supplemented horses the relative abundance of potentially fibrolytic genera was enhanced 2 days after HS and 2 days to 2–3 weeks after the return to HF. Fecal analysis could be a promising technique for monitoring hindgut microbial variations accompanying dietary changes. [ABSTRACT FROM AUTHOR]

Published

2021

30. The effects of Lactobacillus plantarum with feruloyl esterase-producing ability or high antioxidant activity on the fermentation, chemical composition, and antioxidant status of alfalfa silage.

Author

Li, F.H., Ding, Z.T., Chen, X.Z., Zhang, Y.X., Ke, W.C., Zhang, X., Li, Z.Q., Usman, S., and Guo, X.S.

Subjects

*SILAGE, *OXIDANT status, *LACTOBACILLUS plantarum, *ALFALFA, *UNSATURATED fatty acids, *FERULIC acid, *GLUTATHIONE peroxidase, *FERMENTATION

Abstract

• First report the antioxidant activity of L. plantarum A1 (Lp A1) in alfalfa silage. • L. plantarum 24-7 (Lp 24-7) with high antioxidant activity was applied to silage. • Inoculating Lp A1 and Lp 24-7 improved the antioxidant status of alfalfa silage. • Lp A1 degraded lignocellulose and released free ferulic acid in alfalfa silage. • Inoculating silage with Lp A1 increased the proportion of C18:3n-3 in total FA. This study was aimed to evaluate the effects of an efficient ferulic acid esterase-producing Lactobacillus plantarum A1 and an antioxidant strain L. plantarum 24-7 on fermentation, chemical composition, antioxidase activity and antioxidant status of alfalfa silage. Freshly chopped and wilted alfalfa with about 30 % dry matter (DM) was treated either without (CON) or with L. plantarum A1 (Lp A1), L. plantarum 24-7 (Lp 24-7), and a reference strain of L. plantarum MTD/1 (Lp MTD/1) at an application rate of 1 × 106 CFU/g fresh weight, respectively, and ensiled for 7, 14, 30, 60, and 90 d. All inoculants improved silage quality as indicated by low pH, high lactic acid concentration, and lactic acid/acetic acid compared to the CON from 7 d to 90 d of ensiling. After 90 d of ensiling, the lowest DM loss and non-protein N were observed in the Lp A1 inoculated silage. Inoculation of Lp A1 also decreased the neutral detergent fiber, acid detergent fiber, and acid detergent lignin concentrations in the later period of ensiled alfalfa, and increased ferulic acid concentration during all ensiling duration. The highest ferulic acid concentration was detected in Lp A1 treated silage after 30 d (P < 0.05). In addition, the total antioxidant capacity and glutathione peroxidase activity in the Lp A1 and Lp 24-7 inoculated silages were higher than that in the CON and Lp MTD/1 silages from 30 d to 90 d of ensiling. However, lower lipoxygenase activity was found in Lp A1 and Lp 24-7 inoculated silages during the whole fermentation process. Both Lp A1 and Lp 24-7 improved the total fatty acid concentration and the proportion of polyunsaturated fatty acids in total fatty acid of ensiled alfalfa when compared with the CON and Lp MTD/1 silages after 90 d of fermentation (P < 0.05). Therefore, inoculation of ferulic acid esterase-producing Lp A1 or antioxidant strain Lp 24-7 not only improved the fermentation quality and chemical composition of ensiled alfalfa but also enhanced the antioxidant status of the silage. [ABSTRACT FROM AUTHOR]

Published

2021

31. In vitro ruminal fermentation characteristics of alfalfa silages in response to different pre-ensiling treatments.

Author

Hartinger, T., Gresner, N., and Südekum, K.-H.

Subjects

*SILAGE, *SUCROSE, *FERMENTATION, *ALFALFA, *SILAGE fermentation, *RUMEN fermentation, *BUTYRATES

Abstract

• Pre-ensiling treatments affect the in vitro rumen fermentation of alfalfa silages. • High-intensity wilting increased fiber degradability, but reduced OM degradability. • Pre-ensiling treatments only marginally affected overall high in vitro deamination. • True protein preserving effect in alfalfa silages was not reflected in vitro. The present study investigated the in vitro ruminal fermentation of alfalfa silages (AS) that had been produced using different pre-ensiling treatments, i.e. , by changing the wilting intensity and dry matter concentration, and adding sucrose, and therefore differed in silage quality and their N fractions. The data were obtained using an in vitro rumen-simulation technique (Rusitec) system, in which the AS were incubated isonitrogenously in quadruplicate. Samples were taken after 2 days (first time point) and 7 days (second time point) of AS incubation, and a variety of fermentation characteristics as well as the degradability of fiber fractions and organic matter were determined. Sucrose addition substantially raised the propionate concentration during both sampling time points from an average of 17.8 to 29.7 mmol/L (P < 0.001), which might be explained by microbial utilization of residual sugars and lactate from the AS. The extraordinary high concentrations of isovalerate and ammonia-N with all AS point to enhanced deamination activity. At the second time point, the n-butyrate concentration increased during the incubation of high-intensity wilted AS (P = 0.007), which might have been caused by the higher hemicellulose degradability that was also observed for these silages (P = 0.002). However, the organic matter degradability decreased (P = 0.035), indicating a lower degradability of other feed fractions. The gas production (P < 0.001) and degradability of organic matter (P = 0.002) and fiber fractions (P < 0.001) decreased from first to second time point, whereas the concentrations of ammonia-N (P = 0.004), acetate (P < 0.001), and isovalerate (P < 0.001) increased. Thus, it seemed that alterations in the Rusitec system and the microbial community occurred, yet it is unclear why the acetate concentration increased, whereas the fiber degradability decreased. The beneficial effects of combining all three pre-ensiling treatments on silage quality, i.e. , higher acidification and increased true protein preservation, were not fully transferred to the in vitro ruminal fermentation system, and comprehensive research on pre-ensiling treatments will pave the way for an optimized ruminal N utilization from AS in the future. [ABSTRACT FROM AUTHOR]

Published

2019

32. Phosphorus Containing Polyacrylamides as Flame Retardants for Epoxy-Based Composites in Aviation.

Author

Greiner, Lara, Kukla, Philipp, Eibl, Sebastian, and Döring, Manfred

Subjects

*PHOSPHORUS, *POLYACRYLAMIDE, *FIREPROOFING agents, *COMPOSITE materials, *EPOXY resins

Abstract

Novel polymeric flame retardants based on two acrylamides and 9,10-dihydro-9-oxa-10-phosphaphenanthrene-10-oxide (DOPO) or 5,5-dimethyl-[1,3,2]dioxaphosphinane-2-oxide (DDPO) are described for several applications in HexFlow® RTM6, a high-performance epoxy resin. Neat resin samples and carbon fiber-reinforced composites were tested for their glass transition temperatures (dynamic mechanical analysis), thermal stability (thermogravimetric analyses), flammability (UL94) and flame-retardant performance (Cone Calorimetry). Additionally, the fiber degradation occurring during combustion of carbon fiber-reinforced epoxy resins was observed by scanning electron microscopy to show the fiber protecting effect of these flame retardants. Whereas DOPO-containing polyacrylamides acting mainly in the gas phase showed the best flame retardant efficiency, DDPO-containing polyacrylamides acting mainly in the condensed phase showed the best fiber protection. A mixed polyacrylamide was synthesized to combine these effects. This thermoplastic is soluble in the resin and, therefore, suitable for injection molding processes. Interlaminar shear strength measurements showed no negative effect of the flame retardant. The versatility of these flame retardants is shown by investigations dealing with boehmite as synergist in neat resin samples. [ABSTRACT FROM AUTHOR]

Published

2019

33. In vitro effects of phytic acid and polyphenols on starch digestion and fiber degradation

Author

Nyman, M. E. and Bjorck, I. M.

Subjects

*PHYTIC acid

Published

1987