Your search keyword '"in vitro rumen fermentation"' showing total 6 results

1. Alpine pasture plant species affect in vitro rumen methane production and kinetics

Author

Alberto Romanzin, Anita Cabbia, Matteo Braidot, and Mauro Spanghero

Subjects

pasture plants, in vitro rumen fermentation, methane kinetic, fermentation parameter, Animal culture, SF1-1100

Abstract

This study aimed to evaluate the influence of different plant species widespread in alpine pastures on in vitro rumen fermentation parameters and methane kinetic production. A total of 11 plant species were sampled at the beginning of the grazing season and used as substrates in an in vitro batch fermentation system. After 24h of fermentation, plants affected volatile fatty acids profiles, ammonia yield, and dry matter (DM) digestibilities. Carum carvi, Ranunculus. acris and Festuca rubra showed the highest total production of methane per unit of digested DM while Potentilla erecta was the species that produced less methane. In terms of methane as a percentage of the total gas, F. rubra had the highest value (28.9%) while R. acris had the lowest (24.2%). Total gas and methane production were monitored continuously and the percentage of methane in total gas was fitted with the Gompertz model. Plants differed significantly (p < .01) in methane production kinetics, including production rate decline (A), asymptotic methane concentration (B), time to maximum fermentation rate (TMFR), and maximum fermentation rate (MFR). C. carvi, Prunella grandiflora, and R. acris showed high values of MFR and the top values in the production rate decline (A > 0.9). The two grasses (F. rubra and Poa alpina) together with Hypericum maculatum showed an opposite behaviour with low values in MFR, A and a longer TMFR. The results of the methane production kinetics allow for an in-depth evaluation of plant species, adding further information to those registered at the end of fermentation.

Published

2024

2. Effect of steam explosion on in vitro gas production kinetics and rumen fermentation profiles of three common straws

Author

Li Wen He, Qing Xiang Meng, De Yong Li, Fei Wang, and Li Ping Ren

Subjects

Steam explosion, Gas production, In vitro rumen fermentation, Fibrous feeds, Animal culture, SF1-1100

Abstract

To investigate the effect of steam explosion on in vitro gas production (GP) and rumen fermentation profiles of common straws, in vitro cultivation was conducted for 96 h with the rumen fluid collected from steers. Different types of straw had various chemical compositions, which were affected by steam explosion (P

Published

2015

3. Effect of Quebracho tannin extract on soybean and linseed oil biohydrogenation by solid associated bacteria: an in vitro study.

Author

Minieri, Sara, Buccioni, Arianna, Rapaccini, Stefano, Pezzati, Antonio, Benvenuti, Doria, Serra, Andrea, and Mele, Marcello

Subjects

*TANNINS in animal nutrition, *QUEBRACHO, *SOY oil, *LINSEED oil, *HYDROGENATION, *RUMEN fermentation, *DRY matter in animal nutrition

Abstract

An in vitro trial was carried out to study the effects of Quebracho tannins extract (QE) on fatty acid profile of rumen solid adherent bacteria (SAB) during the fermentation of diets supplemented with soybean or linseed oil, as sources of linoleic (LA; 18:2 n-6) and α- linolenic acid (α-LNA; 18:3 n-3), respectively. Two control diets were prepared using a basal mixture of grass hay [760 g/kg on dry matter (DM)], soybean meal (55 g/kg DM), barley meal (130 g/kg DM), vitamin mineral premix (20 g/kg DM) and 35 g/kg DM of soybean (SOC diet) or linseed oil (LOC diet) as lipid supplement. Other two diets (SOCT and LOCT) were obtained by integrating SOC and LOC with QE (49 g/kg DM). The results confirmed that Quebracho tannins may be an effective method for reducing in SAB the biohydrogenation of LA (17.3 vs 34.5 g/100 g of fatty acid in SOC and SOCT, respectively) and LNA (10.7 vs 21.4 g/100 g of fatty acid in LOC and LOCT, respectively), but not for increasing the rumen accumulation of cis9, trans11 18:2 (0.77 vs 0.32 g/100 g of fatty acid in SOC and SOCT, respectively; 0.51 vs 0.43 g/100 g of fatty acid in LOC and LOCT, respectively) and trans11 18:1 (6.15 vs 3.64 g/100 g of fatty acid in SOC and SOCT, respectively; 5.53 vs 4.47 g/100 g of fatty acid in LOC and LOCT, respectively). [ABSTRACT FROM AUTHOR]

Published

2014

4. Effects of carbohydrase-inhibiting compounds on in vitro rumen fermentation.

Author

Marchesini, Giorgio, De Nardi, Roberta, Ricci, Rebecca, Andrighetto, Igino, Serva, Lorenzo, and Segato, Severino

Subjects

*CARBOHYDRASES, *RUMEN fermentation, *ENZYME inhibitors, *ACARBOSE, *DRY matter in animal nutrition, *CORN meal, *VOLATILE organic compounds

Abstract

Batch culture fermentations with ruminal content were conducted to determine the effects of plant-derived [bilberry extract (BBE), phaseolamin, white mulberry (WMB), common flax] carbohydrase-inhibiting compounds on microbial fermentation. The cultures with these compounds, at two different doses (15 and 150 mg), were compared with both acarbose (ACB) and batch cultures without the addition of any enzyme-inhibiting compounds (Control). Incubations were conducted in triplicate and replicated. The pH, volatile fatty acids, ammonia N, apparent dry matter (DMD) and starch disappearance were measured after 5 and 24 h of incubation. Treatment with ACB, after 5 h, significantly reduced maize meal fermentation, resulting in the highest pH levels (P<0.01), the lowest total VFA concentration (P=0.01) and the lowest DMD (P<0.01). On the opposite, BBE and WMB caused the highest drop in pH, due to the rapid fermentation of their sugar content. Treatment with BBE resulted in an increase in propionate and in an apparently low ammonia N concentration, whilst ACB (150 mg) led to the highest values of acetate (P<0.05) and to a relative high concentration of ammonia N. After 24 h the differences in the fermentation pattern among supplements remained similar to those found after 5 h. In addition, BBE showed an activity against starch degradation, although this effect was concealed by the fermentation of sugars present in that supplement. These results show that some compounds modify the fermentation pattern of the substrate, but further studies are needed to clarify their impact on the complex rumen microbial community. [ABSTRACT FROM AUTHOR]

Published

2014

5. Effect of three species of herbage (Medicago sativa, Lolium multiflorum, Avena sativa) onin vitroruminal production of conjugated linoleic and vaccenic acids

Author

Arianna Buccioni, Marcello Mele, Valentina Pratesi, Mauro Antongiovanni, Stefano Rapaccini, and Sara Minieri

Subjects

food.ingredient, 040301 veterinary sciences, Linoleic acid, Conjugated linoleic acid, forage, in vitro rumen fermentation, fatty acid, conjugated linoleic acid, Vaccenic acid, 0403 veterinary science, chemistry.chemical_compound, Rumen, food, Food science, lcsh:SF1-1100, biology, Rumenic acid, 0402 animal and dairy science, 04 agricultural and veterinary sciences, Lolium multiflorum, biology.organism_classification, 040201 dairy & animal science, Avena, Agronomy, chemistry, Animal Science and Zoology, Fermentation, lcsh:Animal culture

Abstract

Little information is available about the effect of different forage species on the rumen biohydrogenation process. The aim of the present work is to compare the in vitro production of CLA and C18:1 isomers after incubation of three different herbage species in rumen liquor from sheep. Pasture herbage samples of lucerne (Medicago sativa; MS), ryegrass (Lolium multiflorum; LM) and oats (Avena sativa; AS) were submitted to in vitro fermentation with sheep rumen inoculum. Samples were collected at 2, 4, 6 and 8 hours of fermentation. The fatty acid profile of MS was characterised by 11.62 (g/100 g of lipid extract) of linoleic acid (LA) and 27.08 (g/100 g of lipid extract) of α-linolenic acid (LNA), whereas LA in the other two herbages was 6.60 (g/100 g of lipid extract) and 6.95 (g/100 g of lipid extract) in AS and LM, respectively; LNA was 52.20 (g/100 g of lipid extract) and 54.49 (g/100 g of lipid extract) in AS and LM, respectively. The crude fat content of botanical species was respectively 11.90 (g/100g DM) for AS, and 15.77 (g/100g DM) for LM and 26.17 (g/100g DM) for MS. Rumenic acid (RA, cis-9, trans-11 CLA) was the predominant CLA isomer and the maximum yield was attained with AS after 6 hours of fermentation (0.81 g/100 g of lipid extract); RA concentration remained quite low with the other two herbages. The concentration of the other isomer (trans-10, cis-12 CLA) was always very low; the maximum yield (0.09 g/100 g of lipid extract) was reached after 6 hours with AS. The maximum yield of vaccenic acid (VA, trans-11 C18:1) was reached after 8 hours with MS (2.64 g/100 g of lipid extract). This herbage also produced the highest amount of trans-10 C18:1 at 6 and 8 hours (0.17 g/100 g of lipid extract). AS appeared to have induced the highest amounts of RA relative to the other two forages. The differences in conjugated dienes and C18:1 isomers content during fermentation could be due not only to different amounts of LA or LNA in the herbage, but also to different releasing times of FA from the plant substrate.

Published

2009

6. Effects of Carbohydrase-Inhibiting Compounds onin VitroRumen Fermentation

Author

Rebecca Ricci, Giorgio Marchesini, Igino Andrighetto, Roberta De Nardi, Lorenzo Serva, and Severino Segato

Subjects

040301 veterinary sciences, Starch, Carbohydrase, 0403 veterinary science, chemistry.chemical_compound, Rumen, Ammonia, Dry matter, Food science, Carbohydrase inhibitors, In vitro rumen fermentation, Volatile fatty acids, Ammonia, Carbohydrase inhibitors, Sugar, Incubation, lcsh:SF1-1100, chemistry.chemical_classification, biology, In vitro rumen fermentation, Volatile fatty acids, 0402 animal and dairy science, food and beverages, 04 agricultural and veterinary sciences, 040201 dairy & animal science, chemistry, Biochemistry, Propionate, biology.protein, Animal Science and Zoology, Fermentation, lcsh:Animal culture

Abstract

Batch culture fermentations with ruminal content were conducted to determine the effects of plant-derived [bilberry extract (BBE), phaseolamin, white mulberry (WMB), common flax] carbohydrase-inhibiting compounds on microbial fermentation. The cultures with these compounds, at two different doses (15 and 150 mg), were compared with both acarbose (ACB) and batch cultures without the addition of any enzyme-inhibiting compounds (Control). Incubations were conducted in triplicate and replicated. The pH, volatile fatty acids, ammonia N, apparent dry matter (DMD) and starch disappearance were measured after 5 and 24 h of incubation. Treatment with ACB, after 5 h, significantly reduced maize meal fermentation, resulting in the highest pH levels (P

Published

2014