Cross Inoculation of Rumen Fluid to Improve Dry Matter Disappearance and Its Effect on Bacterial Composition Using an in vitro Batch Culture Model

McDermott, Katie; Lee, Michael R. F.; McDowall, Kenneth J.; Greathead, H.M.R.

doi:10.3389/fmicb.2020.531404

Cited by 4 publications

(3 citation statements)

References 61 publications

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“…An effect of the consecutive inoculation was observed for the control tubes and those supplemented with NPA, where DMD decreases from batch A to C, following the same pattern as TG, showing the lowest digestibility for all tubes during the B series. These results differ from those of McDermott et al (2020), who indicated that digestibility of dry matter on ruminal cultures tends to increase with consecutive culturing, due to a microbial adaptation under in vitro conditions, associated with reduced diversity of the microbiome. Nevertheless, Lin et al (2019) demonstrated that adaptation to in vitro conditions may take a long time, and that the transfer-to-transfer process has an impact on fermentative parameters, including gas produced, pH, and short-chain fatty acids produced, which may cause variability in dry matter degradability of our experiment.…”

Section: Dry Matter Disappearancecontrasting

confidence: 99%

EFFECT OF NITRO COMPOUNDS ON in vitro RUMINAL METHANE, CARBON DIOXIDE, HYDROGEN AND DRY MATTER DEGRADABILITY

Ochoa-García,

Anderson,

Rodríguez-Almeida

et al. 2024

Chil. j. agric. anim. sci.

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This study determined the in vitro effects of ethyl nitroacetate (ENA), ethyl 2-nitropropionate (E-2-NPP) and 3-nitropropionic acid (NPA) on ruminal production of CH4, H2, volatile fatty acids (VFAs) and in vitro dry matter disappearance of ground alfalfa. In vitro incubations were carried out over 24-h succeeding days (3 batches). Total gas and methane production decreased with all nitro compounds (P 0.05) in all the batches. Total production of VFAs was reduced by ENA and E-2-NPP (P 0.05), but not by NPA. DM disappearance was similar between treatments but decreased across batches. Further studies should be aimed at understanding the impact of NPA on ruminal metabolism, as well as its effect on in vivo models.

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Section: Dry Matter Disappearancecontrasting

confidence: 99%

EFFECT OF NITRO COMPOUNDS ON in vitro RUMINAL METHANE, CARBON DIOXIDE, HYDROGEN AND DRY MATTER DEGRADABILITY

Ochoa-García,

Anderson,

Rodríguez-Almeida

et al. 2024

Chil. j. agric. anim. sci.

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“…On the other side, an effect of the consecutive inoculation was observed for the control tubes and those supplemented with NPA, where DMD decreases from series A to C, following the same tendency that TG, showing the lowest digestibility for all tubes during the B series. These results differ from others (McDermott et al, 2020), who indicate that the digestibility of dry matter on ruminal cultures tends to increase with consecutive culturing, due to a microbial adaptation under in vitro conditions, associated with reduced diversity of the microbial ecosystem. Nevertheless, Lin et al, (2019) demonstrate that the adaptation to in vitro conditions may take a long time, and the transfer-to-transfer process has an impact on fermentative parameters, including gas produced, pH, and short chain fatty acids SCFA produced, which may cause variability in dry matter degradability of our experiment.…”

Section: Dry Matter Digestibilitycontrasting

confidence: 99%

Effect of Ethyl Nitroacetate, Ethyl 2-Nitropropionate and 3-Nitropropionic Acid on Ruminal Fermentation Characteristics and Dry Matter Degradability under <em>In Vitro</em> Conditions

Ochoa-García¹,

Anderson²,

Rodríguez-Almeida³

et al. 2023

Preprint

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The objective of this study was to investigate the effects of ethyl nitroacetate, ethyl 2-nitropropionate and 3-nitropropionic acid on ruminal production of CH4, H2, volatile fatty acids (VFAs) and on dry matter digestibility of ground alfalfa under in vitro conditions. In vitro incubations were conducted as consecutive batch cultures. Total gas and amounts of methane produced by ruminal microbes were decreased by all nitrocompounds (P &lt; 0.05). Total production of VFAs was significantly reduced for all the nitrocompounds (P &lt; 0.05) except for NPA. DM disappearance was not affected (P &gt;0.05) by treatment.

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“…Fresh rumen fluid is commonly employed as INO for in vitro fermentation. Increasing evidences show that frozen rumen fluid can be also used as INO. Frozen rumen fluid as INO can easily preserve rumen microorganisms, and allows multiple experiments to be carried out on the same fluids to reduce interexperimental variation (8,9). Although strong correlations of DM degradation have been observed between fresh and frozen INO (10), evidence also indicates that frozen INO can alter the fermentation pattern with decreased VFA production and shift of fermentation to favor propionate production (11).…”

Section: Introductionmentioning

confidence: 99%

In vitro Inoculation of Fresh or Frozen Rumen Fluid Distinguishes Contrasting Microbial Communities and Fermentation Induced by Increasing Forage to Concentrate Ratio

Yuan

Zhou

et al. 2022

Front. Nutr.

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In vitro rumen batch culture is a technology to simulate rumen fermentation by inoculating microorganisms from rumen fluids. Although inocula (INO) are commonly derived from fresh rumen fluids, frozen rumen fluids are also employed for the advantages of storing, transporting, and preserving rumen microorganisms. The effects of frozen INO on microbial fermentation and community may be interfered with by substrate type, which has not been reported. This study was designed to test whether rumen fluid treatments (i.e., fresh and frozen) could interact with incubated substrates. A complete block design with fractional arrangement treatment was used to investigate the effects of INO (fresh or frozen rumen fluids) and concentrate-to-forage ratios (C/F, 1:4 or 1:1) on rumen fermentation and microbial community. The effects of increasing C/F were typical, including increased dry matter (DM) degradation and total volatile fatty acids (VFA) concentration (P < 0.001), and decreased acetate to propionate ratio (P = 0.01) and bacterial diversity of richness and evenness (P ≤ 0.005) with especially higher fermentative bacteria such as genus Rikenellaceae_RC, F082, Prevotella, Bacteroidales_BS11, Muribaculaceaege, and Christensenellaceae_R-7 (P ≤ 0.04). Although frozen INO decreased (P < 0.001) DM degradation and altered rumen fermentation with lower (P ≤ 0.01) acetate to propionate ratio and molar proportion of butyrate than fresh INO, typical effects of C/F were independent of INO, as indicated by insignificant INO × C/F interaction on substrate degradation, VFA profile and bacterial community (P ≥ 0.20). In summary, the effect of C/F on fermentation and bacterial diversity is not interfered with by INO type, and frozen INO can be used to distinguish the effect of starch content.

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Cross Inoculation of Rumen Fluid to Improve Dry Matter Disappearance and Its Effect on Bacterial Composition Using an in vitro Batch Culture Model

Cited by 4 publications

References 61 publications

EFFECT OF NITRO COMPOUNDS ON in vitro RUMINAL METHANE, CARBON DIOXIDE, HYDROGEN AND DRY MATTER DEGRADABILITY

EFFECT OF NITRO COMPOUNDS ON in vitro RUMINAL METHANE, CARBON DIOXIDE, HYDROGEN AND DRY MATTER DEGRADABILITY

Effect of Ethyl Nitroacetate, Ethyl 2-Nitropropionate and 3-Nitropropionic Acid on Ruminal Fermentation Characteristics and Dry Matter Degradability under <em>In Vitro</em> Conditions

In vitro Inoculation of Fresh or Frozen Rumen Fluid Distinguishes Contrasting Microbial Communities and Fermentation Induced by Increasing Forage to Concentrate Ratio

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