Effects of Four Essential Oils on Nutrients Digestibility of In Vitro Ruminal Fermentation

Kurniawati, Asih; Widodo, Widodo; Artama, Wayan Tunas; Yusiati, Lies Mira

doi:10.21059/buletinpeternak.v42i2.33522

Cited by 6 publications

(5 citation statements)

References 24 publications

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“…Consistent with our result on the effect of the EOBs on the HC diet, [ 18 ] reported a decrease in DM digestibility when thymol was supplemented at 500 mg/L in a dual-flow continuous culture system. Several other studies (both in vivo and in vitro studies) have reported similar depression in DM digestibility with inclusion of EOs and their mixtures [ 17 , 19 , 20 ].…”

Section: Discussionmentioning

confidence: 69%

“…The observed decrease in IVDDM in the present with the inclusion of EOBs was expected as lipids tend to reduce DM digestibility. The decline in digestibility with the inclusion of EOBs could also be associated with a reduction in protozoa population that help to engulf starch in the rumen [ 17 ]. A reduction in the protozoa population also has additional advantages as they are mainly responsible for CH 4 production.…”

Section: Discussionmentioning

confidence: 99%

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Effects of Essential Oil Blends on In Vitro Apparent and Truly Degradable Dry Matter, Efficiency of Microbial Production, Total Short-Chain Fatty Acids and Greenhouse Gas Emissions of Two Dairy Cow Diets

Brice

Dele

Ike

et al. 2022

Animals

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The current study evaluated nine essential oil blends (EOBs) for their effects on ruminal in vitro dry matter digestibility (IVDMD), efficiency of microbial production, total short-chain fatty acid concentration (SCFA), total gas, and greenhouse gas (GHG) emissions using two dietary substrates (high forage and high concentrate). The study was arranged as a 2 × 2 × 9 + 1 factorial design to evaluate the effects of the nine EOBs on the two dietary substrates at two time points (6 and 24 h). The inclusion levels of the EOBs were 0 µL (control) and 100 µL with three laboratory replicates. Substrate × EOBs × time interactions were not significant (p > 0.05) for total gas and greenhouse gas emissions. The inclusion of EOBs in the diets resulted in a reduction (p < 0.001) in GHG emissions, except for EOB1 and EOB8 in the high concentrate diet at 6 h and for EOB8 in the high forage diet at 24 h of incubation. Diet type had no effect on apparent IVDMD (IVADMD) whereas the inclusion of EOBs reduced (p < 0.05) IVADMD with higher values noted for the control treatment. The efficiency of microbial production was greater (p < 0.001) for EOB treatments except for EOB1 inclusion in the high forage diet. The inclusion of EOBs affected (p < 0.001) the total and molar proportion of volatile fatty acid concentrations. Overall, the inclusion of the EOBs modified the rumen function resulting in improved efficiency of microbial production. Both the apparent and truly degraded DM was reduced in the EOB treatments. The inclusion of EOBs also resulted in reduced GHG emissions in both diets, except for EOB8 in the high forage diet which was slightly higher than the control treatment.

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Section: Discussionmentioning

confidence: 69%

Section: Discussionmentioning

confidence: 99%

Effects of Essential Oil Blends on In Vitro Apparent and Truly Degradable Dry Matter, Efficiency of Microbial Production, Total Short-Chain Fatty Acids and Greenhouse Gas Emissions of Two Dairy Cow Diets

Brice

Dele

Ike

et al. 2022

Animals

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“…This study's pH value is within the range of values necessary for optimal rumen microbial activity. In a previous study, an increased essential oil supplementation did not affect pH (Gunal et al 2013;Kurniawati et al 2018).…”

Section: Effect Of Citronella Oil Supplementation On Rumen Fluid Char...mentioning

confidence: 68%

Strategy to Reduce Methane to Increase Feed Efficiency in Ruminants Through Adding Essential Oils as Feed Additives

2023

Int J Vet Sci

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Increased emissions of methane gas (CH4) have an effect on global warming and are predicted to continue to increase in line with increasing livestock productivity. This research aimed to obtain the optimum level of using feed additive essential oil (EO) and to know the effect of EO to increase feed efficiency so as to reduce methane gas emissions. The addition of EO to cattle rations was tested experimentally in vitro. This research used a Randomized Block Design (RBD) with five treatments and three replications. The treatments were 0, 50, 100, 150, and 200µL citronella oil/200mL of buffered rumen fluid. The variables observed were methane gas production, protozoa population, microbial protein synthesis, rumen fluid characteristics (pH, NH3, VFA), digestibility of dry matter (DMD), organic matter (OMD), crude protein (CPD) and fiber fractions (Neutral Detergent Fiber, Acid Detergent Fiber, cellulose, and hemicellulose). The results showed that supplementation of citronella oil in rations in vitro had no significant differences (P>0.05) in ruminal pH, significant differences (P<0.05) on VFA, NH3, NDF, ADF, cellulose, hemicellulose, had a highly significant difference (P<0.01) on methane production, protozoa population, DMD, OMD, CPD. Based on the results of the study it was concluded that the addition of essential oil, 50 µL citronella/200 mL buffered rumen fluid (P2), can be used as a rumen modification to reduce methane production and protozoa populations and to increase digestibility in vitro.

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“…Our study found that EO inclusion at 3 mg/day did not affect the apparent digestibility coefficients of DM, NDF, or ADF, aligning with results from Lin et al [ 32 ], Benchaar et al [ 33 ] and Meyer et al [ 29 ], who also reported no significant changes with various EO treatments. Nonetheless, studies such as those by Kurniawati et al [ 34 ] and Metwally [ 35 ] have shown that EOs can either decrease or enhance digestibility based on the EO type and dosage, underscoring the complexity and context-dependency of EO effects.…”

Section: Discussionmentioning

confidence: 99%

Essential Oils in Nellore Beef Cattle: In Vivo Impact on Rumen Emissions

Benetel,

Fagundes,

de Méo-Filho

et al. 2024

Animals

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Essential oils (EOs), as rumen additives, decreased CH4 emissions in in vitro trials but results from in vivo studies are still limited. We investigated the effects of Origanum vulgare (OEO) and Thymus vulgaris (TEO) EOs on in vivo methane emissions from Nellore beef cattle. Six adult rumen-cannulated Nellore cattle were used in a double 3 × 3 Latin square design. Treatments consisted of three diets containing either 3 mL OEO per kg of concentrate, 3 mL TEO/kg of concentrate, or no EO addition. The experimental period consisted of three 21 d feeding periods and methane production was measured using the sulfur hexafluoride (SF6) technique from Day 16 to Day 21 of each feeding period. Intake, total apparent digestibility (dry matter as well as neutral and acid detergent fiber), and rumen parameters (pH, ammoniacal nitrogen concentration, and short-chain fatty acids) were also evaluated. The EOs did not decrease CH4 emissions and had no effect on rumen parameters.

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Effects of Four Essential Oils on Nutrients Digestibility of In Vitro Ruminal Fermentation

Cited by 6 publications

References 24 publications

Effects of Essential Oil Blends on In Vitro Apparent and Truly Degradable Dry Matter, Efficiency of Microbial Production, Total Short-Chain Fatty Acids and Greenhouse Gas Emissions of Two Dairy Cow Diets

Effects of Essential Oil Blends on In Vitro Apparent and Truly Degradable Dry Matter, Efficiency of Microbial Production, Total Short-Chain Fatty Acids and Greenhouse Gas Emissions of Two Dairy Cow Diets

Strategy to Reduce Methane to Increase Feed Efficiency in Ruminants Through Adding Essential Oils as Feed Additives

Essential Oils in Nellore Beef Cattle: In Vivo Impact on Rumen Emissions

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