Milk Production, Milk Quality, and Behaviour of Dairy Cows Grazing on Swards with Low and High Water-Soluble Carbohydrates Content in Autumn: A Pilot Trial

Merino, Verónica; Balocchi, Óscar; Rivero, M. Jordana

doi:10.3390/ani9121012

Cited by 5 publications

(6 citation statements)

References 39 publications

(61 reference statements)

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“…This resulted in differences in chemical composition that were mentioned above, and in terms of in vitro N metabolism, reduced NH 3 -N at both 4 h and 24 h of incubation and improved NUE. Coincidentally, cows grazing the same HS pastures that were sampled in autumn for this study presented a lower milk urea concentration, compared with the LS pasture, although the difference did not reach statistical significance [59]. However, there was no effect on microbial N yield, N digestibility, nor EMPS.…”

Section: Microbial Nitrogen Yield and Nitrogen Utilisationmentioning

confidence: 66%

In Vitro Fermentation Patterns and Methane Output of Perennial Ryegrass Differing in Water-Soluble Carbohydrate and Nitrogen Concentrations

Rivero

Keim

Balocchi

et al. 2020

Animals

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The objective of this study was to determine the effect of perennial ryegrass (PRG) forages differing in their concentration of water-soluble carbohydrates (WSC) and crude protein (CP), and collected in spring and autumn, on in vitro rumen fermentation variables, nitrogen (N) metabolism indicators and methane (CH4) output, using a batch culture system. Two contrasting PRG pastures, sampled both in autumn and spring, were used: high (HS) and low (LS) sugar pastures with WSC concentrations of 322 and 343 g/kg for HS (autumn and spring), and 224 and 293 g/kg for LS in autumn and spring, respectively. Duplicates were incubated for 24 h with rumen inocula in three different days (blocks). Headspace gas pressure was measured at 2, 3, 4, 5, 6, 8, 10, 12, 18, and 24 h, and CH4 concentration was determined. The supernatants were analysed for individual volatile fatty acids (VFA) concentrations, and NH3-N. The solid residue was analysed for total N and neutral detergent insoluble N. Another set of duplicates was incubated for 4 h for VFA and NH3-N determination. The HS produced more gas (218 vs. 204 mL/g OM), tended to increase total VFA production (52.0 mM vs. 49.5 mM at 24 h), reduced the acetate:propionate ratio (2.52 vs. 3.20 at 4 h and 2.85 vs. 3.19 at 24 h) and CH4 production relative to total gas production (15.6 vs. 16.8 mL/100 mL) and, improved N use efficiency (22.1 vs. 20.9). The contrasting chemical composition modified in vitro rumen fermentation tending to increase total VFA production, reduce the acetate:propionate ratio and CH4 concentration, and improve N use efficiency through lower rumen NH3-N.

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Section: Microbial Nitrogen Yield and Nitrogen Utilisationmentioning

confidence: 66%

In Vitro Fermentation Patterns and Methane Output of Perennial Ryegrass Differing in Water-Soluble Carbohydrate and Nitrogen Concentrations

Rivero

Keim

Balocchi

et al. 2020

Animals

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“…Although only one study showed decreased milk production when dairy cows were fed WSC-rich hay, 73 most studies testing WSC-rich forages observed no change in milk yield 58,61,71,74,75 or an increase. 30,63,76 Especially in early lactation, when voluntary DM intake potential is more restricted, feeding solely voluminous WSC-rich forage might not be sufficient to overcome the negative energy balance in a reasonable time frame.…”

Section: Characterization Of Plant Storage Carbohydratesmentioning

confidence: 99%

“…68,70 The results suggest that sugars in the diet compensate for the lack of lipogenic substrates for milk fat synthesis, such as acetate and butyrate, which are low during starch-rich feeding. It appears that, because milk fat concentration is generally higher under foragebased feeding, 50,58,61,71 the effects of feeding WSC on milk fat can only become visible in starch-rich diets when more than 2 kg of WSC (except lactose) 72 is ingested (Table 2).…”

Section: Characterization Of Plant Storage Carbohydratesmentioning

confidence: 99%

A review on the potentials of using feeds rich in water‐soluble carbohydrates to enhance rumen health and sustainability of dairy cattle production

Klevenhusen

Zebeli

2021

J Sci Food Agric

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Cows are adapted to degrade structural plant carbohydrates (SC), such as cellulose and hemicelluloses, prevailing in grasses. Yet, the need for energy-dense diets in many intensive dairy production systems has shifted the dairy cattleʼs diet from SC-rich to high levels of starch. Feeding of starch-rich diets increases the risk of ruminal acidosis in cows, and feeding starch in the form of grains intensifies the competition over cereal grains and arable land among different livestock species, as well as between livestock and humans. Besides cellulose and hemicelluloses, grasses are also often rich in water-soluble carbohydrates (WSC), which comprise mono-, di-, oligo-and polysaccharides (fructans). Although the ruminal fermentation profile of monoand disaccharides resembles that of starch, the degradation of oligo-and polysaccharides is slower, and their fermentation elicits a rather protecting effect on ruminal pH. When harvested in an early phase (i.e. ear emergence), grass hay and silages can reach WSC levels up to 150-200 g kg −1 dry matter and energy levels close to starch-rich diets, allowing a significantly reduced inclusion of concentrate supplements. By doing so, this will enhance both rumen health and the sustainability of milk production. However, because the WSC are chemically very heterogeneous, the patterns and extent of their ruminal fermentation are difficult to predict without a clear analytical characterization. This review article aims to summarize both the benefits and potentials, as well as the challenges, with respect to using WSC-rich feedstuffs in the nutrition of dairy cattle and their effects on ruminal fermentation characteristics and milk production.

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“…Maka dari itu, penggalakan konsumsi susu harus terus dilakukan, karena selain kandungan gizinya tinggi, susu juga dapat berperan sebagai pengikat polutan. Komponen utama dalam susu hewani yaitu protein, vitamin, laktosa, dan lemak (Merino, et al, 2019). Disamping itu susu mengandung komponen mikro dan makro yang sangat dibutuhkan oleh tubuh.…”

Section: Pendahuluanunclassified

The The Effect of MRD (Milk of Red Rice and Dates) Composition on the Degradation Stability of Milk Dyes and The Content of Milk Microbial Contamination

Latifah

2022

ijcs

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Milk is a nutritious drink that contains nutrients and vitamins needed by the body. In this study, a variant of the composition of red rice with Sukari dates and tested to obtain the best level of milk stability in the form of MRD. The composition of MRD was varied, namely MRD type I and MRD type II. The method used in this research is the analysis of milk dye degradation, milk stability analysis, microbial contamination analysis, and organoleptic testing. The results of the research on the degradation of milk dyes showed that both types of milk were in 2nd order with the reaction rate constant for type I MRD being 0.0582 and MRD type II was 0.0181. The level of stability of milk from MRD type I is 2nd order with a rate constant of 0.0953 and MRD type II is 1st order with a rate constant of 0.0998. For the microbial contamination assay showed that the microbial contamination test, showed that the two types of MRD, namely MRD type I and MRD type II were still within the safe limits and did not exceed the safe limits required by the SNI 7388:2009. The results of the hedonic test showed that the MRD type II was more favored by the respondents than the MRD type I.

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Milk Production, Milk Quality, and Behaviour of Dairy Cows Grazing on Swards with Low and High Water-Soluble Carbohydrates Content in Autumn: A Pilot Trial

Cited by 5 publications

References 39 publications

In Vitro Fermentation Patterns and Methane Output of Perennial Ryegrass Differing in Water-Soluble Carbohydrate and Nitrogen Concentrations

In Vitro Fermentation Patterns and Methane Output of Perennial Ryegrass Differing in Water-Soluble Carbohydrate and Nitrogen Concentrations

A review on the potentials of using feeds rich in water‐soluble carbohydrates to enhance rumen health and sustainability of dairy cattle production

The The Effect of MRD (Milk of Red Rice and Dates) Composition on the Degradation Stability of Milk Dyes and The Content of Milk Microbial Contamination

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