Effect of slow release urea in sheep feed on nitrogen balance

Geron, Luiz Juliano Valério; Garcia, Jocilaine; Aguiar, Sílvia Cristina de; Costa, Fabiana Gomes da; Silva, Ana Paula da; Neto, Eurico Lucas Sousa; Carvalho, Joilma Toniolo Honório de; Roberto, Lucas Silva; Coelho, Kallynka Samara Martins; Santos, Ilda Souza

doi:10.5433/1679-0359.2018v39n2p683

Cited by 6 publications

(7 citation statements)

References 25 publications

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“…Table (2) shows a significant increase (A<0.05) in the rate of lambs' consumption of feed significantly for the third and fourth treatment over the second. This finding agreed with those of [8][9][10]. In contrast [11] reported that the addition of 1.8 g/kg DM SRU improves DMI and digestion.…”

Section: Resultssupporting

confidence: 92%

Effect of Using Slow-Release Urea on Food Compound Digestion Coefficient and some Rumen and Blood Fluid Traits in Awassi Lambs

Hashem

Tayeb

2023

IOP Conf. Ser.: Earth Environ. Sci.

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I completed this study in the fields of the Department of Animal Production - College of Agriculture and Forestry - University of Mosul to find out the effect of adding slow-release urea to the concentrated diet gradually instead of rapidly release urea in an attempt to improve the efficiency of feed utilization and improve rumen conditions and the reflection of that Digestion of compounds and nutrients in rams using 4 Awassi lambs aged between 9-12 months distributed into four treatments fed on a concentrated diet close in energy and protein content and different in its content of urea that It was gradually replaced by slow-release urea (menogen) where the first treatment (1.5% urea only), the second treatment (1% urea and 0.6% slow decomposition urea), the third treatment (0.5% urea and 1.2% slow decomposition urea) and the fourth (1.8% slow decomposition urea only) took the study took four e×perimental periods, each period lasting 19 days (14 days introductory period and 5 days sample collection period) with a cross over design. The digestibility coefficient of dry matter ingested was (74.74, 75.91, 76.14 and 75.87%), and the digestibility coefficient of protein reached (85.67, 86.70, 87.89 and 88.29) % and the coefficient of fiber digestion (29.64, 28.96, 49.53 and 41.43) % respectively for the four coefficients. The results did not indicate significant differences in the pH value of rumen fluid before feeding and two hours after feeding. While the results indicated significant differences (p<0.05) in the concentration of ammonia in the rumen liquid before feeding, where it amounted to 4.95, 6.07, 5.0 and 5.52 mmol / 100 mol, and significant differences were noted (p<0.05) in the number of bacteria before feeding, as it amounted to (45.25, 25.75, 13.25 and 26.50103× / ml), and two hours after feeding amounted to (22.50, 19.75 and 48). 75 and 52,00103× (/ ml and the numbers of protozoa before feeding, as it amounted to (12.00, 4.50, 6.00 and 7.00) 103× / ml and two hours after feeding, as it amounted to (5.25, 7.75, 12.75 and 6.50) 103× / ml rumen fluid respectively and the fourth. Through the results, it was noted that there is a positive effect of adding menogen to the diets of Awassi lambs in digestion and some characteristics of the rumen.

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Section: Resultssupporting

confidence: 92%

Effect of Using Slow-Release Urea on Food Compound Digestion Coefficient and some Rumen and Blood Fluid Traits in Awassi Lambs

Hashem

Tayeb

2023

IOP Conf. Ser.: Earth Environ. Sci.

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“…In fact, serum urea concentration is proportional to the ammonia levels produced in the rumen (Karimizadeh et al, 2017). Most of the protein ingested is degraded by ruminal microorganisms, releasing ammonia, which is used for microbial protein synthesis (Geron et al, 2018). However, when large amounts of protein are fermented in combination with low availability of energy from carbohydrate degradation, a high rumen ammonia concentration is generated.…”

Section: Discussionmentioning

confidence: 99%

“…However, when large amounts of protein are fermented in combination with low availability of energy from carbohydrate degradation, a high rumen ammonia concentration is generated. The capacity of ammonia utilization by ruminal microorganisms is exceeded, so the excess is absorbed into the enterohepatic circulation, and in the liver is converted into urea, which, added to urea from amino acid metabolism, constitutes the major portion of plasma urea (Fernandes et al, 2012;Karimizadeh et al, 2017;Geron et al, 2018). However, it can be observed that the energy requirement for the lambs in this study was practically met (Table 3), with only a small deficit in its balance at 91-120 days, while the protein deficit was much higher (not being the protein requirement fully met).…”

Section: Discussionmentioning

confidence: 99%

Dynamics of biochemical parameters in lambs during the first four months of life

Souza

Reijers

Gilaverte

et al. 2020

Revista Brasileira De Zootecnia

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Ruminants Full-length research article Dynamics of biochemical parameters in lambs during the first four months of life ABSTRACT-We aimed to verify whether age influences the biochemical profile of healthy lambs during the first four months of life by characterizing the dynamics of its parameters and verifying whether there are differences between the profiles of growing animals and the reference values established for adults. Blood samples of 34 ½ White Dorper × ½ Suffolk female lambs were collected at 30, 60, 90, and 120 days of age, and the serum concentrations of total proteins, total globulins, albumin, urea, creatinine, bilirubins (total, conjugated, and unconjugated), total cholesterol, triglycerides, glucose, gamma-glutamyltransferase, aspartate aminotransferase, and creatine kinase were determined. Descriptive statistics of these parameters were performed to compare them with the reference intervals used for adult sheep. Age influenced the dynamics of all the biochemical parameters between 30 and 120 days of age. Moreover, except for the total, conjugated and unconjugated bilirubins, total cholesterol, and aspartate aminotransferase means, the values of the lambs differed from the reference intervals established for adults. In conclusion, there is an influence of age on biochemical parameters in healthy female lambs in the first four months of life, and often the biochemical parameters of young animals differ from those of adults. Therefore, the interpretation of tests performed on growing animals should be made based on specific reference intervals for this age group.

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“…These findings can be partially explained by an increased abundance and activity of fibrolytic bacteria in the rumen, such as Ruminococcaceae, which uses ammonia as its main nitrogen source due to both a higher level of NH 3 availability and better synchrony between nitrogen and carbohydrates in the rumen, when SRU is used as a partial substitution for SBM [ 38 , 39 ]. Furthermore, Geron et al (2016) found a better in vivo digestibility of crude protein in sheep fed with SRU as a partial replacement for SBM [ 40 ].…”

Section: Resultsmentioning

confidence: 99%

“…The partial replacement of SBM with SRU decreased the CFP of the treatment diet, expressed per 1 kilogram of diet (−10.98%; 449.91 vs. 505.41 g CO 2 -eq/kg diet) compared to the control diet due to the lower global warming potential (GWP) of SRU than SBM [ 24 ]. The highest GWP of soybean meal is mainly due to large transport distances and emissions related to land-use change (LUC), such as deforestation, which can lead to heavier emissions of greenhouse gases [ 6 , 7 , 8 , 9 , 10 , 11 , 12 , 13 , 14 , 15 , 16 , 17 , 18 , 19 , 20 , 21 , 22 , 23 , 24 , 25 , 26 , 27 , 28 , 29 , 30 , 31 , 32 , 33 , 34 , 35 , 36 , 37 , 38 , 39 , 40 , 41 ]. These results agree with the findings of Salami et al (2021), who showed a 12% reduction in CFP (g CO 2 -eq/kg diet) when SBM and other plant-protein sources were replaced by SRU [ 8 ].…”

Section: Resultsmentioning

confidence: 99%

Effect of Slow-Release Urea Administration on Production Performance, Health Status, Diet Digestibility, and Environmental Sustainability in Lactating Dairy Cows

Grossi

Compiani

Rossi

et al. 2021

Animals

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The effects of partially replacing soybean meal (SBM) with a slow-release urea source (SRU) on production performance, feed efficiency, digestibility, and environmental sustainability of dairy cows were evaluated. A total of 140 lactating Holstein Frisian cows were allocated into two study groups: (i) control (diet entirely based on SBM), and (ii) treatment (diet of 0.22% on dry matter basis (d.m.)) of SRU. Milk yield, dry matter intake (DMI), feed conversion rate (FCR), body condition score (BCS), reproductive parameters, and milk quality were evaluated. The chemical composition of the feeds and feces were analyzed to calculate the in vivo digestibility of the two diets. The carbon footprint (CFP) and predicted methane (CH4) emissions were evaluated. The inclusion of SRU significantly increases milk yield, DMI, and FCR (p < 0.0001), whereas milk quality, BCS, and reproductive indicators were not affected (p > 0.05). In the treatment group, the digestibility of crude protein (CP) (p = 0.012), NDF (p = 0.039), and cellulose (p = 0.033) was significantly higher, while the other nutritional parameters weren’t affected. All the environmental parameters were significantly improved in the treatment group (p < 0.0001). Replacing SBM with SRU can be a strategy to enhance dairy cows’ sustainability due to improved production efficiency, reduced feed CFP, and predicted CH4 production.

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Effect of slow release urea in sheep feed on nitrogen balance

Cited by 6 publications

References 25 publications

Effect of Using Slow-Release Urea on Food Compound Digestion Coefficient and some Rumen and Blood Fluid Traits in Awassi Lambs

Effect of Using Slow-Release Urea on Food Compound Digestion Coefficient and some Rumen and Blood Fluid Traits in Awassi Lambs

Dynamics of biochemical parameters in lambs during the first four months of life

Effect of Slow-Release Urea Administration on Production Performance, Health Status, Diet Digestibility, and Environmental Sustainability in Lactating Dairy Cows

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