Effect of slow-release urea on intake, ingestive behavior, digestibility, nitrogen metabolism, microbial protein production, blood and ruminal parameters of sheep

We conducted two experiments. The first aimed to obtain and characterize microparticles of slow-release urea (SRU) using calcium alginate as the encapsulating agent. The second experiment evaluated their inclusion in sheep diets. In the first experiment, four treatments from a completely randomized...

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Bibliographic Details
Published in:Tropical animal health and production 2023-12, Vol.55 (6), p.414-414, Article 414
Main Authors: Silva, Aline, Pereira Filho, José Morais, Oliveira, Juliana, Lucena, Kevily, Mazza, Pedro, Silva Filho, Edson, Nascimento, Ariane, Pereira, Elzânia, Vaz, Antônio, Barbosa, Analivia, Oliveira, Ronaldo, Bezerra, Leilson
Format: Article
Language:English
Subjects:
Alginates - metabolism
Alginates - pharmacology
Alginic acid
Ammonia
Animal Feed - analysis
Animals
Biomedical and Life Sciences
Blood
blood serum
Body weight
Calcium
Calcium alginate
Diet
Diet - veterinary
Digestibility
Digestion
Dry matter
Drying ovens
Efficiency
Encapsulation
Feeds
Food intake
gelation
Life Sciences
Male
males
Microencapsulation
Microorganisms
Microparticles
Nitrogen
Nitrogen - metabolism
nitrogen retention
nutrient intake
Nutrient retention
Nutrients
ovens
protein synthesis
Protein turnover
Proteins
Regular Articles
Rumen - metabolism
Sheep
Sulfur
Urea
Urea - metabolism
urea nitrogen
Veterinary Medicine/Veterinary Science
Zoology
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Summary:We conducted two experiments. The first aimed to obtain and characterize microparticles of slow-release urea (SRU) using calcium alginate as the encapsulating agent. The second experiment evaluated their inclusion in sheep diets. In the first experiment, four treatments from a completely randomized design were employed to develop an SRU through the ionic gelification technique testing two drying methods (oven and lyophilizer) and addition or no of sulfur (S): SRU oven-dried with sulfur (MUSO) and without sulfur (MUO), SRU freeze-dried/lyophilized with (MUSL), and without sulfur (MUL). MUO exhibited better yield and encapsulation efficiency among these formulations than the others. Therefore, the second experiment was conducted to compare free urea (U) as control and three proportions (1%, 1.5%, and 2% of total dry matter) of MUO in the diet of sheep. Twenty-four non-castrated male Santa Ines lambs, with an average body weight of 22 ± 3.0 kg, were used and distributed in a completely randomized design with four treatments and six replications. The inclusion of 1% alginate-encapsulated urea (MUO1%) resulted in higher dry matter (DM) intake than free urea ( p  ≤ 0.05). MUO 2% inclusion promoted higher NDF digestibility than U and MUO 1% . MUO 1% showed higher DM than MUO 2% and higher NFC digestibility than U and MUO 2% ( p  ≤ 0.05). Sheep fed MUO 1.5% and MUO 2% exhibited similar nutrient intake and digestibility. Sheep receiving MUO1% had higher N-intake, N-urinary, N-excretion total, N-digested, and N-retained compared to U. Sheep fed MUO 1% showed greater N-retained (as % ingested and digested), microbial protein production, and efficiency when compared to other treatments ( p  ≤ 0.05). MUO 2% addition (SRU) promoted the lowest microbial protein production and efficiency in sheep. MUO dietary inclusion increased feeding time and reduced idleness time compared to U, regardless of the MUO level ( p  ≤ 0.05). Adding MUO 1% improved the intake efficiency of DM and NDF and resulted in more feed boli than the other MUO levels ( p  ≤ 0.05). Sheep receiving U had (4 h after fending) higher NH 3 -N, pH, and blood urea nitrogen (BUN) and lower TGL serum compared to sheep fed MUO ( p  ≤ 0.05), without significant difference among MUO levels ( p  > 0.05), except NH 3 -N was higher in MUO 1.5% and MUO 2% compared to MUO 1.0% . The external ionic gelation technique proved suitable for urea microencapsulation in calcium alginate (3%), demonstrating high quality, efficie
ISSN:0049-4747
1573-7438
DOI:10.1007/s11250-023-03833-8