The effects of including sprouted barley with alfalfa hay in the diet on ruminal health and performance of cow-calf pairs.
Zachary Cal CrumpAnthony Fernando AlbertoBailee Lynn BrownBryce Wayne RoholtLillian Lelehua OkamotoMia Lynn SegoRyan Arthur SpurlingRobert Edward WardBrady Morris BlackettRobert Lynn HardingSanjeewa Dilshan RanathungaKara Jean ThorntonPublished in: Journal of animal science (2024)
The world population is growing exponentially, increasing demand to produce high-quality protein for human consumption. Changes in weather patterns, drought, and decreased land resources due to urbanization have increased the strain on the agriculture sector to meet world demands. An alternative method to combat these issues and continue to produce high-quality livestock feed would be through a controlled environment vertical farming system. Commonly, cereal grains, such as barley, are used in these systems to produce livestock feed. However, there is little information on the viability of feeding sprouted grains to beef cattle. Two diets of either feeder-quality alfalfa hay (n = 10 pairs; ALF) or the same alfalfa hay and sprouted barley (SB; 12.6% dry matter [DM]; n = 10 pairs) were fed for 90 d to Angus pairs with a steer calf during mid to late lactation. On days 0 and 90, body weight (BW), milk, rumen fluid, and body condition score were collected from cows and hip height and BW were recorded for calves. On day 10, BW was recorded for cows and calves and rumen fluid was collected from cows. Rumen fluid was also collected from cows on day 45. On day 55, BW was collected for both cows and calves and milk from cows. Intake was recorded throughout the trial via bunks with Vytelle technology. The PROC MIXED procedure of SAS was used to analyze all data with the day as a repeated measure to determine the main effect of diet. Individual volatile fatty acids (VFA) were measured as a percent of total VFA. No differences (P ≥ 0.16) were observed in calf BW, hip height, milk protein, fat, lactose, calf DM intake (DMI), or cow DMI. Cows fed SB tended (P = 0.08) to have a decreased somatic cell count compared to ALF. Percent butyrate was impacted by diet × day (P = 0.02), but no difference (P > 0.09) at any time points were detected. Additionally, a diet × day effect (P = 0.001) on rumen pH demonstrated that both groups stayed consistent until day 45 and then SB pH decreased the last 45 d. There was a day effect for total VFA (P = 0.0009), acetate:propionate (Ac:Pr; P < 0.0001), acetate (P < 0.0001), and propionate (P < 0.0001) demonstrating that total VFA, acetate, and Ac:Pr all increased throughout the trial, while propionate decreased. These results indicate that SB can be a potential alternative feed at this stage of production as it does not negatively impact health or production, but does affect the rumen pH and proportion of some VFA.
Keyphrases
- weight loss
- physical activity
- body weight
- climate change
- healthcare
- public health
- fatty acid
- body mass index
- mental health
- clinical trial
- health information
- study protocol
- gene expression
- amino acid
- small molecule
- dairy cows
- type diabetes
- protein protein
- dna methylation
- electronic health record
- cell therapy
- metabolic syndrome
- risk assessment
- binding protein
- mass spectrometry
- genome wide
- total hip arthroplasty
- minimally invasive
- big data
- preterm infants
- artificial intelligence
- health promotion
- data analysis