Alterations of rumen and fecal microbiome in growing beef and dairy steers fed rumen-protected Capsicum oleoresin

The microbiome has been linked to animal health and productivity, and thus, modulating animal microbiomes is becoming of increasing interest. Antimicrobial growth promoters (AGP) were once a common technology used to modulate the microbiome, but regulation and consumer pressure have decreased AGP use in food animals. One alternative to antimicrobial growth promoters are phytotherapeutics, compounds derived from plants. Capsaicin is a compound from the Capsicum genus, which includes chili peppers. Capsaicin has antimicrobial properties and could be used to manipulate the gastrointestinal microbiome of cattle. Both the rumen and fecal microbiomes are essential to cattle health and production, and modulation of either microbiome can affect both cattle health and productivity. We hypothesized that the addition of rumen-protected capsaicin to the diet of cattle would alter the composition of the fecal microbiome, but not the rumen microbiome. To determine the impact of rumen-protected capsaicin in cattle, four Holstein and four Angus steers were fed rumen-protected Capsicum oleoresin at 0 (Control), 5, 10, or 15 mg kg−1 diet dry matter. Cattle were fed in treatment groups in a 4 × 4 Latin Square design with a 21-d adaptation phase and a 7-d sample collection phase. Rumen samples were collected on day 22 at 0-, 2-, 6-, 12-, and 18-h post-feeding, and fecal swabs were collected on the last day of sample collection, day 28, within 1 h of feeding. Sequencing data of the 16s rRNA gene was analyzed using the dada2 pipeline and taxa were assigned using the SILVA database. No differences were observed in alpha diversity among fecal or rumen samples for either breed (P > 0.08) and no difference between groups was detected for either breed in rumen samples or for Angus steers in fecal samples (P > 0.42). There was a difference in beta diversity between treatments in fecal samples of Holstein steers (P < 0.01), however, a pairwise comparison of the treatment groups suggests no difference between treatments after adjusting for multiple comparisons. Therefore, we were unable to observe substantial overall variation in the rumen or fecal microbiomes of steers due to increasing concentrations of rumen-protected capsaicin. We do, however, see a trend toward increased concentrations of capsaicin influencing the fecal microbiome structure of Holstein steers despite this lack of significance.

This is a pre-copyedited, author-produced PDF of an article accepted for publication in Journal of Animal Science following peer review. The version of record [Alterations of rumen and fecal microbiome in growing beef and dairy steers fed rumen-protected Capsicum oleoresin. Journal of Animal Science 102 (2024)] is available online at: https://doi.org/10.1093/jas/skae014.

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Work Title Alterations of rumen and fecal microbiome in growing beef and dairy steers fed rumen-protected Capsicum oleoresin
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Open Access
Creators
  1. Stephanie A. Bierly
  2. Emily P. Van Syoc
  3. Mariana F. Westphalen
  4. Asha M. Miles
  5. Natalia C. Gaeta
  6. Tara L. Felix
  7. Alexander N. Hristov
  8. Erika K. Ganda
Keyword
  1. Angus
  2. Beef production
  3. Capsaicin
  4. Holstein
  5. Microbiome
  6. Steer
License In Copyright (Rights Reserved)
Work Type Article
Publisher
  1. Journal of Animal Science
Publication Date January 16, 2024
Publisher Identifier (DOI)
  1. https://doi.org/10.1093/jas/skae014
Deposited April 26, 2024

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Version 1
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  • Created
  • Added 2023_Bierly_etal_v7.docx
  • Added Creator Stephanie A. Bierly
  • Added Creator Emily P. Van Syoc
  • Added Creator Mariana F. Westphalen
  • Added Creator Asha M. Miles
  • Added Creator Natalia C. Gaeta
  • Added Creator Tara L. Felix
  • Added Creator Alexander N. Hristov
  • Added Creator Erika K. Ganda
  • Published
  • Updated
  • Updated Keyword, Publication Date Show Changes
    Keyword
    • Angus, Beef production, Capsaicin, Holstein, Microbiome, Steer
    Publication Date
    • 2024-01-01
    • 2024-01-16