Effects of direct-fed microbial supplementation on digestibility and fermentation end-products in horses fed low- and high-starch concentrates.
Abstract: A study was conducted to determine whether direct-fed microbials (DFM) could be used to increase digestibility and minimize the risk of acidosis associated with feeding an increase in the amount of starch fed to horses. Fifteen mature Thoroughbred geldings were randomly assigned to 1 of 3 treatments in a 3 x 3 Latin square design balanced for carryover effects. Within each 26-d period, horses were offered grass hay + low-starch concentrate (LS; 1.2 g of starch x kg of BW(-1) x meal(-1)) from d 1 to 13 and then were abruptly changed to hay + high-starch concentrate (HS; 2.4 g of starch.kg of BW(-1)x meal(-1)) on d 14 continuing through d 26. The DFM treatments were offered in concentrate pellets at a target dosage of 10(8) cfu/(50 kg of BW x d) as follows: no DFM (CON; control), Lactobacillus acidophilus (LAC1; single-species DFM), or a mixture of L. acidophilus, Lactobacillus casei, Bifidobacterium bifidum, and Enterococcus faecium (LAC4; multiple-species DFM). Total feces were collected over 72 h from d 11 to 13 (LS; low dietary starch collection), from d 15 to 17 (AC; abrupt change in dietary starch collection), and at the end of each experimental period, from d 24 to 26 (HS; high dietary starch collection). Data collected consisted of total DM intake and fecal output, fecal pH, fecal acetate and propionate concentrations, and viable numbers of DFM in the feed. With the exception of Fe digestibility, there were no starch x DFM interactions. There was an effect of starch level (P 0.10). Horses supplemented with LAC4 had increased ether extract (P < 0.05) and a tendency for decreased Na (P < 0.10) digestibilities compared with CON horses. All DFM-supplemented horses had increased Cu (P < 0.05) and Fe and numerically increased Zn digestibilities compared with CON horses. Fecal pH decreased (P < 0.05), and fecal propionate concentration increased (P < 0.05) as dietary starch content changed from LS to HS. There was a tendency for elevated fecal pH (P < 0.10) in LAC1 horses compared with CON horses. These results confirm that increasing starch in the equine diet can enhance nutrient digestibility of the diet. Supplementing equine diets with either a single or mixed strain direct-fed lactic acid bacteria had limited effects on nutrient digestibility or on reducing the risk of acidosis associated with feeding high-starch concentrates to horses. The potential response of DFM supplementation should be evaluated when a more acute acidotic state is induced in horses than in the current study.
Publication Date: 2008-04-11 PubMed ID: 18407981DOI: 10.2527/jas.2007-0608Google Scholar: Lookup
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- Journal Article
- Randomized Controlled Trial
Summary
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This research looked at the effects of direct-fed microbials (DFM) on the digestibility and fermentation byproducts in horses. They tested whether DFM would enhance nutrient absorption and decrease potential acidosis complications when the horses’ diet was high in starch. The results showed limited success, suggesting further study is needed.
Experimental Design and Protocols
- 15 mature horses were randomized into three groups, each group received a different treatment. This was facilitated by a Latin square design, which reduces bias and controls for variance.
- For 13 days, horses were fed grass hay with a low-starch concentrate. It was then switched abruptly to a high-starch concentrate diet for the remaining 13 days.
- The DFM treatments were given via concentrate pellets. Three treatments were prepared: no DFM (control group), a single-species DFM, and a multi-species DFM.
- Data measurements involved total dry matter (DM) intake and fecal output, fecal pH levels, acetate and propionate concentrations in the feces, and the count of viable DFM in the feed.
Results and Findings
- No interactions between starch levels and DFM were found, except in the case of iron (Fe) digestibility.
- Horses that were given the multi-species DFM supplement saw increased ether extract (a measure of fat content), suggesting better absorption of fat-soluble nutrients but saw reduced sodium absorption.
- All DFM-supplemented horses had increased absorption of copper, iron, and zinc compared with those not receiving DFM (control group).
- The pH in the feces decreased as starch content increased, which correlates to increased concentrations of propionate (a short-chain fatty acid).
- No significant effect on reducing the risk of acidosis was observed with the use of DFM, a concern when feeding high-starch concentrates to horses.
Conclusions and Future Suggestions
- The increase in starch levels in the equine diet does enhance nutrient digestibility (i.e., the horse’s ability to extract nutrients from its food).
- Supplementing horse diets with either a single or mixed-strain direct-fed lactic acid bacteria showed limited effects on nutrient digestibility or on reducing the risk of acidosis associated with feeding high-starch concentrates.
- Recommendations for future research are to evaluate the effects of DFM supplementation when a more acute acidotic state is induced in horses than in the conducted study.
Cite This Article
APA
Swyers KL, Burk AO, Hartsock TG, Ungerfeld EM, Shelton JL.
(2008).
Effects of direct-fed microbial supplementation on digestibility and fermentation end-products in horses fed low- and high-starch concentrates.
J Anim Sci, 86(10), 2596-2608.
https://doi.org/10.2527/jas.2007-0608 Publication
Researcher Affiliations
- University of Maryland, College Park 20742, USA.
MeSH Terms
- Animal Feed / analysis
- Animal Nutritional Physiological Phenomena
- Animals
- Bifidobacterium
- Diet / veterinary
- Dietary Supplements
- Digestion / drug effects
- Enterococcus faecium
- Feces / microbiology
- Fermentation
- Horses / microbiology
- Horses / physiology
- Lactobacillus
- Male
- Probiotics
- Starch / analysis
- Starch / metabolism
Citations
This article has been cited 13 times.- Lagounova M, MacNicol JL, Weese JS, Pearson W. The Effect of Dietary Synbiotics in Actively Racing Standardbred Horses Receiving Trimethoprim/Sulfadiazine.. Animals (Basel) 2023 Jul 18;13(14).
- Quiñones-Pérez C, Hidalgo M, Ortiz I, Crespo F, Vega-Pla JL. Characterization of the seminal bacterial microbiome of healthy, fertile stallions using next-generation sequencing.. Anim Reprod 2021;18(2):e20200052.
- Collinet A, Grimm P, Julliand S, Julliand V. Sequential Modulation of the Equine Fecal Microbiota and Fibrolytic Capacity Following Two Consecutive Abrupt Dietary Changes and Bacterial Supplementation.. Animals (Basel) 2021 Apr 29;11(5).
- Much ML, Leatherwood JL, Zoller JL, Bradbery AN, Martinez RE, Keegan AD, Lamprecht ED, Wickersham TA. Influence of diet fortification on body composition and apparent digestion in mature horses consuming a low-quality forage.. Transl Anim Sci 2020 Jan;4(1):1-9.
- Johnson ACB, Rossow HA. Effects of two equine digestive aid supplements on hindgut health.. Transl Anim Sci 2019 Jan;3(1):340-349.
- Sun HY, Kim KP, Bae CH, Choi AJ, Paik HD, Kim IH. Evaluation of Weissella Cibaria JW15 Probiotic Derived from Fermented Korean Vegetable Product Supplementation in Diet on Performance Characteristics in Adult Beagle Dog.. Animals (Basel) 2019 Aug 20;9(8).
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- Harlow BE, Lawrence LM, Harris PA, Aiken GE, Flythe MD. Exogenous lactobacilli mitigate microbial changes associated with grain fermentation (corn, oats, and wheat) by equine fecal microflora ex vivo.. PLoS One 2017;12(3):e0174059.
- Suagee JK, Corl BA, Geor RJ. A Potential Role for Pro-Inflammatory Cytokines in the Development of Insulin Resistance in Horses.. Animals (Basel) 2012 May 2;2(2):243-60.
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- Ishizaka S, Matsuda A, Amagai Y, Oida K, Jang H, Ueda Y, Takai M, Tanaka A, Matsuda H. Oral administration of fermented probiotics improves the condition of feces in adult horses.. J Equine Sci 2014;25(4):65-72.
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