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May 22, 2020

Live yeast helps maintain dairy cow performance, feeding behavior and rumen health during periods of heat stress

May 22, 2020

how live yeast helps reduce heat stress in dairy cows

A recent study published in the Journal of Dairy Science by the team of Professor José E.P. Santos from the University of Florida (Perdomo et al., 2020) indicates that the rumen specific yeast Saccharomyces cerevisiae CNCM I-1077 (LEVUCELL SC) helps alleviate the negative effects of heat stress on feed efficiency in dairy cows. Researchers credit the positive effects on the ability of S. cerevisiae CNCM I-1077 to impact rumen pH and feeding behavior.

Heat stress impacts rumen function and feeding behavior

One of the many challenges of dairy production under hot and humid climates is decreased milk yields when cows are exposed to heat stress. Heat stress also represents challenges for the rumen, leading to increased risk of Sub Acute Ruminal Acidosis (SARA). The compilation of more than 500 rumen efficiency audits (see boxed text) indicates that in farm settings across many regions and farming systems under heat stress conditions, 60% of farms present suboptimal rumen efficiency. Indicators linked to feeding behavior are affected by heat stress, in particular rumination activity.

Nutritional strategies to preserve dairy performance under heat stress should focus on supporting nutrient utilization by optimizing diet digestion while preserving rumen function. In this context, the rumen specific yeast S. cerevisiae CNCM I-1077 — demonstrated to improve both nutrient digestion and rumen efficiency — has already been shown to effectively alleviate the toll of heat stress on dairy production and improve rumination behavior (Fustini et al, 2013). The recent study by Perdomo et al. (2020) further demonstrates the benefits of the live yeast on rumen fermentation profiles and feeding behavior, two parameters that are intimately linked. This is translated into better feed efficiency.

Improved rumen efficiency and feeding behavior under stressful conditions

The trial was conducted on lactating Holstein cows fed 40% corn silage, 10% alfalfa hay and concentrate, including 240g/head/day of sodium bicarbonate. The average daily temperature-humidity index (THI) during the trial was 81 and the lowest point was 75, which is still equivalent to high heat stress conditions.

The cows received either no supplement (Control) or S. cerevisiae CNCM I-1077 at the recommended dose for stressful conditions, 20X109 CFU/cow/day (LEVUCELL SC).

The live yeast supplement led to improved feeding behavior:

  • Increased chewing activity (Figure 1)
  • Improved rumination behavior with reduced time between rumination bouts

Effect of live yeast supplementation on dairy cows average chewing time (P<0.10) ( adapted from Perdomo et al., 2020, results of one supplementation regimen among two different doses tested)

Overall, the longer time spent chewing and ruminating had a positive impact on rumen function and helps maintain rumen health.

Chewing and ruminating can contribute to increased saliva production, hence the higher buffer effect, as translated into improved rumen pH (+0.34 pH units on average with the live yeast) and reduced risks of SARA (Figure 2).

This is also confirmed by reduced levels of the inflammation biomarker in the blood, Amyloid A.

Effect of live yeast supplementation on the percentage of dairy cows with rumen pH below 5.8 (SARA risk) (P<0.05) (adapted from Perdomo et al., 2020, results of one supplementation regimen among two different doses tested)

 

Higher feed efficiency under heat stress and a 5:1 ROI

As a result, dairy performance was improved with the supplementation of LEVUCELL SC without impairing milk solids (no dilution effect):

  • Feed efficiency is improved by 7.6% (+130g energy-corrected milk/Kg DMI) (Figure 3)
  • Energy-corrected milk is improved by 2 Kg cow/day

Effect of live yeast supplementation on dairy cow feed efficiency (P<0.05) (adapted from Perdomo et al., 2020, results of one supplementation regimen among two different doses tested)

 

The authors of the study explained that “improvement in feed efficiency is likely related to improved digestion of fiber, protein, and dry matter, perhaps because of direct effects of the live yeast on rumen microbial metabolism that favored a more stable ruminal environment. The changes in feeding behavior with reduced eating rate and increased chewing time per unit of DM and NDF consumed should also favor optimized digestion with reduced acidosis.”

 

aurelien piron technical manager ruminant for Lallemand animal nutritionAurélien Piron, Technical Manager – Ruminants for Lallemand Animal Nutrition concluded: “This study by University of Florida confirms previous trials showing that under challenging conditions our rumen specific live yeast improves rumen conditions and feeding behavior (Bach et al., 2007; DeVries and Chevaux, 2014). Here, the scientists went further than looking at performance only and looked at blood biomarkers and ruminal fermentation profiles. These show that S. cerevisiae CNCM I-1077 increases feed digestibility through higher fiber degradation (total tract NDF), which results in higher nutrients and energy extraction from the diet. Benefits for the producers are two-fold: reduced SARA risk and higher ROI due to the improved milk yield. We calculated a 5:1 ROI and recommend using this stress-specific dosage during challenging times.”

What are rumen efficiency audits?

Rumination behavior results during heat stress

The Rumen Efficiency Investigation (REI) audit is a holistic approach based on the assessment of a set of measurable indicators at farm level. There are nine indicators in total — selected by integrating bibliography reviews, practical dairy farms surveys, and international expert views — and validated in the field.

Some indicators are particularly well correlated with heat stress, such as milk solids, rumination, and SCC in milk.

REFERENCES
Bach A., C. Iglesias, M. Devant, and N. Ràfols. 2007. Daily rumen pH pattern of loose-housed dairy cattle as affected by feeding pattern and live yeast supplementation. J. Anim. Feed Sci. Technol. 136: 146-153
DeVries T. J. and Chevaux E.. 2014. Modification of the feeding behavior of dairy cows through live yeast supplementation. J. Dairy Sci. 97: 6499–6510
Fustini M., A. Palmonari, H. Durand, A. Formigoni, and E. Grilli. 2013. Effect of Saccharomyces cerevisiae CNCM I-1077 (LEVUCELL SC) on rumen pH and milk production during heat stress. J. Anim. Sci. 91 (S2)/J. Dairy Sci. 96 (S1)
Perdomo, M.C. et al. 2020. Effects of feeding live yeast at 2 dosages on performance and feeding behavior of dairy cows under heat stress. J. Dairy Sci., Vol. 103 (1) 325 – 339