HEAT STRESS
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Selko HealthyLife | Health and Fertility

HEAT STRESS

Systemic inflammation as a result of heat stress reduces performance of dairy cows.

Managing heat stress to maintain dairy performance during the summer

Rising feed costs and the cost of producing forage are presenting a major challenge to dairy farmers. Improving feed efficiency is therefore crucial to ensure dairy farm profitability. Heat stress is becoming more common. It results in a reduction of dry matter intake in combination with systemic inflammation as a result of “leaky gut”1. Trials including pair fed animals have shown that 50% of the drop in milk production of dairy cows is related to the reduction of dry matter intake, whereas the remaining 50% is the result of systemic inflammation (see Figure 1).

Figure 1, 1. Thermal Neutral Well-fed. | 2. Heat Stress. | 3. Pair-fed.
Changes of the gut wall in animals under heat stress compared to animals in thermal neutral conditions and animals pair fed the same amount of feed as the animals under heat stress.

Systemic inflammation in dairy cows as a result of heat stress

One of the consequences of heat stress is loss of barrier function in the hindgut, leading to a phenomenon called "leaky gut". In dairy cows with leaky gut, bacterial toxins enter the blood circulation, resulting in systemic inflammation. This diverts energy away from milk production leading to reduced yields and higher costs per litre.

An inflammatory response can use up to 1 kilogram of glucose in a 12-hour period. Next to that, systemic inflammation as a result of leaky gut in dairy cows results in a reduction of appetite and dry matter intake. The combination of a reduced dry matter intake and glucose being used for an inflammatory response causes a considerable drop in milk production.

Rumen acidosis and heat stress cause a drop in butterfat production of dairy cows

During the spring and summer, there are two reasons that milk fat production drops. The first reason is the high acid load on the rumen resulting from high sugar levels and low fibre levels of spring grass. The second reason is heat stress. Heat stress is one of the primary causes of leaky gut. As temperatures rises, water moves out of cells in the gut lining, causing the tight junctions that hold them together to weaken. As these junctions are loosened, the severity of leaky gut is increased. On top of this, cows reduce dry matter intake to try to control their body temperature by reducing rumen fermentation, which is a major source of internal heat. Reducing DMI also results in changes in gut wall structure, which also contributes to leaky gut and a systemic inflammatory response. With the rumen being less full, the buffering capacity drops, and the rumen becomes more acidic, which leads to a further reduction of butterfat production.

Strategies to reduce the incidence of leaky gut and inflammation will help improve the performance of dairy cows. This can be achieved by modifying the fermentation in the hindgut, in particular by increasing the supply of butyrate at hindgut level. Butyrate is one of the essential volatile fatty acids (VFA's), produced during fermentation in both the rumen and the hindgut. It is an important source of energy supply for the dairy cow. It also has an important role in maintaining the integrity of the intestinal barrier and reducing inflammation, helping repair the effects of leaky gut.

Figure 2: fat and protein levels in milk of cows treated with Selko LactiBute during the summer of 2021 compared to fat and protein levels in the summer of 2020, during which period they were not treated with Selko LactiBute.

Mitigate the effects of leaky gut and systemic inflamation in dairy cows that suffer from heat stress with Selko LactiBute.

Selko Lactibute contains calcium gluconate which promotes the conversion of lactic acid to butyrate in the hindgut. This shift towards butyrate production specifically in the small intestine helps strengthen the gut barrier, reduces inflammation and reduces nutrient loss2,3,4,5,6,7. Selko Lactibute also results in an increase of bacteria utilising short chain fatty acids in the hindgut. The increase in this bacterial population causes the cow to use dietary fat and fat from body reserves a lot more efficiently, resulting in an increase of milk and butterfat production8,9,10,11.

Minimising the effects of heat stress on cows is of utmost importance if farmers want to maximise feed efficiency of dairy cows during periods of heat stress. Reducing the drop in dry matter intake is vital but farmers also need to consider the other 50% of milk losses coming from poor hindgut health. Treatment with Selko LactiBute can help to mitigate the effects of leaky gut and systemic inflammation in dairy cows suffering from heat stress (see Figure 2).

A meta-analysis of 7 trials carried out with Selko LactiBute showed an increase in production of milk fat of 36 g/day (p<0.01), with a 95% confidence interval of 21-50 g/day.

References

  1. Koch, F, Thom, U, Albrecht, E, Wekard, R, Nolte, W, Kuhla, B. and C. Kuehn (2019). Heat stress directly impairs gut integrity and recruits distinct immune cell populations into the bovine intestine. Proc. Natl. Acad Sci. USA. May 21;116(21):10333-10338.
  2. Sanz-Fernandez, M.V, Daniel, J, Seymour, D.J, Kvidera, S.K, Bester, Z, Doelman, J. and J. Martín-Tereso (2020). Targeting the Hindgut to Improve Health and Performance in Cattle, Animals, 10: 1817.
  3. Watanabe, D.H.M, Doelman, J, Steele, M.A, Guan, L. and G. B. Penner (2020). Evaluating the effect of Ca-gluconate and Ca-butyrate on SCFA absorption and permeability of the gastrointestinal tract. J. Anim. Sci Vol. 97, Suppl. S3.
  4. McKnight, L.L, Doelman, J, Carson, M, Waterman, D.F. and J. A. Metcalf (2018). Feeding and postruminal infusion of calcium gluconate to lactating dairy cows. Can. J. Anim. Sci.
  5. Doelman, J, McKnight, L.L, Carson, M, Nichols, K, Waterman, D.F. and J. A. Metcalf (2019). Post-ruminal infusion of calcium gluconate increases milk fat production and alters fecal volatile fatty acid profile in lactating dairy cows. J. Dairy Sci. 102:1274–1280.
  6. Watanabe, D.H.M, Doelman, J, Steele, M.A, and G. B. Penner (2018). Effect of rumen protected Ca-gluconate on the performance, gastrointestinal tract development, digesta composition and total tract digestibility of lambs. J. Anim. Sci Vol. 96, Suppl. S3.
  7. Watanabe, D.H.M, Doelman, J. and G. B. Penner (2020) The effect of intestinal Ca-gluconate and Ca-butyrate on ruminal short-chain fatty acid (SCFA) absorption and SCFA concentrations in the gastrointestinal tract of heifers. WDCS conference, March 10-13.
  8. Seymour, D, J, Daniel, J.B, Martín-Tereso, J. and J. Doelman (2020). Effect of fat-embedded calcium gluconate on lactation performance and metabolism in dairy cattle. J. Dairy Sci, 103, S1.
  9. Seymour, D.J, Carson, M, Daniel, J.B, Sanz, M.V, Martín-Tereso, J. and J. Doelman (2020). Effect of fat-embedded calcium gluconate on lactation performance in high-yielding multiparous dairy cows in a commercial dairy setting. ASAS conference, July 19-23.
  10. Seymour, D.J, Daniel, J.B, Sanz, M.V, Martín-Tereso, J. and J. Doelman (2020). Efficacy of fat-embedded calcium gluconate on lactation performance in dairy cattle. ASAS conference, July 19-23.
  11. Seymour, D.J, Sanz-Fernandez, M.V, Daniel, J.B, Martín-Tereso, J. and J. Doelman (2021). Effects of supplemental calcium gluconate embedded in a hydrogenated fat matrix on lactation, digestive, and metabolic variables in dairy cattle. J. Dairy Sci. 104:7845–7855.

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You can access all of our documentation about HealthyLife protocols, sustainable dairy farming and latest research insights about Dairy Cow health & fertility.

Learn more about the holistic approach of managing heat stress

Heat stress in dairy cows can result in systemic immune activation. It is a misconception to think heat stress with dairy cows only occurs in arid or tropical regions of the world. Dairy cows in areas with more temperate climates can also experience heat stress during the hottest and most humid times of the year. Heat stress can have several consequences that create a substantial loss of production.

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