Abstract

Simple SummaryHot weather is associated with reduced milk yield of dairy cows. Supplementing the diet of lactating cows with ingredients that increase dietary energy density or that reduce internal heat production, may reduce some of the negative impacts of hot weather on milk yield. We used controlled-climate chambers to simulate a short hot-weather event and measured changes in milk yield, feed intake, and body temperature of cows fed either a fat supplement, betaine or a combination of both. Feeding cows fat resulted in improved milk production but also increased body temperature and caused a decrease in feed intake. Feeding betaine did not affect milk yield but did reduce cow body temperature at times. Contrary to our expectations, the combination of fat and betaine supplements did not result in a clear benefit in terms of milk production or body temperature. Further work is warranted to understand the interactions between dietary fat type and betaine supplements when offered to cows during periods of hot weather.Supplementing the diet of lactating cows with ingredients that increase energy density, or reduce internal heat production, may reduce some of the negative impacts of hot weather on milk yield. Thirty-two dairy cows were assigned either: (1) basal diet only, (2) basal diet plus canola oil, (3) basal diet plus betaine, or (4) basal diet plus canola oil and betaine. The basal diet was lucerne hay, pasture silage, and grain. Cows were exposed to a four-day heat challenge (temperature-humidity index 74 to 84) in controlled-environment chambers. Canola oil supplementation increased milk production (22.0 vs. 18.7 kg/d) across all periods of our experiment and increased body temperature (39.6 vs. 39.0 °C) during the heat challenge. Betaine supplementation reduced maximum body temperature during the pre-challenge period (39.2 vs. 39.6 °C) but not during the heat challenge (40.3 °C). Cows fed canola oil had greater declines in dry matter intake (5.4 vs 2.7 kg DM) and energy corrected milk (1.3 vs. 1.0 kg) from the pre-challenge to the heat challenge than other cows. Contrary to our expectations, the combination of fat and betaine supplements did not result in a clear benefit in terms of milk production or body temperature. Further work is warranted to understand the interactions between diet and hot weather.

Highlights

  • High ambient temperature and humidity can result in both short- and long-term effects on the milk production, reproduction and health of dairy cattle [1,2,3]

  • Hot weather causes a reduction in milk yield, with up to 50% of this reduction attributed to reduced dry matter intake (DMI) [6,7]

  • Cows subjected to a heat challenge had decreased DMI and milk production with a concomitant increase in vaginal temperature

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Summary

Introduction

High ambient temperature and humidity can result in both short- and long-term effects on the milk production, reproduction and health of dairy cattle [1,2,3]. This is important for the dairy industry given the intensity, frequency and duration of heat waves are forecast to increase [4]. Highproducing cows are more susceptible to hot weather than low-producing cows due to greater internal heat production resulting from the digestion and metabolism of large amounts of feed eaten [3]. Fat has a lower heat increment—the heat produced as a result of its digestion and metabolism [3,8]

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