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Heat Stress in Animals: Causes, Treatment and Prevention

Published: July 15, 2019
By: Tean Zaheer / Faculty of Veterinary Science, University of Agriculture, Faisalabad.
Heat stress is a form of hyperthermia (elevated body temperature) in which, the physiological systems of the body fail to regulate the body temperature within a normal range. Heat stress in animals is considered to be violation of animal welfare and rights. It may not be due to elevated environmental temperature as the only culprit, but it may be due to a combined effect of environmental temperature and relative humidity. The aftermath of heat stroke may lead to severe damages in terms of general health, immunity and productivity of farm animals e.g. poultry, dairy and meat animals; pets e.g. dogs, cats, exotic birds, psittacine, rabbits etc. and work animals e.g. equines, camels, draught animals, etc.
Causes of Heat Stress
Animals may be prone to heat stress due to higher environmental Temperature-Humidity Index (THI), solar radiation and lower wind speed in summer season. Heat exhaustion may be attributed to several etiologies occurring singly or in multifactorial forms. Environmental factors like:
(i) Recent rainfall and subsequent rise in humidity leading to decreased sweating and breathing for heat dissipation.
(ii) A high ongoing minimum and maximum circulating temperature and or high environmental humidity.
(iii) A high solar radiation level due to absence of natural cloud cover may predispose animals to heat stroke.
(iv) Extended period (> 5 days) having minimal air circulation leading to consistently harsh environment.
(v) Warm cloudy nights might also increase the risk of heat stroke as the animals dissipate the heat energy during night.
(vi) A sudden shift to adverse climatic conditions might also predispose animals to heat stress.
(vii) Husbandry practices and farm layout may sometimes facilitate the onset of heat stress in animals.
Some characteristics of animals might put the individual to a greater risk of heat stroke. Following attributes might be responsible for higher incidence of heat stroke in conjunction with some environmental factors:
(i) Breed: Indigenous breeds (Bos indicus e.g. Sahiwal) are more heat tolerant than exotic breeds (Bos Taurus e.g. Ayrshire). Similarly, Brachycephalic anatomy (flat-faced breeds) such as Pugs, English bulldogs, French bulldogs, Persian and Himalayan cats are among other breeds which are not heat tolerant.
(ii) Genetic variation: Variations attributable to the phenotypes of individual animal breeds.
(iii) Coat color and type: Animals with lighter coat color (e.g. cattle vs buffalo) tend to be more tolerant of heat. Animals having coarse hair type as coat may be more prone to heat stress (e.g. sheep vs goat).
(iv) Body condition: Obese and emaciated animals tend to be more susceptible to heat stroke.
(v) Age: Animals that are recently weaned or aged animals are more prone to heat stress.
(vi) Adaptation: Indigenous animals might adapt to local climatic conditions, provided the temperature change is gradual.
(vii) Disease: Animals having ailment of any etiology might not be able to adapt to changes in the weather.
(viii) Physiological State: Lactating animals or peri-parturient animals might be at higher risks of getting affected by temperature or humidity rise due to their hormonal profiles.
(ix) Vector Density: Some flies and mosquitoes might cause nuisance to animals, leading to overcrowding/ huddling towards vector free areas.
Symptoms of Heat Stress
Increased breathing, heart and sweating rates may be recorded. Initially, symptoms like increased panting, hypersalivation, gastrointestinal problems (vomiting, diarrhea) might be noticeable. Behavioral changes like seeking shade, crowding towards shady areas, orientation avoiding contact with solar radiation, standing in or next to water source might be observed in animals having onset of heat stroke. Productivity parameters like milk production, egg production, weight gain, FCR (feed conversion rate), milk and meat composition (decline in protein and fat contents) might show abrupt changes in heat stressed animals. Drop in routine feed consumption and sudden increase in water intake might signal the onset of heat stress. The later stages of heat stressed animals might exhibit symptoms like dry and hyper congested mucosal surfaces (epistaxis might be seen in cats), listlessness/lethargy, staggered gait, general weakness and electrolyte loss from the body. Neurological symptoms might include irritability, delusions, hallucinations, seizures and coma.
Treatment of Heat Stress
Heat stress might cause serious damage to muscles/ internal organs of affected animals, indicating the need for emergency medical care. Animals should be made to move away from direct sunlight to cool area. The continuous application of cool water therapy is highly indicated to manage a heat stressed animal. Treatment goal is to manage the hyperthermia, provide cardiovascular support and to prevent complications associated with hyperthermia. Fluid, electrolyte and Vitamin C therapy could be applied to counteract the ill effects of heat stroke especially in farm animals e.g poultry. The intravenous (i/v) corticosteroid therapy may help reduce myocardial stress. Anti-microbial therapy may be indicated to reduce chances of secondary infection
Prevention of Heat Stress
The incidence of heat stress in animals might be reduced largely if there is a beforehand management of cases. The following approaches might be helpful in preventing heat stroke cases in dairy, meat, working, pets and zoo animals:
  • Ensure the plenty of fresh, clean water 24/7. Place water in a shady area to prevent evaporative loss. In extreme summer situations, the supply of cold water may be necessary.
  • Avoid physical exercise on part of the animal during the hottest hours of the day, especially in the summer months. Try to utilize early morning and evening hours in case of draught animals.
  • The rain may cause a sharp rise in humidity and it should be kept in mind that humid days can often be just as bad or worse than very hot sunny days.
  • If animals are supposed to work for longer period of time, ensure rest and drink water on regular intervals.
  • Animals that are being transported for sale/ purchase/ slaughter/ competition must have plenty of water available for drinking. Apart from this, it may be suggested to add some vitamin/mineral complexes as animals might voluntarily reduce the feed intakes during long travels.
  • Animals kept outdoors must have adequate shade to shelter from the sun during summers.
  • At farm levels, ketotic, mastitis or milk fever affected animals must be infused with electrolytes (Intravenously) to prevent the onset of heat stress/ hyperthermia.
  • Never leave your pet unattended in a car. Cars heat up very quickly and are the most common cause of heatstroke. Even if you open the windows it does little to slow the overheating process. Pet’s do not sweat rather they evaporate heat by panting. Panting requires large amounts of air to move heat away from your pet and when the heat is trapped in the car, they can literally overheat and die within minutes.
  • Allow the animals to wander around so they can pick a cool spot during the day.
  • Dietary plans may be changed in case of farmed animals (like cattle, buffalo, equines, poultry, etc. to ensure that maximum possible water content is present in the fodder/ feed of animals.
  • Management of heat stress on the part of building and infrastructure is very crucial. The principle of construction should allow maximum air flow throughout the farm avoiding direct exposure to solar radiation during day time.
  • Some people suggest the use of insulation material on commercial farming scale to prevent the sudden rise of in-house temperature.
  • Devices monitoring the thermal-humidity index, air velocity might be used at farm level to minimize the chances of heat stroke incidence in animals.
  • Apart from having the adequate shades/shelters on farm, the use of fans, sprinklers, misters, foggers and coolers might be helpful in preventing the higher incidence of heat stroke animals in hot and humid months of the year.
Conclusion
It is impossible to control the environmental variations in temperature, humidity and wind circulation to counter heat stroke cases in open areas. Therefore, the cases might be reduced by appropriate farm layout, close monitoring, adopting appropriate preventive measures, adequate management and planning before the onset of environmental temperature and humidity rise.
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Authors:
Tean Zaheer
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