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Stress, Strain, and Productivity in Relation to Animal Habitat | Animal Husbandry & Veterinary Science Optional for UPSC PDF Download

Impact of Climate on Livestock

1. Causes of Stress

  • Livestock face various stressors such as climate, feed, parasites, and diseases.
  • Adverse climate, particularly hot and humid conditions, is a primary stress factor.

2. Climate's Influence on Livestock

  • Adverse climate affects grazing behavior, feed and water intake, animal growth, and reproductive processes.
  • Production of milk, meat, wool, or eggs is also impacted by climate conditions.

3. Tropical Climate Characteristics

  • The term "tropical" refers to the region between the Tropics of Cancer and Capricorn.
  • Tropical climates vary based on factors like latitude, altitude, land-water distribution, soil, and topography.
  • Despite diversity, common characteristics include small daily and seasonal temperature variations, especially near the equator.

4. Micro-Climates in the Tropics

  • Specific micro-climates exist due to the interaction of factors like ocean currents, winds, rainfall, and vegetation.
  • Climate is a combination of elements, including temperature, humidity, rainfall, air movement, radiative conditions, barometric pressure, and ionization.

5. Key Climate Elements

  • Temperature and rainfall are crucial climate elements affecting livestock.
  • Effective rainfall, representing the amount available to vegetation, is more important than total rainfall in practice.

6. Challenges in Tropical Regions

  • Livestock in tropical regions face challenges like relatively small daily and seasonal temperature variations.
  • Day length remains fairly constant, affecting the total hours of sunshine and solar radiation.

7. Overall Impact on Livestock

  • Livestock health, grazing, feed consumption, and reproductive capabilities are significantly influenced by the prevailing climate.
  • Understanding and managing these climate-related factors is crucial for maintaining healthy and productive livestock.

Grazing Behavior of Cattle and Climate Stress

1. Daytime Grazing Variation

  • Climate significantly affects how long cattle graze during the day.
  • Factors like climate stress, cattle breed, and available pasture impact the duration of daytime grazing.

2. Effect on High-Grade Cattle

  • High-grade Bos taurus cattle in humid tropical climates graze less during the day.
  • They mainly graze in the early morning and late afternoon, adjusting based on climate stress levels.

3. Night Grazing Practices

  • In many tropical areas, indigenous cattle are kept indoors at night, supposedly for protection.
  • However, experts suggest that indigenous cattle should be allowed to graze at night, especially when feed quality is low.

4. Feed Quantity and Quality Impact

  • Limited feed quantity increases total grazing time.
  • Poor feed quality makes cattle more selective in grazing.
  • During sub-optimal conditions, cattle may graze more at night to cope with climate stress.

5. Nomadic Livestock Challenges

  • Observations on grazing behavior are lacking for nomadic cattle in semi-arid tropics.
  • Dry seasons lead to decreased water in forage, increasing the demand for water.
  • Cattle walk longer distances for feed and water, raising their demand and generating heat, depleting water resources.
  • Physiological stress during dry seasons reduces productivity in nomadic or semi-nomadic livestock.

6. Compounding Factors

  • Decreasing water content in forage during the dry season increases the demand for water.
  • Nutrient content in available feed drops as the dry season progresses.
  • Water supplies may become highly mineralized, and ambient temperatures rise, further increasing water requirements.
  • These factors collectively stress nomadic livestock in semi-arid tropics, potentially reducing their productivity significantly.

Question for Stress, Strain, and Productivity in Relation to Animal Habitat
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How does adverse climate affect livestock?
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Intake and Utilization of Feed and Water in Livestock

1. Feed Intake

  • High temperatures affect how much cattle eat; all cattle eat less in hot weather.
  • Bos taurus breeds eat less at lower temperatures compared to Bos indicus breeds.
  • Extremely high temperatures, above 40°C (104°F), lead to a significant decrease in feed intake, especially in Bos taurus-type cattle.

2. Humidity and Feed Intake

  • Increased humidity, above 23.9°C (75°F), reduces feed intake in all cattle.
  • Radiation stress affects feed intake in Bos taurus but not in Bos indicus-type cattle.
  • In a tropical climate, hay intake is lower, though overall nutrient intake remains similar.

3. Water Intake

  • Climate complexity influences water intake in livestock for essential body functions and heat regulation.
  • Water intake generally rises with increasing ambient temperature, but the relationship is not straightforward.
  • For Bos taurus milking cows, water intake increases up to 29.4°C (85°F) and declines beyond due to decreased feed intake and productivity.

4. Humidity's Impact on Water Intake

  • Humidity plays a role; above 23.9°C (75°F), increased humidity reduces water consumption and increases drinking frequency in cattle.
  • Higher radiation intensity increases water consumption, likely due to the animal using more water for cooling under radiation stress.

5. Efficiency of Utilization

  • Controlled conditions show that as ambient temperature rises, feed utilization efficiency decreases.
  • Field conditions may show insignificant differences in utilization efficiency.

6. Nutrient Loss through Sweating and Drooling

  • Sweating and drooling are relevant in cattle, but their significance varies between breeds.
  • As temperatures rise, different breeds of cattle exhibit varying sweating behaviors.
  • Generally, loss of nutrients, especially minerals, through sweating and drooling is not practically significant in livestock.

Impact of Climate on Livestock Growth

1. Appetite and Productivity

  • Climatic stress can reduce appetite, leading to decreased feed intake and grazing time.
  • This is likely to affect livestock productivity, especially in terms of growth and milk production.

2. Limited Experimental Evidence

  • There's limited field experimental evidence on how a tropical climate affects the growth of livestock.
  • The impact of climatic factors on the growth rate of Bos indicus-type cattle is not well-documented.

3. Bos Indicus-Type Cattle Growth

  • Bos indicus calves often have low birth weights and slow growth.
  • It's unclear how much of this slow growth is directly influenced by the climate.

4. Sheep and Goats Growth

  • Information on climate's impact on sheep and goats growth is sparse.
  • High temperatures in the Australian tropics can result in low lambing percentages and small, weak lambs with high mortality.

5. Effect on Piglets

  • Newborn piglets lack efficient temperature regulation and are vulnerable to extreme temperatures.
  • Infra-red lamps are used in temperate countries to prevent chilling in piglets, especially in the first days of life.

6. Pig Growth in Tropical Climate

  • In tropical climates, piglet mortality due to overheating can be reduced by providing additional heat in the early days.
  • Optimal air temperature for maximum pig growth and food conversion efficiency decreases as pigs age.

7. Chick Tolerance to Temperature

  • Chicks are more tolerant to high temperatures than adult birds.
  • Transporting day-old chicks in hot conditions may pose a risk of overheating in thick boxes.

8. Impact on Poultry Growth

  • High ambient temperatures likely reduce the growth rate of poultry.
  • Different breeds react differently, with light breeds better withstanding heat compared to heavy breeds.

Impact of Climate on Milk Production

1. General Effects on Milk Production:

  • High ambient temperatures tend to depress milk, butterfat, and solids-not-fat production in cattle.
  • Experimental evidence often struggles to separate direct and indirect climate effects on production.

2. Fiji-New Zealand Twin Experiment:

  • In a twin experiment comparing temperate and tropical climates, milk production was 44% higher in temperate conditions.
  • Butterfat production showed a 56% increase in the temperate climate.

3. Individual Twin Reactions:

  • Individual twins at the same location reacted differently to the climatic environment.

4. Psychrometric Chamber Studies:

  • Studies in psychrometric chambers provided detailed insights into the impact of climate on milk production.
  • Optimal temperature for milk production in temperate cattle breeds is around 10°C (50°F).
  • Critical temperatures leading to a decline: 21°C to 27°C (70°F to 80°F) for Jersey and Holstein, 29°C to 32°C (85°F to 90°F) for Brown Swiss, higher for tropical-type cattle.
  • Butterfat content declines after 29°C (85°F) due to a steeper decline in milk production than in butterfat percentage.

5. Effects on Milk Constituents:

  • High temperatures affect other milk constituents, causing a rise in chloride content and a fall in lactose and total nitrogen content.

Impact of Climate on Reproduction

1. Major Factors Affecting Reproduction:

  • Key climatic factors affecting reproduction include ambient temperature, humidity, and daylight length.

2. Effect on Cattle Reproduction:

  • High environmental temperatures and sudden temperature fluctuations can directly impact cattle reproduction.
  • High humidity intensifies the impact of high temperatures on reproductive performance.

3. Effects on Sheep Reproduction:

  • Ewes in hot environments may experience embryonic death and foetal dwarfing.
  • Continuous exposure to high air temperatures can eventually kill all embryos.

4. Male Sheep and Goats in Tropics:

  • Males imported from temperate zones to the tropics may be less fertile or even sterile for up to a year, likely due to photoperiodic effects.

Impact of Climate on Poultry and Livestock Feed

Egg Production in Poultry

Optimal Temperature for Egg Production:

  • Poultry's egg production is highest within the thermoneutral temperature range.
  • Constant high temperatures negatively affect laying rate, total eggs laid, egg weight, and shell thickness.
  • Water deprivation worsens these effects, reducing fertility and hatchability of eggs.
  • Light intensity variations do not significantly impact egg production.

Indirect Effects on Livestock

Feed Quantity and Quality:

  • Climatic Factors Limiting Plant Growth:
    • Ambient temperature, effective rainfall, daylight length, and solar radiation influence plant growth.
    • Quality depends on effective rainfall and solar radiation intensity.

Climate Differences in Tropical Regions:

  • Equatorial and Amid Tropics:
    • Forage growth is continuous and rapid, with heavy annual yields possible.
    • High water content in humid tropical forage may affect total feed consumption.
  • Effect on Feed and Water Intake:
    • Forage with high water content in humid climates may impact dry matter intake for ruminant animals.
    • Evidence suggests that water content affects the total quantity of feed consumed.

Effect on Nutrient Content:

  • Nutritious Forage in Wet Season:
    • Experimental evidence shows conflicting results, but in general, forage is more nutritious in the wet season.
    • Positive correlation between rainfall and crude protein, silica-free ash, and nitrogen-free-extract content.
    • Inverse relationship between rainfall and crude fiber content.
  • Challenges in Humid Tropical Forage:
    • Continuous cloudy weather may slow down growth after the initial rainy season flush.
    • Crude fiber content in humid tropical forage is consistently higher than in temperate forage, posing challenges for animals under heat stress.

Overall Impact on Livestock

  • Quantity and Quality of Feed:
    • Climate significantly influences the quantity and quality of available feed for livestock.
    • Other indirect effects include impacts on disease and parasite incidence, as well as storage and handling of animal products.

Question for Stress, Strain, and Productivity in Relation to Animal Habitat
Try yourself:
How does high ambient temperature affect milk production in cattle?
View Solution

Challenges in Semi-Arid and Arid Tropics for Livestock Nutrition

1. Characteristics of Semi-Arid and Arid Regions:

  • Low and highly variable total rainfall in semi-arid and arid regions.
  • Rainy season followed by a long dry period, sometimes interrupted by scattered showers.
  • Droughts can extend dry periods, impacting forage growth.

2. Seasonal Nature of Forage Resources:

  • Ruminant livestock often rely on standing dry forage for a major part of the year.
  • During droughts, they may depend on this type of feed for extended periods.

3. Effect on Feed Intake:

  • Forage in arid and semi-arid tropics has high dry matter content throughout the year.
  • Adequate supplies of forage allow grazing animals to maintain sufficient dry matter intake.
  • Crucial factor is keeping the stocking rate within the carrying capacity of dry season grazings.

4. Effect on Water Intake:

  • Cattle need access to free water at all times, with varying water demands among different breeds.
  • Bos indicus breeds require less free water than B. taurus breeds in the same environment.
  • Water demands of sheep, goats, and camels are lower than those of cattle.
  • Water intake of cattle increases during the dry season, but they can acclimatize to some degree of water deprivation.

5. Water Deprivation and Its Effects:

  • Water deprivation affects water and feed intake, metabolism, and productivity.
  • Cattle restrict dry matter intake when water-deprived, with differences between Bos indicus and B. taurus breeds.
  • Higher ambient temperatures intensify the impact of water deprivation on dry matter intake.
  • Managing cattle to restrict grazing time during water deprivation may further decrease feed intake.
  • Nutritive content of available feed decreases during the advancing dry season, leading to a further decrease in voluntary dry matter intake.
  • Some cattle exhibit better-than-expected performance towards the end of the dry season, likely due to their ability to select high-nutrient parts of the forage plant.

6. Behavior of Water-Deprived Sheep and Camels:

  • Water-deprived sheep and camels also show selective foraging behavior, choosing parts of the forage plant with higher nutritive value.
  • Nitrogen recycling mechanisms may be activated when nitrogen intake is low, helping to maintain body nitrogen levels.
  • Severe water deprivation further reduces nitrogen output, enhancing the value of recycling mechanisms.

7. Short-Term and Long-Term Effects:

  • Short-term effects of water deprivation on cattle's liveweight can be dramatic, primarily due to loss of body water.
  • Long-term effects are less documented, but water deprivation is expected to decrease liveweight gain by reducing feed intake.

Impact on Nutrient Content of Forage

Forage Quality in Arid and Semi-Arid Regions

  • Cattle in arid and semi-arid areas often rely on low-nutrient hay for extended periods.
  • Indigenous forage plants are not inherently nutritious, and forage is typically consumed when mature.
  • Drying out of forage plants increases the stem-to-leaf ratio, further reducing nutrient value.
  • Protein content averages between 2 and 4 percent, with low protein digestibility.

Challenges with Parasites and Diseases

Favorable Breeding Environment

  • High ambient temperatures and humidities create favorable conditions for internal and external parasites, fungi, and disease vectors.

Impact on Parasites and Disease Vectors

  • Internal Parasites:
    • Less significant in semi-arid tropics.
  • External Parasites:
    • Remain important, particularly in semi-arid areas.
    • Importance diminishes in very arid regions.

Indirect Effects on Animal Production

Influence of Vegetation on Disease Vectors:

  • Type of vegetation in a region affects the incidence of disease-carrying insects.
  • Climate has a significant indirect effect on animal production.
  • In regions with high rainfall supporting dense bush growth, teetee-fly incidence can make livestock production challenging or impossible.

Impact on Livestock Management

  • Example of Mauritius:
    • Climatic conditions favoring Stomoxys spp. in Mauritius make outdoor grazing difficult during certain times.
    • Livestock owners must build expensive housing to protect animals from fly swarms.
  • Example of Sudan:
    • Seasonal incidence of biting flies in Sudan greatly influences managerial methods.
    • Livestock management is adapted based on the prevalence of disease-carrying flies.

Question for Stress, Strain, and Productivity in Relation to Animal Habitat
Try yourself:
What is one of the challenges faced in semi-arid and arid regions for livestock nutrition?
View Solution

The document Stress, Strain, and Productivity in Relation to Animal Habitat | Animal Husbandry & Veterinary Science Optional for UPSC is a part of the UPSC Course Animal Husbandry & Veterinary Science Optional for UPSC.
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FAQs on Stress, Strain, and Productivity in Relation to Animal Habitat - Animal Husbandry & Veterinary Science Optional for UPSC

1. What are the impacts of climate on livestock grazing behavior?
Ans. Climate can greatly affect the grazing behavior of livestock. Extreme heat or cold can reduce the time animals spend grazing, as they may seek shade or shelter. Changes in temperature and precipitation patterns can also impact the availability and quality of forage, affecting the grazing behavior of livestock.
2. How does climate stress affect the intake and utilization of feed and water in livestock?
Ans. Climate stress, such as extreme heat, can reduce the intake of feed and water by livestock. High temperatures can decrease appetite, leading to reduced feed intake. Additionally, heat stress can increase water requirements in livestock, resulting in increased water consumption. Failure to meet the increased demand for feed and water can negatively impact livestock health and productivity.
3. What is the impact of climate on livestock growth?
Ans. Climate plays a significant role in livestock growth. Extreme temperatures, whether too hot or too cold, can hinder growth rates in livestock. Heat stress can lead to decreased weight gain, reduced feed efficiency, and impaired immune function. Cold stress can also negatively impact growth by increasing energy requirements for thermoregulation.
4. How does climate affect milk production in livestock?
Ans. Climate can have both direct and indirect effects on milk production in livestock. Extreme heat can decrease milk production due to reduced feed intake and increased metabolic heat production. Heat stress can also affect milk quality, leading to decreased milk fat and protein content. Changes in forage availability and quality due to climate can indirectly impact milk production by affecting the nutritional status of livestock.
5. What are the challenges in semi-arid and arid tropics for livestock nutrition?
Ans. Semi-arid and arid tropics pose several challenges for livestock nutrition. Limited water availability and low-quality forage are common in these regions, making it difficult to meet the nutritional needs of livestock. Drought conditions can further exacerbate these challenges, leading to inadequate feed and water resources. Developing strategies for efficient utilization of available resources and implementing drought management plans are crucial in addressing these challenges.
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