🐄Heifer, Pregnant Cow, and Lactating Animal Management

The story of a dairy animal’s productive life continues well beyond the calf stage. A heifer is the productive pipeline — how she is reared and when she first calves determines her lifetime output. Once she conceives, pregnancy management determines successful calving. Lactation management then determines how fully her genetic milk potential is expressed. This lesson covers three closely linked stages in sequence: heifer → pregnant cow → lactating cow, each stage building directly on the previous.

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Care and Management of Heifers

A heifer is a young female bovine that has not yet calved. Proper management is critical because heifers are the future breeding stock of the dairy herd — underfeeding or breeding too early permanently limits their lifetime productivity.

Housing and Environmental Protection

• Reared indoors or outdoors (outdoors for 9–12 months)
• Outdoors: protect from rain, hot sun, snow, heavy winds, biting flies, and parasitic infestation
• Exotic breeds (Holstein Friesian, Jersey) perform poorly in tropical outdoor conditions — heat and humidity reduce growth rate and delay puberty

Age and Weight at First Breeding

Body weight matters more than age at first breeding. An undersized heifer has an incompletely developed pelvic canal — breeding her before she reaches target weight causes dystocia (difficult calving), risking both the calf and dam. It also stunts the heifer’s own growth.

• Crossbred heifers may show heat as early as 10 months — but must NOT be mated until reaching 225/275 kg OR minimum 14 months, whichever is later

Age at First Calving

Local breeds take the longest because they reach puberty and body maturity much later than crossbred or exotic breeds.

Heifer Feeding Schedule

Vaccination Schedule for Cattle and Buffaloes

Other Heifer Management Points

• Training: Halter-train heifers early to make them docile — essential for future milking, AI, and veterinary examination
• Pre-calving: House pregnant heifers with milking cows at least 1 month before calving; wash udder with warm water and gently pull teats a few days pre-calving to reduce fear at first milking
• Deworming: Every 4–6 months
• Grooming: Daily brushing removes dust, dirt, manure and controls ectoparasites (ticks, lice, mites)
• Indoor steaming up: Pregnant heifers receive 1.5 kg grain/day before calving — builds reserves for foetal growth and subsequent milk production

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Care and Management of Pregnant Animals

Once the heifer conceives, the management focus shifts from growth to: (1) supporting the developing foetus, and (2) preparing the dam for calving and the subsequent lactation.

Key Facts

• Minimum dry period: 60 days — essential for mammary gland regeneration
• Pregnancy confirmed by: rectal palpation at 90 days post-AI
• Gestation period: 280 days (cattle); 305–315 days (buffaloes)
• Extra concentrate as pregnancy allowance: 1.25–1.75 kg/day
• Steaming Up in last 8 weeks of gestation: 1 kg extra concentrate/day

Handling and Protection

Provide gentle handling throughout pregnancy. Avoid:

• Slipping on stable floor (provide non-slip matting)
• Long-distance travel
• Chasing by dogs, bulls, or children
• Fighting or crowding between pregnant animals
• Contact with recently aborted animals or brucellosis carriers — brucellosis spreads via contact with aborted foetuses, placental membranes, and uterine discharges

Feeding of Pregnant Animals

Pre-Calving Signs (1–2 Weeks Before Calving)

• Swelling of udder (udder filling with colostrum)
• Swelling and reddening of vulva
• Relaxation and dropping of ligaments around the tail head

At this stage: move the animal to a clean, dry calving pen (maternity pen).

Parturition Management

• Most healthy animals need little assistance during normal delivery
• Placenta (afterbirth) is normally expelled within 4–6 hours after calving
• If not expelled by 8–12 hours: administer Ergot mixture (contains ergometrine — causes strong uterine contractions to expel retained placenta)
• Beyond 12 hours: manual removal by a veterinarian

Important: Prevent the cow from eating the expelled placenta (causes digestive upset). Dispose by burying in the ground.

Retained placenta beyond 12 hours leads to bacterial decomposition inside the uterus → metritis (uterine infection) → delayed return to oestrus → reduced next lactation yield.

Post-Calving Care

• Wash exterior genitalia and tail with warm water containing KMnO₄ (potassium permanganate) — mild antiseptic
• Keep cow warm; give warm water or warm jaggery water (gur sarbat) — provides quick energy and restores body temperature
• First feed: bran mash moistened with molasses (laxative and easily digestible)
• After 2 days: oats + bran + linseed mash replaces bran mash
• Watch for milk fever and mastitis — high-producing cows are most at risk in the first 2–3 days after calving

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Milking Methods and Practices

After calving, the cow enters lactation. How she is milked determines both milk yield and udder health. Improper milking is a primary cause of mastitis — the costliest disease in dairy farming — and of reduced milk yield.

Methods of Milking

1. Hand Milking

• Full hand / Fist method: All five fingers wrap around the teat and squeeze sequentially from top to bottom. This is the preferred technique — it mimics the calf’s natural suckling action and does not injure the teat.
• Stripping / Thumb-and-forefinger method: Teat grasped between thumb and forefinger and pulled down. NOT recommended as the primary technique — stretches and damages the teat sphincter over time. Used only for forestripping and final stripping to empty the udder.

2. Machine Milking

• Applies rhythmic vacuum (pulsation) simulating the calf’s suckling
• Pulsation rate: 40–60 pulsations/minute
• Vacuum pressure: 38–42 kPa (11–12 inches Hg)
• Faster, more hygienic, and economical for large herds (above 20 animals)
• Teat cup liners: replace every 2,500 milkings or 6 months

Strip Cup Test

• Forestrip first 2–3 streams from each quarter into the strip cup at every milking
• The dark-coloured background makes clots, flakes, blood, and watery milk visible
• This is a routine hygiene check — not just for sick animals

Key Milking Principles

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Estrus (Heat) Detection

For the cow to complete another productive cycle, she must be re-bred successfully after calving. Accurate heat detection is the foundation of this — missed heats directly extend the inter-calving period and cause measurable economic losses.

Estrus = the period of sexual receptivity during which the female accepts mating.

Signs of Estrus in Cattle

Duration of Estrus

Silent Heat in Buffaloes

Silent heat = physiological signs of oestrus occur internally (hormonal changes, ovulation) but the animal shows no overt behavioural signs (no standing to be mounted, no restlessness).

More common in:

• Hot summer months (April–June) — heat stress suppresses behavioural expression
• High-producing buffaloes in negative energy balance
• Undernourished animals

The Murrah buffalo is notorious for silent heat. Detection requires rectal palpation or progesterone assay.

Pregnancy Diagnosis

• Rectal palpation by veterinarian at 90 days post-AI — standard field method
• Ultrasonography: detects pregnancy as early as 25–30 days after AI

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Care and Management of Lactating Animals

Housing and Environment

• Protect from cold and heat stress — both reduce feed intake and milk yield
• Floor space: 3.5 m² in covered/tied stalls; 7 m² in open loose housing
• Hygiene: regular washing and disinfection of floor; daily grooming — poor hygiene causes environmental mastitis (E. coli, Streptococcus)

Post-Parturition Milking

• First milking: clear any teat canal blockages (waxy colostrum plugs) before milking
• Milk 3 times/day until any udder inflammation subsides

Lactating Cow Feeding

Key Lactation Management Points

• Peak yield: Occurs at approximately 6 weeks post-calving — calcium deficiency (milk fever) risk is highest at this point
• Return to oestrus: If no heat within 60 days after calving, consult veterinarian (possible anoestrus, cystic ovaries, uterine infection)
• Milk fever (Hypocalcaemia): Highest risk at peak yield. Signs: staggering, inability to stand, cold extremities, subnormal temperature. Treatment: intravenous calcium borogluconate. Prevention: calcium supplements in ration; avoid over-supplementing calcium in dry period.
• Mastitis prevention: Regular CMT testing; dry cow therapy (antibiotic infusion into each quarter at drying off)

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Body Condition Scoring (BCS)

BCS is a systematic assessment of fat and muscle reserves on a 1–5 scale, independent of frame size (1 = emaciated, 5 = obese). It predicts reproductive performance and metabolic disease risk better than weight alone.

• BCS loss of more than 1 unit between calving and peak lactation = severe negative energy balance → poor fertility, ketosis, displaced abomasum
• Cows too fat at calving (BCS >4) → fatty liver and increased milk fever risk

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Transition Period Management

The transition period = 3 weeks before + 3 weeks after calving (6 weeks total). This is the highest-risk phase in a dairy cow’s productive life — the period of maximum metabolic stress.

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Reproductive Details and Breeding Guidelines

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Economic Characters of Dairy Cattle

These measurable traits determine a dairy animal’s economic value and are used in breeding selection programs.

1. Lactation Yield

Total milk produced in one complete lactation. Yield increases from the 1st to the 3rd–4th lactation, then gradually declines.

2. Lactation Period

Length of the milk-producing period. Optimum = 305 days.

3. Persistency of Yield

The rate at which milk yield declines after the peak. Expressed as the percentage of the previous month’s yield retained in the current month.

• High persistency (e.g., 85%) = slow decline = desirable
• A cow with high persistency produces more total milk even if her peak is not the highest
• Persistency is different from total yield — a cow can have a high peak but low persistency, resulting in lower total production

4. Age at First Calving

Indian breeds: 3 years. Crossbred: 2 years. Buffaloes: 3.5 years.

5. Service Period

The interval from calving to successful conception. Optimum = 60–90 days.

Why not breed immediately after calving? The uterus needs 40–60 days to involute (return to its pre-pregnant size and condition) after calving. Breeding before involution is complete leads to high early embryonic death. Service period beyond 90 days extends the inter-calving period — losing productive time.

6. Dry Period

Minimum: 60 days. Date of drying off to next calving.

7. Inter-Calving Period (ICP)

The interval between two successive calvings. Also called the calving interval.

Formula: ICP = Gestation period + Service period

A longer ICP = fewer calves per lifetime = lower total milk production = significant economic loss. ICP is the single most important measure of reproductive efficiency.

8. Reproductive Efficiency

Number of calves produced per lifetime. Measured by calving interval and conception rate. One calf per year (12–13 month ICP) = reproductively efficient.

9. Efficiency of Feed Utilisation

kg of milk produced per kg of dry matter consumed. A heritable trait used in breeding selection programs.

10. Disease Resistance

Genetic ability to resist mastitis, FMD, and tick infestations. Indigenous breeds (Gir, Sahiwal) have significantly better disease resistance than exotic breeds under Indian tropical conditions — important consideration for cross-breeding programs.

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Summary Cheat Sheet

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References

• Banerjee, G.C. — A Textbook of Animal Husbandry (8th Ed.), Oxford & IBH Publishing Co.
• NDDB (National Dairy Development Board) — Heifer Rearing and Lactation Management
• ICAR (Indian Council of Agricultural Research) — Livestock Production and Management
• NADCP (National Animal Disease Control Programme) — Government of India, Dept. of Animal Husbandry & Dairying
• National Dairy Research Institute (NDRI), Karnal — Reproductive Management Guidelines