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Meat Goat Production

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Meat Goat Production. Chris Radloff D.V.M. All About Pets Veterinary Hospital Rollin R Farms. Factors for Successful Production. 1. Nutrition 2. Health 3. Reproduction 4. Marketing 5. Facilities. Nutrition. Is the highest cost item associated with production - PowerPoint PPT Presentation
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Meat Goat Production Chris Radloff D.V.M. All About Pets Veterinary Hospital Rollin R Farms
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Meat Goat Production

Chris Radloff D.V.M.All About Pets Veterinary HospitalRollin R Farms

Factors for Successful Production

1. Nutrition 2. Health 3. Reproduction 4. Marketing 5. Facilities

Nutrition

Is the highest cost item associated with production

Adjust for animal needs (ie. Early pregnancy, Late Pregnancy, Lactation, Kids and Bucks)

Feed Costs

Different for each farm due to variable facilities, markets, breed variables, and management.

– Example 50 doe farm Pre- breeding- Early gestation late summer-fall pasture and

grain– Grain expense $9.00 per day

Early Gestation to late gestation Winter-early spring hay and grain

– Hay expense $15.00 per day– Grain expense $4.50 per day

Feed Costs

– Late Gestation thru lactation early spring to summer grain and pasture

Grain expense $9.00 per day

Total- $4510.00 or ~$90 per head per year– Pre- breeding- Early gestation $1080.00– Early Gestation to late gestation $2350.00– Late Gestation thru lactation $1080.00

Health

Deworming Vaccines Regular hoof care Body Condition Score FAMACHA Score

Reproduction

Produce kids for market Produce kids for replacements

Reproduction Basics

Does (females) Bucks (males) Seasonal Polyestrus Puberty between 4-10 months of age Pregnancy lasts approx 150 days Twins and Triplets are common

Does

Should be 60-70% of adult weight at breeding

Can breed to kid as yearlings Accelerated Kidding

– Breeding to have 3 kid crops in 2 years

Does

Seasonal breeders– Short days signal the breeding season– Typically August-February– Most meat goats are seasonal breeders– Lights and hormones can be used to manipulate

breeding season– Buck Effect

Estrous Cycle

18-22 days long Estrus 12-36 hours Ovulation occurs at end of Estrus

Signs of Estrus

Tail Wagging Swollen vulva Mounting behavior Clear discharge from vulva Vocalizing Increase in activity

Bucks

Reach puberty 3-6 months of age Need to separate or castrate by 4 months of

age to prevent unwanted pregnancies Can use as herd sires at 8-10 months of age-

but limit number of does Breeding Soundness Exam (BSE) performed

prior to breeding season

Breeding Season

You want to have a defined breeding season– Breeding seasons are typically 60-90 days– Breeding season should not be 365 days

Your breeding season should be determined by:– Weather– Forage availability– Management – Time availability– When you plan to market or show animals

Assisted Reproduction

Valuable tools for increasing the impact of outstanding genetics, but also require increased management, cost, and risk.– Artificial Insemination– Embryo Transfer

Artificial Insemination

Bucks are collected via; •Artificial Vagina and Doe in Estrus or Electro-ejaculator

Semen is examined, extended, and frozen. Semen is placed above or just inside the cervix

by means of a glass speculum and pipette. Typical conception rates are 30-50% for one

insemination or 60-80% with 2 or three inseminations.

Laparoscopic AI increases the success rate but also the danger to doe and the cost.

Artificial Insemination

Plan ahead of time- Months not Weeks– Select does and bucks– Vaccinate 2-3 months prior– Multimin or BoSe Injection 2-3 months prior– Nutritional Flush 4-6 weeks prior

Increase feed intake Monitor BCS Can increase ovulation rate 5-10%

Artificial Insemination

Semen tank Speculum AI Gun Light source Thaw Jar Staw Cutter Restraint Training

Artificial Insemination

Timing of Insemination– Toward end of standing estrus– Multiple inseminations 12 hour intervals– Pass pipette through cervical rings

Laparoscopic Insemination/ Surgical Insemination

Increased conception rate over transcervical Can use smaller amounts of semen Increased costs Increased risks for doe Does typically need to be synchronized

Laparoscopic Insemination/ Surgical Insemination

Synchronizing protocol– Day 0- Insert CIDR– Day 10- Give Prostaglandin Injection (Estrumate

or Lutalyse)– Day 12- Removed CIDR and Injection of PG600– Day 13- Pull food and Water– Day 14- Perform Insemination procedure

Laparoscopic Insemination/ Surgical Insemination

Synchronizing protocol– Day 0- Lutalyse Injection– Day 7- Cystorelin Injection– Day 14- Lutalyse Injection– Day 17- Cystorelin Injection and perform AI

procedure.

Embryo Transfer

Breeding genetically superior animals to increase chances of more offspring

Costly Variable results Increased risks

Embryo Transfer

Good intense management PLAN AHEAD No shortcuts

Embryo Transfer

AVOID STRESSSome examples of how stress is induced are:

-Mixing groups or individual animals together that have not previously been together.

-Altering the goats regular routine. -Handling the goats unnecessarily. -Confining goats in close or unfamiliar surroundings. -Causing goats to become frightened, such as

exposure to predators -Weather extremes

Embryo Transfer

The ease with which your goats can be handled and the avoidance of stress from a period of time before you began an ET period until at least the second month of pregnancy will reflect drastically on your conception rates and ultimately the number of kids born.

Embryo Transfer

TEASER BUCKS– Very important to overall success– Recipients and Donors must be exposed to

teasers– Initiate Estrus– Minimum of 30 days, and preferably 60 days,

prior – Vassectomized can still penetrate the females

which allows for better stimulation.

Embryo Transfer

TEASER BUCKS – One teaser buck per small Donor groups (5)– One teaser per 25 Recipients– Use Teasers both before you begin a program

and during heat detection at mating time.– Harnesses with different colored chalk can be

strapped to teaser bucks and is helpful in heat detection.

Planning for Embryo Transfer

•Positive weight gains throughout an ET program-Nutritional Flush 4-6 weeks prior

Increase feed intake Monitor BCS

Vaccinate 2-3 months prior Multimin or BoSe Injection 2-3 months prior

Embryo Transfer Protocol

Day 0: Insert CIDR in Recipient and Donor does Day 12: Give 1.5ml of Follitropin in P.M. Day 13: Give 1.5ml of Follitropin in A.M. and 1.25ml in P.M. Day 14: Give 1.25ml of Follitropin A.M. and 1.0ml in P.M. Remove

recipient CIDR in P.M. Day 15: Give 1.0ml of Follitropin in A.M. and 0.75ml in P.M. Day 16: Remove Donor CIDR in P.M. Day 17: Give 0.5ml Follitropin in A.M. Breed donors when in heat.

Perform surgical A.I. 12-18 hours after first sign of heat. Observe recipients for signs of heat.

Day 19-20: Insert new CIDR into donor Day before Flush Full food and water from donors and recipients in

P.M Day 23-24: Perform Flush

Embryo Transfer

EXAMPLE OF AN ET PROGRAM SCHEDULE: DAY 0-Put CIDRs In Recipients DAY 1-Put CIDRs In Donors - DAY 16-Donor FSH Injections in AM & PM DAY 17-Donor FSH Injections in AM & PM DAY 18-Donor FSH Injections AM & PM and Recipient CIDRs Out in PM DAY 19-FSH Inject. in AM & PM, Donor CIDRs Out in PM & Record Recip

Heats DAY 20-Mate Donors in the AM & PM and Record Recipient Heats DAY 21-Mate Donors in the AM And Record Recipient Heats DAY 23 -Put New CIDRs Back In Donors DAY 25-Take Both Donors and Recipients Off Feed & Water DAY 26-ET Day:Flush & Lutalyse Donors, and Transfer Embryos To Recips

Embryo Transfer

Does are mated at 12 hr. intervals beginning at onset of heat and continuing until she will no longer accept the buck.

One ejaculation per breeding is sufficient. Don't overwork your bucks.

Do not put a buck with a group of donor does and leave him. He will very likely service only one donor.

Embryo Transfer

The collection is done by literally washing the inside of the uterus with a fluid media in which the embryos become suspended and then searching this fluid aided with the use of a low powered microscope.

After evaluating the superovulatory response of the donor by observing the ovaries, the horns of the uterus are exposed, one at a time, through a small incision just in front of the udder.

Each horn is collected separately, using approximately 60 ml of media for each side.

Embryo Transfer

Results from superovulation are varied. Averages are approximately:– 8 useable embryos from doe kids– 10-12 useable embryos from adults– Older does work the best – Program 6-8 recipients on kid flushes – 8-10 recipients on adult flushes

Embryo Transfer

Two embryos are routinely transferred to each recipient The recipients undergo the same type of general anesthesia as

the donors. The ovaries and uterus are examined After a recipient has been determined acceptable, a small

portion of the uterus is exposed through a small incision in the abdominal wall, and two embryos are injected via a needle puncture into the uterine horn on the same side that ovulation occurred.

Post transfer recipient care is also critically important. The avoidance of stress during this period can influence conception and kidding rates positively

Reproduction

Pregnancy Diagnosis– Ultrasound

Can be detected 30-35 days after breeding

– BioPRYN Testing Blood sample to determine pregnancy Can collect samples 30 days post breeding Cost $6.50 per test

Marketing

Identify your market– Local Auctions– Traders– Breeding Stock– Individual consumers– Processors– Producer Cooperative– Grazing for hire

Marketing

Covering costs– Market 50-70#– Prices variable throughout the year

Example 50 doe farm (~$90.00 per doe for feed cost)

– 85 kids– Market at 60lbs– $1.75/lb– Total Sales of $8925.00 or ~$178.00 per doe

Facilities

Fencing Sheds

– 5 sq. ft. per adult animal– Sturdy and durable– Protection from rain, cold wind, and snow

Kidding area– Jugs or hutches

Catch pen

The End


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