1. ‘EPDs’�Expected Progeny Differences
Jeanne Dietz-Band, Ph.D.
Kiko EPD Program
2. Definition
3. How Do EPDs Differ from Visual Inspection and Antidotal Evidence? Genetics are variable …..no commercial performance traits are 100% heritable
>EPDs estimate the performance of each offspring based upon the performance evaluation of the parents as well as all the near relatives
What part of performance is due to genetics and what part to management/environment?
>EPDs make proven statistical adjustments in the data evaluation that minimize the effects of different management styles
4. How Do EPDs Differ from Visual Inspection and Antidotal Evidence?�(cont.)
Visual inspection and casual observations do not predict genetic performance
> EPDs provide a way to quantitatively predict genetic performance while providing meaningful comparisons between Kikos in different herds
SHOW me the data!
>Breeders that fully participate in the EPD program are demonstrating that they are making breeding and culling decisions with the intent to improve genetic performance. EPDs raise the commercial value of their Kikos
5. How do EPDs Differ from On-Farm Performance Testing?
Ratios and indexes have real value in comparing Kikos within the same herd .
On-farm testing methods have value in daily decision making and in herd management
On-farm performance testing is not optimal for looking a traits with low heritability.
On-farm performance testing does not allow comparisons between herds
> EPDs can be used to compare Kikos within a herd, compare Kikos across herds, evaluate traits of low heritability, and also identify over time which genetic lines within the Kiko breed are superior for specific performance traits.
6. How do EPDs Differ from Central Performance Testing?
Using Central Performance tests as a competition for highest ‘average daily gain’ is a misunderstanding of the value of such a test. ‘Central Performance tests should be used for progeny testing (testing as many kids as possible out of the same sire).
Central Performance testing (Oklahoma and Maryland) DO provide valuable information about parasite resistance and resilience
>EPDs provide more robust and meaningful information about the ability of the progeny of a Kiko to gain well.
> EPDs do not currently evaluate parasite data
7. How About an Example? You want to buy a doe for your herd that will most likely give you twins every year.
Doe A – is a twin and the breeder tells you her dam was a twin. The doe is also black with a cute white spot on her nose. Her picture was in a flashy color ad placed in Goat Rancher.
Doe B – is a twin, 97% of all the kids born on the farm are twins, and the doe’s dam and grand-dam had twins every breeding. The breeder shows you all the data and goes over it with you ad nauseum (…….snore). The doe is white. She never appeared in Goat Rancher.
> EPDs do the same thing as the critical evaluation above. They gather all the important information in order to estimate future genetic performance.
8. The Birth Weight EPD Estimates the effect of a Kiko’s genes on prenatal growth
Depends upon the average birth weight in the herd
Identifies genetic lines predisposed to producing excessively heavy or excessively light kids
9. The Uterine Capacity EPD Measured in pounds
Depends on the frequency of overweight vs. underweight kids in the herd
A more direct measure of a specific doe’s maternal genetic effects on birth weight
Identifies does whose daughters may be predisposed to producing heavier or lighter kids other than those identified by the birth weight EPD
10. The Uterine plus Birth Weight EPD The sum of the Uterine Capacity EPD plus one half the birth weight EPD
Recognizes that a doe’s genetic contribution to birth weight is a combination of her uterine capacity and a sample one half of her genes
Provides an index (no prediction error reported) of the total anticipated contribution of a Kiko’s daughters to the birth weight of their kids
11. 90-Day Weaning Weight EPD
An estimate of preweaning growth potential
12. Maternal Milk EPD Expressed in pounds of kids weaned, not pounds of milk produced
Identifies individual does whose kids grow faster to weaning than predicted by the weaning weight EPDs of her parents
Dams with a high Maternal Milk EPD are assumed to produce more milk
13. Milk plus Growth EPD Provides an index (no prediction error reported) of the total anticipated contribution of a Kiko’s daughter on the weaning weight of her kids
It is the sum of the Maternal Milk EPD and one half the 90-Day Weaning Weight EPD
Combines the effects of her milk production and a sample one half of her genes for preweaning growth potential
14. 150-Day Postweaning Weight EPD Combines information on preweaning and postweaning weights to predict the genetic contribution attributed to postweaning growth
This EPD is used to predict genetic differences in market weights when marketing is done at a constant age other than at weaning
15. Percent Kid Crop EPD Evaluates genetic potential for prolificacy
Expressed as number of kids born per 100 does kidding
Used to identify Kikos whose daughters are predicted to have more kids during their years as a commercial dam
16. Avoid Single Trait Selection
IF a breeder is constantly selecting for higher EPD values of a single trait, they run a very significant risk that over time other important commercial traits will be lost in the herd.
Strive to achieve a productive balance of contributing genetics in your herd
17. Sample EPD Data
18. Prediction Errors
The Prediction Error is a measure of the anticipated stability of an EPD.
As a substantial amount of performance data accumulates on a Kiko, the EPD values becomes increasingly stable and accurate
19. Prediction Errors
The Prediction Error is a measure of the anticipated stability of an EPD.
As a substantial amount of performance data accumulates on a Kiko, the EPD values becomes increasingly stable and accurate
20. Prediction Errors (cont.)
There is about a 0.33 chance that a Kiko’s EPD for a given trait will change by more than the amount of the prediction error.
There is approximately one chance in 20 that an EPD will change by more than two times the prediction error.
There is one chance in 385 that an EPD will change by more than three times the prediction error
21. Sample EPD Data
22. Suggested Guidelines for Using EPDs and Prediction Errors Choosing Bucks:
Young buck with high EPDs and high prediction errors
vs.
Older Progeny-tested buck with good EPDs and low prediction errors
23. Suggested Guidelines for Using EPDs and Prediction Errors (cont.) Choosing Does:
Differences in prediction errors among does in a breeding herd are almost never large enough to be important
Concentrate on the EPD values to make selections for breeding and culling
24. The Goal
To select groups of replacement does and bucks that will provide consistent genetic improvement.
Larger herds can pay less attention to prediction errors and concentrate on the difference between individual Kikos to average out future changes in EPDs
Small, single sire, herds will need to place greater emphasis on prediction errors to enhance the potential for genetic progress
25. Reference Sire
Ideally a progeny-tested buck with good performance data and a well balanced set of EPDs
Identifying reference sires is not about finding vastly exceptional bucks, it’s about creating genetic linkages between herds
Semen needs to be readily available and provided nearly ‘at cost’ to make it easy for all breeders to fully participate in the EPD program
26. Artificial Insemination (AI)
Realize that without the widespread use of AI, the meat goat industry will never have the large number of proven sires found in the beef and dairy cattle industry
27. New EPDs to Consider
EPDs for parasite resistance
EPDs for carcass traits that yield a better meat to bone ratio
28. Is the Kiko goat the ideal breed for the commercial meat goat industry? What does it mean to successfully raise commercial meat goats?
Is it time to get serious and to work together to see that the Kiko breed reaches its full potential as a meat producing animal?
Is it time to quit putting so much false value in pedigrees, pictures, and hype without proven performance data?
