Section 09 – Dairy Cattle Genetic Evaluation

Introduction

All countries are recommended to establish national GES for all of their locally and internationally recognised breeds. Assignment of an animal to a specific breed is justified if 75% of the animal’s genes originate from that breed (or both sire and maternal grandsire are from the breed of evaluation).

For the sake of international evaluation, bulls should be classified under one of the following breed groups:

1. Brown Swiss-type.
2. Guernsey-type.
3. Holstein-Friesian-type.
4. Jersey-type.
5. Red Dairy Cattle-type (including Milking Shorthorn and several Red-and-White breeds)-type;.
6. Simmental (including Montbeliarde)-type.

according to the definition given in each country and based on the direction the population has taken in this country. Individual countries should identify the breed’s groups their populations belong to. In the case of cross-breeding, the breed with the highest percentage should be considered

Animal Identification

All animals should be identified and registered in accordance with the ICAR’s General Rules (Section 01 – General Rules).

Each animal’s ID should be unique to that animal, given to the animal at birth, never be used again for any other animal, and be used throughout the life of the animal in the country of birth and also by all other countries. For exchanging of information with Interbull, the following information should be provided for each animal:

Breed code                                   Character 3 (ICAR breed codes)

Code of Country of birth          Character 3 (ISO 3166)

Sex code                                        Character 1 (M/F)

Animal registration                    Alphanumeric 12

All parts of an animal ID should be kept intact. If, for any reason, modification of the original animal ID is necessary, it should be considered as a re-registration and fully documented by a cross-reference record relating the original (and intact) animal ID and the new animal ID. For international evaluations, such record shall be uploaded into the Interbull Centre database

Pedigree information

The parentage of an animal shall be recorded by identifying and recording the service sire and the served animal at the time of service, as provided for by ICAR ‘s General Rules (Section 01 – General Rules).

NGECs should, in co-operation with other interested parties, keep track and report percentage of animals with missing ID and pedigree information. The overall quantitative measures of data quality should include percentage of sire and dam identified animals or alternatively percentage of missing IDs.

The doubtful pedigree and birth information should be set to unknown (set parent ID to zero).

To ensure sufficient pedigree information it is recommended to have evaluations including a minimum of 3 generations of pedigree, even if phenotype records may not be available for all such animals

Genetic defects

The information that the animal is a carrier of genetic defects, as defined by the International Breed Association, should be made available internationally as soon as possible after such information is discovered. For most breed associations the transfer of such information currently happens through bilateral (in most cases manual) exchange of data. To help sharing such information internationally, Interbull Centre has collaborated with the World Holstein Friesian Federation (WHFF) who has agreed on sharing its harmonised codes and nomenclatures pertaining to true genetic tests using the Interbull Centre’s database (IDEA) and its dedicated module for sharing of animals’ information (AnimInfo). International breed associations are highly encouraged to work on the standardization and harmonisation of the genetic defects most relevant to their breeds so that sharing of such information could also be improved by the usage of the IDEA AnimInfo module

Sire categories

Countries should clearly and correctly describe different sire categories, that is to distinguish between:

1. domestically proven bulls;
2. imported bulls;
3. young bulls genomically tested but not yet selected for AI;
4. young bulls with first batch of daughters;
5. proven bulls with second batch of daughters;
6. bulls with only parent average and genomic information, and;
7. most important of all between NS bulls vs. AI bulls.

Quantitative measures should be employed to define AI bulls. Responsible organisations are recommended to strive for establishing daughters in a large number of herds (preferably > 10) for young AI bulls.

Type of proof

Countries should clearly and correctly describe different type of proofs used, distinguishing between:

1. based on first crop sampling daughters;
2. based on first and second crop daughters;
3. based on parent average and genomic information only;
4. based on imported semen of proven bull, second crop daughters only;
5. based on more than 50% imported daughters or daughters born from imported embryos.

Official publication of proof

Countries should clearly and correctly describe different type of publication of proofs used, that is to distinguish between:

1. if bull proof meets national standards for official publication in the country sending information;
2. if bull is part of a simultaneous progeny-testing program, but the proof does not yet meet national standards for official publication.

Young bulls may be used in simultaneous progeny testing in two or more countries with large enough number of daughters in each country to warrant an independent official evaluation. These bulls should clearly be classified as “simultaneously progeny tested bulls”.

Traits of evaluation

Direct measurement of traits and utilisation of the metric system is encouraged. Recording organisations should adopt recording schemes that ensure accurate collection and reporting of all data. It is recommended that national genetic evaluation centres provide detailed definitions of traits on their web sites when possible, in line with the ICAR atlas. The definitions should include all data checks and edits, such as range of acceptable phenotypic values, age, parity, etc

Data requirements for various traits of interest

Records of all animals with known Animal ID should be included in the genetic evaluations.

All records should be accompanied by relevant dates (birth, calving, etc.).

All records should be accompanied by sufficient information for formation of contemporary groups, such as herd and geographical location of the herd (e.g. region). Information on internationally standardised methods of recording should be included. An example for the production traits is ICAR A4, A6, B4, etc.

All other relevant information, depending on the trait of interest, should accompany the records, e.g. number of milkings per day, production system (e.g. Alpine pasture, total mixed ration (TMR) or grazing), methods for estimation of 24-hour and 305-day yields, extension methods, adjustment methods etc.

Number of years of production data to be included in the evaluations should desirably be equal to at least 3 generation intervals (i.e. 15 years) of consistently recorded data.

Number of lactations included

Number of lactations to be included in the evaluations is recommended to be at least three. Breeding values should be produced for the whole lactation period, separately for different lactations. Separate breeding values should then be combined into one single composite breeding value for each trait for the whole life, in which different lactations are given separate weights based on each lactation’s economic value.

Data quality

It is desirable that all data related to all animals (herd book, insemination, milk recording, veterinary practices, etc.), irrespective of their sources, be available to the genetic evaluation centres in form of an integrated database. A complete documentation of data checks, including data edits conducted by milk recording organisations, is essential. All member organisations / countries should adopt quantitative measures of assessing data quality. National genetic evaluation centres should devise simple methods of checking for detection of outliers and exclusion of logical inconsistencies in the input data. Biological improbabilities should also be checked. Extra precautions should be employed so that no inadvertent selection of data or introduction of bias becomes possible. Poor quality data should be excluded from genetic evaluations. Complete documentation of all procedures to check and edit the data is very important. National genetic evaluation centres are encouraged to have quality assurance systems implemented.

Inclusion and extension of records

Different kinds of lactations, i.e. records in progress, records from culled cows, records of dried off cows (i.e. lactations of cows remaining in the herd but terminated artificially because of a new pregnancy or any other management reasons), naturally terminated lactations shorter than 305 days and finally, lactations longer than 305 days should be identified in the system and treated differently.

All records with ≥ 45 DIM or two test days should be included in the evaluations. Extension or lack thereof should be decided upon after enough scientific/empirical justifications have been established for each kind of lactation. Records in progress and short lactations from culled cows should normally be extended. Lactations of cows dried off before 305 days and naturally terminated lactations shorter than 305 days may be extended provided adjustment for days open and / or current calving interval have not been satisfactory. Data from lactations longer than 305 days should be cut at 305 days.

Extension methods and factors should be re-evaluated continually to ensure that they are up to date and that no unplanned selection of data occurs. Extension factors should be re estimated at least every 5 years. Different kinds of lactations should be extended using the same extension method and different extension factors. Extension rules and methods should be the same across lactations. Whenever the data span over many years, the extension rules and factors should be appropriate and specific to the various time periods.

Pre-adjustment of records

All effects should preferably be accounted for in the evaluation model. If records are to be pre adjusted, it is more justifiable to do so for those environmental effects that are in need of multiplicative adjustments. Effects in need of additive adjustments should be considered in the model. In any case, adjustment should be made to the population mean and not to an extreme class. Pre adjustment factors should be updated as often as possible (at least once per generation) and be specific to different time periods.

Adjustment for Genomic Reliability values

Theoretical genomic reliabilities depend on model assumptions of conventional or genomic models, they tend to be higher than those realized reliabilities which are calculated from validation R2 values derived from genomic validation with truncated data. Therefore, those theoretical model genomic reliabilities must be adjusted to the level of the realised ones. An adjustment procedure for genomic reliability values has been developed using genomic validation results following Interbull’s GEBV Test (Mäntysaari et al. 2010). Interbull recommends following the procedure put together by Liu et al. (2017) and available on https://interbull.org/static/web/A_technical_document_on_derivation_and_application_of_adjustment.pdf  and https://interbull.org/static/web/A_supplementary_document_to_the_Interbull_genomic_reliability_method-1.pdf