Changes to evaluation system (January 2009)

Genomic evaluations become official

By Paul VanRaden*, George Wiggans*, Tad Sonstegard†, Curt Van Tassell†, and Leigh Walton*
*Animal Improvement Programs Laboratory, †Bovine Functional Genomics Laboratory

Genomic predictions of genetic merit become official in January 2009. Predicted transmitting abilities (PTAs) use genomic data derived from DNA in addition to traditional phenotypic and pedigree data. Genotypes for 38,416 single-nucleotide polymorphisms evenly distributed across all 30 chromosomes document which genes each animal inherited and provide a new source of information for genetic evaluations. Formats 38 and 105 indicate genotyped status in bytes 547 and 190, respectively. Codes are 0 for traditional evaluations, 1 for genotyped animals, and 2 for descendants of genotyped animals with reliabilities that increased by at least 1% because of inclusion of genomic information in the parent average (PA). Descendants of genotyped animals have updated PAs and PTAs using the same methods developed previously to include information from foreign parents. Ancestors are not updated because programs are not yet available to transfer genomic information from a genotyped calf to its nongenotyped dam, for example.

Genotyped heifers are eligible for elite status and have records in the format-105 files. Genotyped young bulls are not eligible for active artificial-insemination (AI) status. However, genomically tested bulls that will be marketed are identified as G status. Format-38 files include a record for each bull with a National Association of Animal Breeders (NAAB; Columbia, MO) code, and the genomic PTA is listed as official for genotyped bull calves only after they receive an NAAB code because of NAAB's 5-year exclusive license or after they reach 24 months of age. Domestic test files for cows in format 105 and for bulls in format 38 are available for inspection. Evaluations contained in these files are not from the latest December calculations but rather from an earlier test in October. A U.S.-only version of format 38 without genomic information added is provided so that genomic adjustments can be better understood. Genomic equations are solved using data from the previous multitrait, across-country evaluation from the Interbull Centre (Uppsala, Sweden). The official PTA for each proven bull includes the extra information from genomics or from new daughters added since the last evaluation, but not both, because recalculating genomic predictions after the arrival of Interbull data on the Thursday prior to Tuesday release is not feasible.

Calving-trait and type files also include genomic evaluations as official, and programming to include those records has begun. Breed associations and NAAB continue to distribute calving-trait and type files. Genomic predictions are available for 16 linear traits but not feet/legs score, rear-teat placement, or rear-udder width. Currently, genomic net merit is obtained by directly analyzing net merit as a trait, because genomic results were not available for all individual traits. Genomic evaluations for stillbirth began in October 2008. In the future, genomic net merit could be obtained as a sum of individual genomic PTAs as is done for breed association composites and indexes.

Genomic predictions for Holsteins have been computed about every 2 months since April 1, 2008. Initially, letters to owners and computer files labeled as unofficial were distributed directly from the Animal Improvement Programs Laboratory (AIPL), but breed associations and NAAB now provide those services. Jersey genomic PTAs were tested in June, found to be significantly better than PAs, and distributed unofficially to owners in October 2008. Because of limited numbers of genotyped bulls, Brown Swiss predictions were not much better than PAs and were not distributed. Negotiations have begun on obtaining more Brown Swiss genotypes from Europe. As of October 2008, the USDA database includes 368 Brown Swiss, 1,558 Jersey, and 14,720 Holstein genotypes.

Genomic inbreeding coefficients and genomic estimates of future inbreeding (GFI) analogous to expected future inbreeding (EFI) are now included in computer files for genotyped animals. Genotypes allow measuring actual homozygosity and percentages of genes in common instead of the expected fractions computed from pedigrees by Wright's 1922 formulas. For GFI, the reference population is all genotyped animals born in the last 10 years. For EFI, the reference population is a sample of females born in the last 5 years. Thus, GFI and EFI should have nearly the same interpretation and, in fact, are similar numerically. Genomic inbreeding is about 2% higher for males than for females because the X chromosome is coded as homozygous in males.

Reliability of PA for young Holstein bulls and heifers averaged 36% for net merit but increased to 66% when genomic information was included. Theoretical reliabilities were reported initially but now have been reduced by multiplying the theoretical gain in daughter equivalents by 0.6. For young bulls, genomic PTAs for some traits average a little lower than PAs because upward biases in PA are being corrected. For example, genomic net merit averaged $388 compared with $420 for traditional PA; genomic PTA protein averaged 34 pounds compared with 39 pounds for traditional PA. For active AI bulls, genomic evaluations had significantly higher reliabilities than traditional evaluations for nearly all traits and were distributed unofficially on the AIPL web site beginning in August 2008.

Further explanation of the methods for calculating genomic evaluations are available.