ebook img

DHIA sire summary list, September 1967 : Ayrshire, Guernsey, Holstein, Jersey, Brown Swiss, Milking Shorthorn, and Red Dane sires PDF

1967·11.7 MB·English
Save to my drive
Quick download
Download
Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.

Preview DHIA sire summary list, September 1967 : Ayrshire, Guernsey, Holstein, Jersey, Brown Swiss, Milking Shorthorn, and Red Dane sires

Archive Document Historic, Do assume not content reflects current scientific knowledge, policies, or practices. h c * t\H ARS-44-196 November 1967 D H A I SUMMARY SIRE LIST September 1967 AYRSHIRE, GUERNSEY, HOLSTEIN, JERSEY, BROWN SWISS, MILKING SHORTHORN, AND RED DANE SIRES AGRICULTURE U S DEPT. OF LIBRARY AGRICULTURAL NATIONAL DEC 27 1967 RECORDS CURRENT SERIAL Agricultural Research Service U. S. Department of Agriculture The sire evaluations summarized in this publication are appraisals based on information about the production performance of progeny ob- tained by USDA's Agricultural Research Service from Dairy Herd Improvement Associations (DHIA) that are affiliated with the National Coopera- tive Dairy Herd Improvement Program. This pro- gram is described in detail in U.S. Department of Agriculture Handbook No. 278, "National Cooperative Dairy Herd Improvement Program Hand- book," copies of which can be obtained from the Office of Information, U.S. Department of Agri- culture, Washington, D. C. 20250. The DHIA Sire Summary List is revised and updated as improved techniques are developed to furnish its members with more accurate eval- uations of sires of DHIA cows. DHIA SIRE SUMMARY LIST SEPTEMBER 1967 INTRODUCTION This DHIA Sire Summary List contains information for 142 Ayrshire, 1,362 Guernsey, 2,394 Holstein, 779 Jersey, 240 Brown Swiss, 66 Milking Shorthorn, and 7 Red Dane sires and their daughters. Summaries were compiled from data re- ceived by the Animal Husbandry Research Division, ARS, to August 31, 1967. A sire summary record is compiled for a sire when enough of his daughters have lactation data and herdmate re- cords reported. Sires in the following categories are sum- marized in this publication: (1) Those for whom sufficient information was available for the first time, (2) those re- ported to be active in artificial insemination on January 1, 1967 or later, those for whom enough additional informa- (3) tion was available to warrant a resummary, and (4) those for whom special requests for summaries were received. All production records used in DHIA sire summaries consist of lactation records of 305 days or less that have been standardized to a mature- equivalent (M.E.), twice-a-day milking basis. The age factors used in standardizing these records were stratified by geographical region of the United States and by season. (See Dairy Herd Improvement Letter, February 1967.) Separate adjustment factors were used for milk and milk fat. When more than one lactation is available for a cow, all records for both the daughter and her herdmate are averaged and used to represent her performance. Incomplete records that are reported as having been terminated because the cow aborted, was culled for low produc tion, or was sold for nondairy purposes were projected to a 305-day basis by factors that allow for breed, age, milk, and 2 milk fat and were used in compiling sire summaries. (See Dairy Herd Improvement Letter, August 1965.) Records that were deleted and not used in compiling summaries were (1) those coded as complete but less than 180 days in length, (2) those coded as incomplete but less than 15 days in length, (3) those estimated for two or more consecutive test periods, and (4) those initiated by abortion. However, incomplete re- cords may not be included for cows that calved before 1959. Currently reported lactation records were accepted into master files and used in the sire summaries only if the inter- val from calving date to production run date (August 31, 1967) exceeded 364 days. A lapse-time interval has been tested and shown to be effective in reducing the high incidence of in- complete records in early sire summaries. Records of cows calving after this date were set aside and will be re-entered in the next appropriate sire summary. COMPILATION OF SIRE SUMMARY The herdmate, or contemporary, comparison is useful because it removes from the evaluation of a sire's breeding value complications arising from herd, year, and season-of- calving variations in production. Herd-year- seasons are based on a 5-month moving average. The appropriate herdmate average for the daughter of the sire is obtained by averaging all records of daughters of other sires calving in the herd in the same month as the daughters, in the previous 2 months, and in the succeeding 2 months (i.e., the same herd-year- season). For example, the herdmate average for a sire's daugh ter that calved in March is obtained by averaging the produc- tion of all cows, except her paternal sisters, that calved in that herd from January through May. All comparisons included in these summaries are on a within-breed basis. Because the usefulness of the herdmate average is dependent in part on the number of herdmates available, the herdmates 1 production is adjusted to place the herdmate data of the daughters on a more comparable basis. For each indi- vidual lactation of a sire's daughter, the herdmates' average 3 is adjusted as follows AHMA = Reg -brd-yr-sea. avg. + g~ (HM avg. minus Reg -brd-yr-sea. avg. ) + j- where: AHMA = Adjusted herdmate average Reg -brd-yr-sea. avg. = Regional breed-year-season average NHM = Number of herdmates HM = Herdmate average The regional breed-year- season averages are calculated from the 2X, 305-day, M.E. DHIA records of cows calving from January 1, 1950, to May 1, 1965. Three regional groupings are used for Ayrshire and Brown Swiss, four for Guernsey and Jersey, and 14 for Holstein. The averages for Milking Shorthorn, Red Dane, and Red Poll are based on all cows calving in the United States for the year- season in question. The primary cause of differ- ences in the number of regions used for each breed was the number of available lactations. The States comprising each region are shown in table 1, of the Appendix. : 4 The measure of breeding merit used in these summaries is the Predicted Difference. This value is the expected deviation of a bull's progeny from their herdmates in breed average herds. The Predicted Difference (PD) is computed as follows Nh PD = [(Dau. Avg.-AHMA) + Q.l(AHMA - Breed Avg.) 2 k + (N-l) h + h En (ry-l) N Adjust- Adjust- Environ- Adjustment Adjustment for ment for ment for mental for herd herd genetic number of distribu- correlation environment level daughters tion of and number daughters of herdmates over herds where = Total number of progeny of the bull = Number of progeny in the i^*1 herd Heritability of milk yield from paternal half-sib = estimates in nationwide populations 2 C = Residual environmental correlations among half-sibs in the same herd after they are expressed as deviations from herdmates AHMA = Adjusted herdmate average; Daus.= daughters; and Avg. = average The value w. will be substituted for N when some daughters have more than one record, n.R where: w. = = 1.00 for one record; 1.33 for two R [1 + (n. - 1) R] records; 1.50 for three records; etc. J R = Repeatability of individual records = 0.50 j"^ n. = Number of records on the cow . . . 5 The breed average is compiled from all DHIA cows of the respective breed that calved in 1963 and 1964. These averages are shown in the following tabulation: Breed Milk-/ Fat- Breed Milk^ Fat^ Lb Lb Lb Lb . . Ayrshire 10,546 426 Brown Swiss 11,689 477 Guernsey 9,153 436 Milking Shorthorn- 9,204 345 Holstein 13,357 487 Red Dane 11,397 454 Jersey 8,414 429 Red Poll 7,904 316 1/ 2X, 305-day, mature equivalent. The precision with which a Predicted Difference will predict the true breeding merit of an individual bull, relative to other bulls of that breed, depends on many factors. The major variables that affect precision are: (1) Number of daughters in the summary (2) Number of herds in which the daughters are located (3) How the daughters are distributed through these herds (4) Number of lactations per daughter in the summary The accuracy of predicting a bull's true breeding merit increases as additional daughters and herds are added. The more uniform the progeny are distributed through the herds represented, the more repeatable the summary becomes. Ability 1 to measure the true daughter deviation in breed average herds increases as the number of lactations per daughter increases. The measure of precision in the Predicted Difference used in this publication is the Repeatability of the sire sum- maries, which is computed as follows: — . 6 2 Nh — Repeatability of a sire summary = P i+ + (N — l) h + k In. (n. - l) c where: N = Number of daughters in the summary. The value of v., <3 as explained previously, is substituted for N when some daughters have more than one lactation. p h =0.19 and is the heritability of milk production as developed from nationwide samples of records. —Zn. (n.-l) - = The adjustment for distribution of daughters N through the herds represented in the sire summary. n. = Number of daughters in each herd. If a bull had nine 1 daughters in herd 1, and six daughters in herd 2, En. (n. - l) = 9 (8) + 6 (5). C = O.lh and is the relationship among half-sisters calving in the same herds because of common environment and certain genetic factors not accounted for by differences among bulls A low Repeatability value or confidence factor, indicates that the true breeding merit of the bull involved may be appre- ciably different from the Predicted Difference shown for that bull in the same sire summary. The parameters used in computing the reliability of sire summaries are based on the best research information presently available. The value of h2 0.19, is the same as used by USDA , in the past in the equation for adjusting summaries on AI bulls, N The value of C2 0.14, is based on USDA research with , N + 20 nationwide samples of data. It has long been known that the accuracy of projecting a lactation record is proportional to the number of days in milk.

See more

The list of books you might like

Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.