Page 1


+


IRVINE RANCH

Annual Production Sale SATURDAY, November 3, 2012 1:00 p.m.

NEW SALE LOCATION!!! Irvine Ranch Headquarters: 3370 Casement Road, Manhattan, KS (See enclosed MAP) Selling 40 Fall-Born Simmental and SimAngus Bulls 20 Fall Calving Cows w/ calves at side 1 Pick of the Herd Embryo Flush Schedule of Events Saturday, November 3rd 8:00 a.m. to 1:00 p.m. … Cattle available for viewing at Irvine Ranch. 11:30 a.m…. Complimentary Chili Lunch. 1:00 p.m. …. Production Sale This year’s auction will be a video auction. Please come early to view the cattle as they will not walk through the ring. Sale Order Cattle will sell in Lot Order. Viewing of Cattle Prior to Sale Day Bulls and Cow/Calf pairs are available at Irvine Ranch Headquarters for viewing. Please call ahead for one of the Irvine’s to walk you through the cattle. Sale Day Phone John (785) 313-7473, (785) 313-3136 Bernard (785) 564-3872 Ranch (785) 776-6083 Hotel Information Comfort Inn and Suites – (785) 539-9449 Quality Inn – (785) 770-8000 Best Western – (785) 537-8300 Parkwood Inn and Suites – (785) 320-5440 November 3rd is a KSU Football weekend. Make reservations early! Announcements A Supplemental Sheet correcting or updating information in this catalog will be provided on Sale Day. This will also be available on the website. Auctioneer Garren Walrod Randolph, KS (785) 565-1221 Livestock Press Representatives and Ringmen *Guy Peverley - High Plains Journal (785) 456-4390 *Andrew Sylvester - Kansas Stockman (785) 456-4352 *JW Brune – (785) 865-6624 * Ed Creason - ASA Field Services (573) 823-5635 - ecreason@simmgene.com Sale Consultant Lacey Robinson (816)392-5411 - lacey.a.robinson@gmail.com

Herd/Sale Cattle Veterinary Care Dr. Shelie Laflin, KSU Veterinary Teaching Hospital (785) 532-5700 Dr. Lee Penner Health/Vaccination All sale bulls have passed a breeding soundness examination. Bulls were treated with a pre-breeding BoviShield Gold+VL shot, and Dectomax. Cows were treated with Bovishield Gold. All bulls and cows have tested negative for BVD-PI and BLV (Leukosis). A Health Certificate will be provided as required for transportation in Kansas and beyond. If you are an out of State purchaser, the process to meet the health requirements within your State will be started immediately following the Sale. This process can take a few days, depending upon the requirements within your State. Irvine Ranch will feed and house your animal(s) during this process. Registration Papers from either ASA or AAA will be transferred to the Buyer on all bulls and cows. Terms and Conditions Cash or check will be accepted. If you purchase over the internet or through a representative we ask that you mail a check on sale day. All cattle sell under the Terms and Conditions of the American Simmental Association. Liability All persons attending the sale do so at their own risk. Irvine Ranch and its owners assume no liability for property damage or accidents that may occur. Acknowledgements *Mid-America Feeders: Bronson Smith *Marlene Irvine and Jerry Shivley-invaluable support. *Rod Bohn and Ryan Borg, Farmers COOP Manhattan *Invaluable help from the family… *Will and Craig Kennedy, help and support. *Cross Country Genetics - Dr. Clay Breiner, Dr. Kirk Gray, and staff. *Manhattan Commission Company - Mervin Sexton and John Cline *Zwonitzer Loomix LIVE ON THE INTERNET. LIVE AUDIO. LIVE VIDEO. BIDDING

LiveA Auctions TV

To register and follow the auction in real time on the internet, log on to Website: http://www.liveauctions.tv For More Information, call Brad Fahrmeier at (816) 392-9241 If you wish to follow the sale on the computer and bid by telephone, please call the sale day phone numbers or one of the consultants listed in our catalog. “We appreciate your attendance”


Consider Crossbreeding for By Bob Weaber, Ph.D., Cow-Calf Extension Specialist, Kansas State University In spite of high calf and feed cattle prices, high inputs costs related to supplemental feedstuffs, fuel and fertilizer have many producers seeking ways to improve cow-calf production efficiency and profitability. Profitability may be enhanced by increasing the volume of production (i.e. the pounds of Bob Weaber, Ph.D. calves you market) and/or the value of products you sell (improving quality). The reduction of production costs, and thus breakeven prices, can also improve profitability. Better yet, improving the input:output ratio should enhance profit. For commercial beef producers, the implementation of technologies and breeding systems that increase the quality and volume of production and reduce input costs is essential to maintain or improve the competitive position of the operation. More and more producers are finding that a structured crossbreeding system helps them achieve the goals increasing productivity and reducing production costs. Why crossbreed? The use of crossbreeding offers two distinct and important advantages over the use of a single breed. First, crossbred animals have heterosis or hybrid vigor. Second, crossbred animals combine the strengths of the parent breeds. The term ‘breed complementarity’ is often used to describe breed combinations that produce highly desirable progeny for a broad range of traits. What is heterosis? Heterosis refers to the superiority of the crossbred animal relative to the average of its straight bred parents. Heterosis results from the increase in the heterozygosity of a crossbred animal’s genetic makeup. Heterozygosity refers to a state where an animal has two different forms of a gene. It is believed that heterosis is the result of gene dominance and the recovery from accumulated inbreeding depression of pure breeds. Heterosis is, therefore, dependant on an animal having two different copies of a gene. The level of heterozygosity an animal has depends on the random inheritance of copies of genes from its parents. In general, animals that are crosses of unrelated breeds, such as Angus and Brahman, exhibit higher levels of heterosis, due to more heterozygosity, than do crosses of more genetically similar breeds such as a cross of Angus and Hereford.

Heterosis generates the largest improvement in lowly heritable traits. Moderate improvements due to heterosis are seen in moderately heritable traits. Little or no heterosis is observed in highly heritable traits. Heritability is the proportion of the observable variation in a trait between animals that is due to the genetics that are passed between generations and the variation observed in the animal’s phenotypes, which are the result of genetic and environmental effects. Traits such as reproduction and longevity have low heritability. These traits respond very slowly to selection since a large portion of the variation observed in them is due to environmental factors and a small percentage is due to genetic differences. Heterosis generated through crossbreeding can significantly improve an animal’s performance for lowly heritable traits. Crossbreeding has been shown to be an efficient method to improve reproductive efficiency and productivity in beef cattle.

Improvements in cow-calf production due to heterosis are attributable to having both a crossbred cow and a crossbred calf. The two tables below detail the individual (crossbred calf) and maternal (crossbred cow) heterosis observed for various important production traits. These heterosis estimates are adapted from a report by Cundiff and Gregory, 1999, and summarize crossbreeding experiments conducted in the South-eastern and Midwest areas of the US.

Table 1. Individual Heterosis Trait Calving Rate, % Survival to Weaning, % Birth Weight, lb. Weaning Weight, lb. Yearling Weight, lb. Average Daily Gain, lb./d

Units 3.2 1.4 1.7 16.3 29.1 0.08

% Heterosis 4.4 1.9 2.4 3.9 3.8 2.6

Why is it so important to have crossbred cows? The production of crossbred calves yields advantages in both heterosis and the blending of desirable traits from two or more breeds. However, the largest economic benefit of crossbreeding to commercial producers comes from having crossbred cows. Maternal heterosis improves both the environment a cow provides for her calf as well as improves the longevity and durability of the cow. The improvement of the maternal environment a cow provides for her calf is manifested in the improvements in calf survivability to weaning and increased weaning weight. Crossbred cows exhibit improvements in calving rate of nearly 4% and an increase in longevity of more that one year due to heterotic effects (table 2). Heterosis results in increases in lifetime


Commercial Beef Production productivity of approximately one calf and 600 pounds of calf weaning weight over the lifetime of the cow (table 2). Crossbreeding can have positive effects on a ranch’s bottom line by not only increasing the quality and gross pay weight of calves produced but also by increasing the durability and productivity of the cow factory. Crossbred cows maybe the only free lunch in the world.

The effects of maternal heterosis on the economic measures of cow-calf production have been shown to be very positive. The added value of maternal heterosis ranges from approximately $50/cow/year to nearly $100/cow/year depending on the amount of maternal heterosis retained in the cowherd (Ritchie, 1998). Maternal heterosis accounted for an increase in net profit per cow of nearly $75/cow/year (Davis et al., 1994). Their results suggested that the benefits of maternal heterosis on profit were primarily the reduced cost per cow exposed. Crossbred cows had higher reproductive rates, longer productive lives, and required fewer replacements than straightbred cows in their study. All of these factors contribute to reduced cost per cow exposed. Further, they found increased outputs, including growth and milk yield, were offset by increased costs.

Table 2. Maternal Heterosis Trait Calving Rate, % Survival to Weaning, % Birth Weight, lb. Weaning Weight, lb. Longevity, years

Units 3.5 0.8 1.6 18.0 1.36

% Heterosis 3.7 1.5 1.8 3.9 16.2

Lifetime Productivity Number of Calves Cumulative Weaning Wt., lb.

.97 600

17.0 25.3

How can I harness the power of breed complementarity? Breed complementarity is the effect of combining breeds that have different strengths. When considering crossbreeding from the standpoint of producing replacement females, one could select breeds that have complementary maternal traits such that females are most ideally matched to their production environment. Matings to produce calves for market should focus on complementing the traits of the cows and fine tuning calf performance (growth and carcass traits) to the market place. There is an abundance of research that describes the core competencies (biological type) of many of today’s commonly used beef breeds. Traits are typically combined into groupings such as

maternal/reproduction, growth and carcass. When selecting animals for a crossbreeding system, their breed should be your first consideration. What breeds you select for inclusion in your mating program will be dependant on a number of factors including the current breed composition of your cow herd, your forage and production environment, your replacement female development system, and your calf marketing endpoint. All of these factors help determine the relative importance of traits for each production phase. What are the keys to successful crossbreeding programs? Many of the challenges that have been associated with crossbreeding systems in the past are the result of undisciplined implementation of the system. With that in mind, one should be cautious to select a mating system that matches the amount of labor and expertise available to appropriately implement the system. Crossbreeding systems range in complexity from very simple programs such as the use of hybrid genetics, which are as easy as straight breeding, to elaborate rotational crossbreeding systems with four or more breed inputs. The biggest keys to success are the thoughtful construction of a plan and the sticking to it! Be sure to set attainable goals. Discipline is essential.

Should you need more information or advice on the merits of various crossbreeding systems please download the National Beef Cattle Evaluation Consortiums ‘Beef Sire Selection Manual’ and see chapters on breed and composite selection and crossbreeding systems. It is available in its entirety or by individual chapters here: http://www.nbcec.org/producers/sire.html. You may also contact me directly at my office: 227 Weber Hall, Kansas State University, Manhattan, KS 66506. I can be reached by phone at 785-532-1460 or email: bweaber@k-state.edu. Literature cited: Cundiff, L. V., and K. E. Gregory. 1999. What is systematic crossbreeding? Paper presented at Cattlemen’s College, 1999 Cattle Industry Annual Meeting and Trade Show, National Cattlemen’s Beef Association. Charlotte, North Carolina, February 11, 1999.

Davis, K.C., M.W. Tess, D.D. Kress, D.E. Doornbros, and D.C. Anderson. 1994. Life Cycle Evaluation of Five Biological Types of Beef Cattle in a Cow-Calf Range Production System: II. Biological and Economic Performance. J. Anim. Sci. 72:2591-2598. Ritchie, H.D. 1998. Role of Composites in Future Beef Production Systems. http://www.msu.edu/~ritchieh/papers/BEEF201.ppt. Accessed October 2, 2005.


Glossary G lossary of of Terms Terms and and Abbreviations A b b r e v ia tio n s PERFORMANCE and GENERAL TERMS S Calving Ease Calving Ease (CE): (CE): The The oopposite pposite of of difficult difficult oorr aabnormal bnormal ccalving. alving. An An eeasy asy calving calving is is one one tthat hat ddoes oes nnot ot rrequire equire aassistance ssistance aand nd ddoes oes nnot ot iimpose mpose undue undue sstrain train on on tthe he ccalf alf or or dam. dam . C alving Score Score ((CS): CS): A measure measure of of calving calving where: where: 1=unassisted 1=unassisted birth; birth; 2=hand 2=hand assistance; assistance; 3=mechanical 3=mechanical assistance. a s s is ta n c e . Calving A ctual Birth B ir th W eight (ACT (ACT BW): B W ): A w eight ttaken aken within within 24 24 hours hours of of birth. b irth . Actual Weight weight B ir th W eight Ratio Ratio (BW (BW Ratio): R a tio ): A n eexpression xpression ooff tthe he aanimal’s nimal’s aadjusted d ju s te d w eight aatt bbirth irth rrelative elative tto o tthe he ccontemporary ontemporary ggroup roup aaverage. v e ra g e . Birth Weight An weight N o te : T here iiss a ddifference ifference iin n eexpression xpression ooff B WR atio bbetween etween tthe he SSimmental immental aand nd A ngus B reed A ssociations. A SSimmental im m e n ta l w ith a bbelow e lo w Note: There BW Ratio Angus Breed Associations. with average birth b ir th w e ig h t w ill have have a rratio atio greater greater than than 100 100 (ratios (ratios aabove bove 1100 00 aare re m ore ddesirable). esirable). An An A ngus w ith a below below average average bbirth ir th w e ig h t average weight will more Angus with weight will have have a rratio atio less less tthan han 100 100 ((ratios ratios bbelow elow 1100 00 are a re m ore desirable). d e s ir a b le ). will more A d ju ste d W e a n in g W eight (ADJ (ADJ WW): W W ): A n ooff-the-cow fff--the-cow calf calf weight weight adjusted adjusted to to 205 205 days days of of age age and and to to a mature mature dam dam age age eequivalence. q u iv a le n c e . Adjusted Weaning Weight An A d ju ste d W e a n in g W eight Ratio Ratio (WW (WW Ratio): R a tio ): A n eexpression xpression ooff tthe he aanimal’s nimal’s pperformance erformance ffor or aadjusted d ju s te d w e a n in g w eight rrelative elative tto o tthe he Adjusted Weaning Weight An weaning weight ccontemporary ontemporary group group average. average. Ratios Ratios >100 >100 are are above above average, a v e ra g e , R a tio s < 100 aare re b elow aaverage. v e ra g e . Ratios <100 below A d ju ste d Y earling Weight Weight ((ADJ ADJ Y W): A weight weight adjusted adjusted to to 365-days 365-days ooff aage. ge. Adjusted Yearling YW): A d ju ste d Y earling Weight W e ig h t R atio ((YW YW Ratio): Ratio): An An expression expression of of the the animal’s animal’s performance performance for for adjusted adjusted yearling yearling weight weight relative relative to to the th e Adjusted Yearling Ratio ccontemporary ontemporary group group average. average. Ratios Ratios >100 >100 are are above above average, a v e ra g e , R a tio s < 100 aare re bbelow elow aaverage. v e ra g e . Ratios <100 N /C : N o ccontemporaries. o n te m p o ra rie s . N/C: No T est Gain: Gain: The The average average daily daily gain gain of of an an animal animal for for a fixed fixed period period of of time. tim e . Test N o te : T he ssale ale bbulls u lls w ere ggain ain ttested ested ffor or 84 days. d a ys. Note: The were T est Gain Gain Ratio: R a tio : T he iindividual ndividual bbull’s ull’s ggain ain pperformance erformance rrelative elative tto o tthe he ccontemporary ontemporary ggroup. roup. A ggain ain rratio atio aabove bove 1100 00 rreflects eflects aabove bove ggroup ro u p Test The aaverage verage ggain ain and and bbelow elow 1100 00 reflects reflects below below ggroup roup aaverage verage ggain. a in . N ote: For For the the purpose purpose of of the the Test Test Gain Gain Ratio, Ratio, all all sale sale bulls bulls were were considered considered to to be be in in one one contemporary contemporary group. g ro u p . Note: A d ju ste d F ram e S core ((ADJ ADJ F rame): Based Based upon upon hip hip height height measured measured in in inches inches and and adjusted adjusted to to a 365-day 365-day basis, basis, using using BIF BIF standards. s ta n d a rd s . Adjusted Frame Score Frame): A d ju ste d S c r o ta l C ircumference ((Adjusted Adjusted Scrotal): Scrotal): A measurement measurement of of the the distance distance in in centimeters centimeters around around the the testicles testicles in in the the scrotum s c ro tu m Adjusted Scrotal Circumference with a circular circular ttape. ape. R elated tto o ssemen emen pproducing roducing ccapacity apacity aand nd aage ge aatt ppuberty uberty ooff ffemale emale ssibs ibs aand nd pprogeny. ro g e n y . C onverted tto o a 3365-day 65-day basis, b a s is , with Related Converted u s in g B IF standards. s ta n d a rd s . using BIF H om ozygous P o lle d : A n aanimal nimal tthat hat w ill aalways lways ppass ass oon n a ppolled olled ggene ene tto o iits ts pprogeny. rogeny. Denoted Denoted in in “POLLED” “POLLED” box box aass ““PP”. P P ”. Homozygous Polled: An will H e te r o z y g o u s P o lle d : A lthough tthe he aanimal nimal iiss ppolled olled ((Polled Polled iiss D ominant tto oH orns), iitt m ay ppass ass oon n a hhorn orn ggene ene tto o iits ts pprogeny. ro g e n y . D enoted iin n Heterozygous Polled: Although Dominant Horns), may Denoted ““POLLED” POLLED” bbox ox aass ““Pp”. Pp”. N ote: SSale ale bbulls ulls tthat hat w ere nnot ot kknown nown tto o bbee hhomozygous omozygous bblack lack oorr hhomozygous omozygous ppolled olled bbyy ppedigree e d ig r e e w ere D NA ttested ested tthrough hrough tthe he A m e r ic a n Note: were were DNA American SSimmental im m e n ta l A ssociation bbyy G en eseek. Association Geneseek. H om ozygous B la c k : A n aanimal nimal tthat hat w ill aalways lways ppass ass oon n a bblack lack ggene ene tto o iits ts pprogeny. ro g e n y . D enoted iin n ““COLOR” COLOR” bbox ox aass ““BB”. B B ”. Homozygous Black: An will Denoted H e te r o z y g o u s B la c k : A lthough tthe he aanimal nimal iiss bblack-hided lack-hided ((Black Black iiss D ominant tto oR ed), iitt m ay ppass ass oon n a rred ed ggene ene tto o iits ts pprogeny. ro g e n y . D enoted iin n Heterozygous Black: Although Dominant Red), may Denoted ““COLOR” COLOR” bbox ox aass ““Bb”. B b”. D ocility: A sscoring coring ssystem ystem ffrom rom 1 tto o6w ith llower ower sscores cores iindicating ndicating ccalmer, a lm e r, m ore ggentle entle ccattle: a ttle : 1 – D o c ile ; 2 – R e s tle s s ; 3 – N e rv o u s; 4 – Docility: with more Docile; Restless; Nervous; F lig h tly ; 5 – A g g re s s iv e ; 6 – V e ry A g g re s s iv e ; Flightly; Aggressive; Very Aggressive; D NA 550k: 0k: A ggenotyping enotyping ttool ool tthat hat eexamines xamines 550,000 0,000 llocations ocations oon n tthe he aanimal’s n im a l’s D NA. T he rresults esults ooff tthe he A SA D NA 550K 0K ggenomic enomic ddata ata aare re tthen hen DNA DNA. The ASA DNA iincorporated ncorporated iinto nto aan n aanimal’s n im a l’s E P D s. EPDs. U ltrasound % IIMF MF R a tio : A n uultrasound ltra s o u n d m easurement ooff tthe he ppercent ercent iintramuscular ntramuscular ffat at iin n tthe he rribeye ib e y e m uscle, rrelative elative tto o aanimals n im a ls w ithin tthe he Ultrasound Ratio: An measurement muscle, within ssame ame ccontemporary ontemporary ggroup. ro u p . U ltr a s o u n d R ER a tio : A n uultrasound ltra s o u n d m easurement ooff tthe he aarea rea iin n ssquare quare iinches nches ooff tthe he llongissimus o n g is s im u s m uscle bbetween etween tthe he 112 2th aand nd 1133th rib, rib , Ultrasound RE Ratio: An measurement muscle rrelative elative tto o aanimals n im a ls w ithin tthe he ssame ame ccontemporary ontemporary ggroup. ro u p . within U ltr a s o u n d B FR a tio : A n uultrasound ltra s o u n d m easurement ooff tthe he fat fat thickness thickness aatt tthe he 112th 2th aand nd 113th 3th rrib, ib, rrelative elative tto o aanimals n im a ls w ithin tthe he ssame am e Ultrasound BF Ratio: An measurement within ccontemporary ontemporary ggroup. ro u p . N o te : C alves bborn orn aass a rresult esult ooff eembryo mbryo ttransfer ransfer aare re eevaluated valuated iin n a sseparate eparate ccontemporary ontemporary ggroup roup ffor or uultrasound ltrasound ttraits. r a its . Note: Calves ASA: A SA: American American Simmental Simmental Association A s s o c ia tio n AAA: AAA: A American m e ric a n A Angus ngus A Association s s o c ia tio n B BIF: IF : B Beef eef IImprovement m p ro v e m e n t F Federation e d e ra tio n

IIRVINE R V IN E R RANCH ANCH R RETAINED ETAINED SEMEN SEMEN INTEREST IN T E R E S T Irvine Ranch Irvine Ranch is is retaining retaining a ! semen semen interest interest iin n all all bbulls ulls sselling elling iin n this this ooffering. f f e rin g . T The he purchaser purchaser ooff th the he bull b u ll w will ill hhave ave ppossession ossession ooff tthe he bbull ull and and all all ssalvage alvage vvalue alue rrights. ights. IInn tthe he eevent vent ooff aany ny ssemen emen ssales ales ffrom rom tthe he bbull, ull, then then IIrvine rv in e R Ranch anch iiss rretaining etaining ! interest interest iinn the the gross gross rrevenue evenue from from all all ssemen emen sales. sales. IIrvine rv in e R Ranch anch retains retains tthe he ssemen emen iinterest nterest iiff tthe he bbull u ll iiss ssold old tto o ssubsequent ubsequent purchasers. purchasers. IIrvine rv in e R Ranch anch also also reserves reserves tthe he rright ight tto o ccollect ollect ssemen emen ffrom rom tthe he bbull ull aatt th the he bbuyer’s u y e r’s cconvenience onvenience aand nd oour ur eexpense. xpense. T This his rretained etained ssemen emen iinterest nterest extends extends to to aany ny cclone lone ooff tthe he bull. b u ll. IIff yyou ou have have aany ny qquestions uestions aabout bout the the retained retained ssemen emen iinterest, nterest, please please contact contact us us prior prior ttoo the the sale. s a le .


EXPECTED PROGENY DIFFERENCES (EPD’S) The difference in expected performance of future progeny of an individual, compared with expected performance of future progeny of an individual of average genetic merit. Reported in units of measurement for the trait (e.g. lb., cm, etc.). All published EPD’s in this catalog were generated through the American Simmental Association and are subject to change. Production EPD’s: Calving Ease Direct (CE): Predict the average difference in ease with which a sire’s calves will be born when bred to first-calf heifers. Expressed as percentage of unassisted births with a higher value indicating greater calving ease. Birth Weight EPD (BW): BW EPDs are expressed in pounds and predict the average difference that can be expected in an animal’s offspring when compared with another animal in the same genetic evaluation. Birth weight EPDs are primarily used as an indicator of calving ease, with the age and size of the females to be bred usually dictating how much birth weight can be tolerated. Weaning Weight EPD (WW): WW EPDs are expressed in pounds and predict the average differences in weight that can be expected between the progeny of animals in the same genetic evaluation at 205 days of age. Weaning Weight EPDs do not account for differences in weaning weight that are due to milk. Yearling Weight EPD (YW): YW EPDs are expressed in pounds and predict the average differences that can be expected between the progeny of animals at one year of age. Docility EPD (DOC): Docility EPD’s predict the percentage of an animal’s offspring that are expected to score favorably (1 or 2) on a five-point scoring system when compared to the offspring of another animal. Expressed in EPD’s as a percentage with higher values being favorable. Maternal EPD’s: Maternal Calving Ease EPD (MCE): Predict the average ease with which a sire’s daughters will calve as first-calf heifers when compared to the daughters of another sire in the same evaluation. Expressed as percentage of unassisted births. Maternal Milk EPD (MM): Milk EPDs are expressed as pounds of calf weaned by a bull’s daughters. They reflect the average differences in weaning weight that can be expected in grand progeny due to the milking ability of a bull’s daughters. Available feed resources will dictate the extent to which milking ability should be selected. Maternal Weaning Weight EPD (MWW): Total Maternal EPDs are expressed as pounds of calf weaned by an animal’s daughters. They account for average differences that can be expected from both weaning weight direct as well as from milk, and measure a sire’s ability to transmit milk production and growth rate through his daughters. Stayability EPD (STAY): Stayability is defined as the probability that a sire’s daughters entering the herd will stay in production through 6 years of age. The Stayability EPD provides an estimate of how long a sire’s daughters will stay in the herd compared to another sire in the same evaluation. Higher values indicate greater stayability. Carcass EPD’s: Carcass Weight EPD (CW): CW EPD’s estimate average differences in carcass weight, expressed in pounds at a given age endpoint. Yield Grade EPD (YG): Predict the average differences in cutability that can be expected between the progeny of animals at a given age endpoint. As with all EPDs, YG is expressed as a deviation. Negative values are desirable. To use it, one must keep in mind that it is in yield grade units. Therefore, lower is better. For example, a bull with a -.33 YG EPD would be expected to sire offspring that are 1/3 of yield grade better (lower) than a zero bull. If zero bulls sired an average yield of 3.0 in a particular environment and management system, offspring of a .33 bull would be expected to have an average yield grade of 2.67 (1/3 of a yield grade better/lower). (Simmental) Marbling EPD (MAR OR IMF): Predict the average difference in USDA Quality Grade in an animal’s progeny when compared to the progeny of another animal at a given age endpoint. Expressed in numerical marbling score where one point equals one USDA marbling score. Backfat EPD (BF or FAT): Estimate the average differences that are expected in external fat thickness at the 12th and 13th rib between progeny of different animals. Expressed in inches at a given age endpoint. Ribeye Area EPD (RE): Predict the average difference in ribeye area in an animal’s progeny when compared to the progeny of another animal at a given age endpoint. Expressed in square inches. Shear Force EPD (SHR): Pounds of force required to shear a steak.

SIMMENTAL – API $ and TI $ EPD INDEXES: Though EPDs allow for the comparison of genetic levels for many economically important traits, they only provide a piece of the economic puzzle. That’s where $ indexes come in. Through well conceived, rigorous mathematical computation, $ indexes blend EPDs and economics to estimate an animal’s overall impact on your bottom line. The same technology that led to the dramatic progress in swine, poultry and dairy genetics over the last several decades was used to develop the following $ indexes: All-Purpose Index (API): Evaluates sires for use on the entire cow herd (bred to both Angus first-calf heifers and mature cows) with the portion of their daughters required to maintain herd size retained and the remaining heifers and steers put on feed and sold grade and yield. Terminal Index (TI): Evaluates sire for use on mature Angus cows with all offspring put on feed and sold grade and yield. Consequently, maternal traits such as milk, stayability, and maternal calving ease are not considered in this index.

Using API and TI: First, determine which index to use; if you’re keeping replacements use API, if not, TI. Then, just as with EPDs, zero in on the unit difference between bulls. (As described above, index units are in dollars per cow exposed.) The difference can be used to determine how much a bull is worth compared to another. Or, put another way, how much you can pay for one bull compared to another. For example, when buying an all-purpose-type sire, you can quickly figure a bull scoring +100 for API is worth an extra $6,000 over a +50 bull if both are exposed to 30 cows over 4 years ($50 diff. x 30 hd. x 4 yr. = $6,000). A percentile-ranking chart is required to determine where a bull’s index value ranks him relative to other bulls in the breed. See percentile ranking charts within this catalog, or visit www.simmental.org.


2012 Sale Features and Services from Irvine Ranch:!

V8IV!?%#$!?$./)1$&!%*3!U$%,+.$&

2012 Sale Features and Services from Irvine Ranch:!

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’s: P D ’s : > >=,$.!D$%.&!(=!.$&$%.12!>?>!2%&!.$1$*,#D!+*/$)#$3!%!K@>!,$&,!$/%#+%,)*G!,2$!?)::$*,%#! =,$ . D $ % .& ( = . $ & $ % .1 2 > ? > 2 % & .$ 1 $ * ,#D + * / $ )#$ 3 % K @ > ,$ & , $ / % #+ % ,)* G ,2 $ ? ): : $ * ,% # G $ * ( : $ % , L 8 ;8 8 8 #( 1 % ,)( * & B C 2 $ ,$ & , .$ & + #,& % .$ ,2 $ * )* 1 ( .H ( .% ,$ 3 )* ,( > ? > E& G $ * $ ,)1 $ / % #+ % ,)( * % * 3 + #,): % ,$ #D ,2 $ % * ): % #E& M " K & B G$*(:$!%,!L8;888!#(1%,)(*&B!!C2$!,$&,!.$&+#,&!%.$!,2$*!)*1(.H(.%,$3!)*,(!>?>E&!G$*$,)1!$/%#+%,)(*!%*3!+#,):%,$#D!,2$!%*):%#E&!M"K&B!! C2$ :(&, &)G*)=)1%*, A$*$=), (= ,2)& ,$12*(#(GD GD )& ):H.(/$3 M"K %11+.%1D (* D(+*GG;; N*(*OH%.$*,P 1%,,#$B Q Q$!=$$#!,2$!,):$!)&!.)G2,!,(! $ =$ $ # ,2 $ ,): $ )& .)G 2 , ,( C2$!:(&,!&)G*)=)1%*,!A$*$=),!(=!,2)&!,$12*(#(GD!)&!):H.(/$3!M"K!%11+.%1D!(*!D(+*G;!N*(*OH%.$*,P!1%,,#$B )* / $ & , )* ,2 )& ,$ 1 2 * ( #( G D % * 3 2 % / $ ,$ & ,$ 3 : % * D ( = ,2 $ A + ##& & $ ##)* G ; * ( ,$ 3 )* ,2 $ ). #( , )* =( .: % ,)( * % & N R $ & N )* ,2 $ K @ > L 8 S A ( T B )*/$&,!)*!,2)&!,$12*(#(GD!%*3!2%/$!,$&,$3!:%*D!(=!,2$!A+##&!&$##)*G;!*(,$3!)*!,2$).!#(,!)*=(.:%,)(*!%&!NR$&N!)*!,2$!K@>!L8S!A(TB!! ! DELIVERY: UU.$$!3$#)/$.D!)&!(==$.$3!(*!&%#$!A+##&!F),2)*!VL8!:)#$&!(=!<%*2%,,%*;!%*3!F),2)*!I88!:)#$&!(=!<%*2%,,%*!(*!,2$! DELIVERY .$$ 3$#)/$.D )& (==$.$3 (* &%#$ A+##& F),2)* VL8 :)#$& (= <%*2%,,%*; %*3 F),2)* I88 :)#$& (= <%*2%,,%* (* ,2$ 11(FW1%#=!H%).&B!!-*!,2$!)*,$.$&,!(=!%..%*G)*G!$==)1)$*,!.(+,$&;!3$#)/$.D!AD!-./)*$!0%*12!:%D!(11+.!%!=$F!3%D&!%=,$.!&%#$!3%DB!!-./)*$!0%*12! ( F W 1 % #= H % ).& B -* ,2 $ )* ,$ .$ & , ( = % ..% * G )* G $ ==)1 )$ * , .( + ,$ & ; 3 $ #)/ $ .D A D -./ )* $ 0 % * 1 2 : % D ( 1 1 + . % =$ F 3 % D & % =,$ . & % #$ 3 % D B -./ )* $ 0 % * 1 2 F )## =$ $ 3 % * 3 2 ( + & $ ,2 $ % * ): % #& 3 + .)* G ,2 )& ,): $ ; % , * ( 1 2 % .G $ B > & % #F % D & ; F $ .$ 1 ( : : $ * 3 ,2 % , D ( + )* & + .$ D ( + . H + .1 2 % & $ X& YB -= D ( + % .$ F)##!=$$3!%*3!2(+&$!,2$!%*):%#&!3+.)*G!,2)&!,):$;!%,!*(!12%.G$B!!>&!%#F%D&;!F$!.$1(::$*3!,2%,!D(+!)*&+.$!D(+.!H+.12%&$X&YB!!-=!D(+!%.$! 11(*&)3$.)*G!%!#(*G!3)&,%*1$!H+.12%&$;!H#$%&$!1(*,%1,!+&!)*!%3/%*1$!(=!,2$!&%#$!)=!D(+!F(+#3!#)Z$!%*!$&,):%,$!(=!3$#)/$.D!1(&,B!!! ( * & )3 $ .)* G % #( * G 3 )& ,% * 1 $ H + .1 2 % & $ ; H #$ % & $ 1 ( * ,% 1 , + & )* % 3 / % * 1 $ ( = ,2 $ & % #$ )= D ( + F ( + #3 #)Z $ % * $ & ,): % ,$ ( = 3 $ #)/ $ .D 1 ( & ,B IIrvine r v in e R anch w ill ooffer ffer a $$50 50 D iscount/Lot ffor or B u y e r ’s p uy ic k in g u p ttheir h e ir p urchase aatt IIrvine r v in e R anch h e a d q u a r te r s b y 111/10/2012. 1 /1 0 /2 0 1 2 . Ranch will Discount/Lot Buyer’s picking up purchase Ranch headquarters by DISPOSITION D ISPOSITION GUARANTEE: GUARANTEE: --./)*$!0%*12!/%#+$&!$%&D!,(!2%*3#$!1%,,#$!%*3!F$!Z*(F!D(+!3(!,(([!!Q$!2%/$!&$#$1,$3! ./ )* $ 0 % * 1 2 / % #+ $ & $ % & D ,( 2 % * 3 #$ 1 % ,,#$ % * 3 F $ Z * ( F D ( + 3 ( ,( ( [ Q $ 2 % / $ & $ #$ 1 ,$ 3 1 % #: 1 % ,,#$ =( . : % * D D $ % .& ; % & & 2 ( + #3 A $ $ / )3 $ * , F 2 $ * D ( + F % #Z ,2 .( + G 2 ,2 $ & % #$ H $ * & B Q $ & ,% * 3 A $ 2 )* 3 ,2 $ 3 )& H ( & ),)( * & ( * ,2 $ A + ##& B 1%#:!1%,,#$!=(.!:%*D!D$%.&;!%&!&2(+#3!A$!$/)3$*,!F2$*!D(+!F%#Z!,2.(+G2!,2$!&%#$!H$*&B!!Q$!&,%*3!A$2)*3!,2$!3)&H(&),)(*&!(*!,2$!A+##&B!! @ ( ,$ )* ,2 $ A + ## #( , )* =( .: % ,)( * ,2 $ N K ( 1 )#),D P ? 1 ( .$ B C 2 )& & 1 ( .$ )& A % & $ 3 + H ( * ( + . )* ,$ .% 1 ,)( * & F ),2 ,2 $ A + ##& ,( 3 % ,$ B S $ $ H )* : )* 3 @(,$!)*!,2$!A+##!#(,!)*=(.:%,)(*!,2$!NK(1)#),DP!?1(.$B!!C2)&!&1(.$!)&!A%&$3!+H(*!(+.!)*,$.%1,)(*&!F),2!,2$!A+##&!,(!3%,$B!!S$$H!)*!:)*3! ,2 % , % & % * ): % #& G $ , ( #3 $ .; ( . F ),2 2 % * 3 #)* G ; ,2 )& 1 % * ( 1 1 % & )( * % ##D 1 2 % * G $ B > #& ( ; A $ % . )* : )* 3 ,2 $ & $ % .$ A )G % * ): % #& ,2 % , 3 $ & $ ./ $ .$ & H $ 1 , ,2%,!%&!%*):%#&!G$,!(#3$.;!(.!F),2!2%*3#)*G;!,2)&!1%*!(11%&)(*%##D!12%*G$B!!>#&(;!A$%.!)*!:)*3!,2$&$!%.$!A)G!%*):%#&!,2%,!3$&$./$!.$&H$1,! .$ G % .3 #$ & & ( = 3 ( 1 )#),D & 1 ( .$ B ? 1 ( .$ & ( = I % * 3 V % .$ ,2 $ $ % & )$ & , ,( 2 % * 3 #$ A + ##& B 6 E& % .$ : % * % G $ % A #$ ; A + , ,2 $ A + ## 2 % & & 2 ( F * ,( A $ : ( .$ .$G%.3#$&&!(=!3(1)#),D!&1(.$B!!?1(.$&!(=!I!%*3!V!%.$!,2$!$%&)$&,!,(!2%*3#$!A+##&B!!6E&!%.$!:%*%G$%A#$;!A+,!,2$!A+##!2%&!&2(F*!,(!A$!:(.$! * $ ./ ( + & B < ( . $ )* =( .: % ,)( * ( * ,2 $ & 1 ( .)* G & D & ,$ : )& % / % )#% A #$ )* ,2 $ G #( & & % .D B ! *$./(+&B!!<(.$!)*=(.:%,)(*!(*!,2$!&1(.)*G!&D&,$:!)&!%/%)#%A#$!)*!,2$!G#(&&%.DB WINTER W INTER CARE: CARE: --=!D(+!%.$!*(,!.$%3D!,(!,%Z$!D(+.!A+##X&Y!%,!&%#$!,):$;!-./)*$!0%*12!(==$.&!%!Q)*,$.!9%.$!H.(G.%:!+*,)#!>H.)#!I;! = D ( + % .$ * ( , .$ % 3 D ,( ,% Z $ D ( + . A + ##X& Y % , & % #$ ,): $ ; -./ )* $ 0 % * 1 2 ( ==$ .& % Q )* ,$ . 9 % .$ H .( G .% : + * ,)# > H .)# I ; V8I6; =(. \6B88W3%DB C2$.$ F)## A$ *( G+%.%*,$$ %G%)*&, )*'+.D (. 3$%,2 (,2$. ,2%* F$ %&&+.$ D(+ ,2%, 1%.$ (= ,2$ A+##& F)## A$ ,( ,2$ V8I6;!=(.!\6B88W3%DB!!C2$.$!F)##!A$!*(!G+%.%*,$$!%G%)*&,!)*'+.D!(.!3$%,2!(,2$.!,2%*!F$!%&&+.$!D(+!,2%,!1%.$!(=!,2$!A+##&!F)##!A$!,(!,2$! A $ & , ( = ( + . % A )#),D B Q $ .$ 1 ( : : $ * 3 ,2 % , D ( + H .( ,$ 1 , D ( + . )* / $ & ,: $ * , F ),2 )* & + .% * 1 $ B > ## A + ##& 1 % * A $ Z $ H , =.$ $ ( = 1 2 % .G $ + * ,)# A$&,!(=!(+.!%A)#),DB!!Q$!.$1(::$*3!,2%,!D(+!H.(,$1,!D(+.!)*/$&,:$*,!F),2!)*&+.%*1$B!>##!A+##&!1%*!A$!Z$H,!=.$$!(=!12%.G$!+*,)#! @ ( / $ : A $ . I 8 ; V 8 I V ; F ),2 ,2 $ 3 % )#D 1 2 % .G $ A $ G )* * )* G ,2 )& 3 % ,$ B @(/$:A$.!I8;!V8IV;!F),2!,2$!3%)#D!12%.G$!A$G)**)*G!,2)&!3%,$B! DISEASE D IS E A S E C CONTROL: ONTROL: K)&&$%&$!)&!%!=%1,(.!,2%,!1%*!%==$1,!,2$!A(,,(:!#)*$!#)Z$!G$*$,)1&B!!Q$!%.$!F(.Z)*G!,(!,2$!A$&,!(=!(+.! $ % & $ )& % =% 1 ,( . ,2 % , 1 % * % ==$ 1 , ,2 $ A ( ,,( : #)* $ #)Z $ G $ * $ ,)1 & B Q $ % .$ F ( .Z )* G ,( ,2 $ A $ & , ( = ( + . %A)#),D!,(!H.(/)3$!1#$%*!1%,,#$B!!>##!A+##&!%*3!1(F&!&$##)*G!2%/$!,$&,$3!*$G%,)/$!=(.!]^KO"-!%*3!]_^!X_$+Z(&)&YB!!C(!,2$!A$&,!(=!(+.! % A )#),D ,( H .( / )3 $ 1 #$ % * 1 % ,,#$ B > ## A + ##& % * 3 1 ( F & & $ ##)* G 2 % / $ ,$ & ,$ 3 * $ G % ,)/ $ =( . ] ^ K O" - % * 3 ] _ ^ X_ $ + Z ( & )& YB C ( ,2 $ A $ & , ( = ( + . Z * ( F #$ 3 G $ F $ % .$ =.$ $ ( = `( 2 * $ E& ; 2 % / )* G ,$ & , ,2 $ 2 $ .3 ,2 $ #% & , ,2 .$ $ & H .)* G & B > ## ( = ,2 $ 1 ( F & & $ ##)* G F $ .$ 1 % #=2 ( ( 3 / % 1 1 )* % ,$ 3 =( . Z*(F#$3G$!F$!%.$!=.$$!(=!`(2*$E&;!2%/)*G!,$&,!,2$!2$.3!,2$!#%&,!,2.$$!&H.)*G&B!!>##!(=!,2$!1(F&!&$##)*G!F$.$!1%#=2((3!/%11)*%,$3!=(.! A .+ 1 $ ##( & )& B > ## A + ##& & $ ##)* G % .$ / ).G )* A + ##& B A.+1$##(&)&B!!>##!A+##&!&$##)*G!%.$!/).G)*!A+##&B!! !

IRVINE RANCH BREEDING GUARANTEE AND SALE TERMS

All bulls in this sale have passed a breeding soundness evaluation by Dr. Shelie Laflin, KSU Medical Teaching Hospital. If a bull becomes a non-breeder within 12 months of his purchase, Irvine Ranch will either provide you with a suitable replacement, if one is available, or provide you with a credit equal to the bull’s purchase price less his salvage value. This guarantee does not apply to bulls that die, are killed, or are injured through no fault of Irvine Ranch. It is recommended that if you use your bull for the first time in the spring of 2013, he should be re-evaluated for breeding soundness prior to breeding time. Irvine Ranch offers this guarantee in addition to the American Simmental Association suggested Sale Terms and Conditions. The ASA suggested Sale Terms and Conditions will be available for your review on sale day, and can be found at: www.irvineranchgenetics.com

In our effort to provide both quality breeding genetics and customer service, we ask that you let us know if you are not satisfied with your purchase for any reason.


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

!"#$%&'()*+,*-%./*!%00./*0"*01/*2&//3*4 5677*89:8 ;<=


IRVINE RANCH - BREED LEADING GENETIC MERIT IR RANGE BOSS Y623

>AF # ASA #:

$(&*++#

BIRTH DATE *!&!$"## ACT BW (* ADJ WW ("' ADJ YW #$$#

CALVING SCORE #

TEST GAIN

RATIO

& *%

#"# ADJ ADJ FRAME SCROTAL '$ %( ' DNA 50K K7E POLLED BB COLOR 44 DOCILITY $ +" IMF RATIO #)# BF RATIO ##" RE RATIO

LOT 1 ~ IR RANGE BOSS Y623 IR LATIGO Y624

>AF $ ASA #:

$(&*++$

BIRTH DATE *!#%!$"## ACT BW +$ ADJ WW )&( ADJ YW #%*%

CALVING SCORE #

TEST GAIN

RATIO

RATIO 7F RATIO 7F RATIO 7F

' %%

### ADJ ADJ FRAME SCROTAL (* %' * DNA 50K K7E POLLED BB COLOR 44 DOCILITY $ *$ IMF RATIO +' BF RATIO ++ RE RATIO

F< ')< F:7 93?4>7D 6;=7?3@E EGD7 47F $$+&$($ ?793@ +? E E A4<75F;H7 F'#" "F$( ;D ?E H;7@@3 G")% $'%)$($ ;D ?E @A <A=7 ?))(

TATTOO:

ASA #:

$(&*+)#

BIRTH DATE *!#'!$"## ACT BW *' ADJ WW '+) ADJ YW #$%$

CALVING SCORE #

TEST GAIN

RATIO

RATIO 7F RATIO 7F RATIO 7F

#$# ADJ ADJ FRAME SCROTAL ($ %) + DNA 50K K7E POLLED BB COLOR 44 DOCILITY $ ##) IMF RATIO #$% BF RATIO #"% RE RATIO

F< ')< F:7 93?4>7D 6;=7?3@E EGD7 47F $$+&$($ ?793@ +? E E A4<75F;H7 F'#" "F$( ;D ?E H;7@@3 G")% $'%)$($ ;D ?E @A <A=7 ?))(

6;=7?3@E EGD7 47F $$+&$($ ?793@ +? E E A4<75F;H7 F'#" "F$( ;D ?E H;7@@3 G")% $'%)$($ ;D ?E @A <A=7 ?))(

9I >G5=K 6;57 #*): 4>35= =3>>; E E FD3H7>7D (*") F'#" E E ?;EE D;F3 D"## )D* BH848 48$( 4>35= <A=7D ;D ?E H;7@@3 :('*

EXPECTED PROGENY DIFFERENCES-SIMMENTAL MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC #% + # & (* #") ' $+ (% #% + CW YG MAR BF REA SHR API TI $$ ( " $) " '& " "& # &$ " %& #&( *( DS`YW 4aee ZSe TWW` S ^a`Y f[_W efS`Vagf [` fZ[e Ydagb aX Tg^^e efSU]WV Xad bWdXad_S`UW :W ZSe bafW`f[S^ fa Ua_T[`W US^h[`Y WSeW S`V _geU^W ^[]W `a afZWd Fagf[`Y S` aXX fZW UZSdf D[TWkW 7B6 K($% bSU]e [` _geU^W [` S TS^S`UWV iSk Xda_ Xda`f fa dWSd cgSdfWd fab Vai` fa ^aiWd cgSdfWd ;X Z[e VSgYZfWde ^aa] S`kfZ[`Y ^[]W Z[e VS_ fZWk eZag^V TW agfefS`V[`Y IW b^S` fa Ua^^WUf DS`YW 4aee bd[ad fa fZW eS^W Xad [` ZWdV geW

9I >G5=K 6;57 #*): 4>35= =3>>; E E FD3H7>7D (*") F'#" E E ?;EE D;F3 D"## )D* BH848 48$( 4>35= <A=7D ;D ?E H;7@@3 :('*

TATTOO:

LOT 2 ~ IR LATIGO Y624

K'+$

:3DFE 4>35= 53E;@A 4&"* F< @7>>;7 '(5 9I >G5=K 6;57 #*): 4>35= =3>>; E E FD3H7>7D (*") F'#" E E ?;EE D;F3 D"## )D* BH848 48$( 4>35= <A=7D ;D ?E H;7@@3 :('*

EXPECTED PROGENY DIFFERENCES-SIMMENTAL MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC ## ( " % )$ ##& $ $* (& #% + CW YG MAR BF REA SHR API TI $* & " %& " )& " "" # %) " $& #&( +$ E_aafZ _SVW Tg^^ [` S _WV[g_ XdS_W i[fZ _geU^W _SdT^[`Y S`V efk^W $`V :[YZ 9S[`[`Y Tg^^ a` fWef i[fZ aXX fZW UZSdf USdUSee efSfe FZ[`] aX fZW bdaX[f bafW`f[S^ aX ai`[`Y S bW` aX Z[e US^hWe [` fZW XWWV^af S`V fZW` eW^^[`Y a` S Yd[V ;`UadbadSfW fZWeW fdS[fe TSU] [`fa kagd UaiZWdV Tk dWfS[`[`Y VSgYZfWde 5aiZS`V [e a`W Ua_b^WfW Tg^^ fZSf iW b^S` fa eS_b^W

K($%

:3DFE 4>35= 53E;@A 4&"* F< @7>>;7 '(5

K($&

EXPECTED PROGENY DIFFERENCES-SIMMENTAL MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC #$ " " ' )$ ##' % $* (& #% + CW YG MAR BF REA SHR API TI $* * " %+ " '& " "% # %& " %' #%) ** :gYW _[VV^WV Z[YZ YdaifZ Zaee aX S Tg^^ FZW VS_ aX >Sf[Ya S`V Z[e TdafZWde eW^^[`Y Se >afe # % #" ## #$ [e S`afZWd [` S ^a`Y ^[`W aX egbWd[ad Uaie Xda_ fZW H[W``S ^[`W FZ[e Uai XS_[^k W_TaV[We iZSf iW SdW efd[h[`Y fa bdaVgUW, 5S^h[`Y 7SeW DSb[V 9daifZ 5SdUSee S`V ?SfWd`S^ FdS[fe i[fZ 8Wdf[^[fk =WWb H[W``S G")% [` _[`V Xad >af &#

%!& E? #!& 3@

F< ')< F:7 93?4>7D

TATTOO:

:3DFE 4>35= 53E;@A 4&"* F< @7>>;7 '(5

IR COWHAND Y592

>AF %

' )+

%!& E? #!& 3@

RATIO 7F RATIO 7F RATIO 7F

%!& E? #!& 3@

LOT 3 ~ IR COWHAND Y592

View Bull Videos www.IrvineRanchGenetics.com (after 10/20/2012)


IRVINE RANCH- BREEDING SIMMENTALS SINCE 1968 IR CINCH Y588

>AF & ASA #:

$(&*+()

BIRTH DATE +!&!$"## ACT BW +% ADJ WW ($' ADJ YW ##'%

CALVING SCORE #

TEST GAIN

RATIO

RATIO 7F RATIO 7F RATIO 7F

& ($

+( ADJ ADJ FRAME SCROTAL ') %$ ) DNA 50K K7E POLLED BB COLOR 44 DOCILITY $ +' IMF RATIO *( BF RATIO ##) RE RATIO

B4 E?

TATTOO:

@;5:A>E >7935K 9#'# :AA=E E:73D 8AD57 $"*#+%+ 56 FD35K 9I >G5=K A@7 (*(= ;D ?E H3>;AE3 F""+ $&()")# ;D ?E H3>;AE3 >)&+

K'**

@;5:A>E 4>= 67EF;@K 6#$ @;5:A>E 674D3 6*# 5;D5>7 E >735:?3@ (""G 47FEK 9I >G5=K EFD;=7 #&)9 9E ?;EE 7> I3>>K >DE BD787DD76 EFA5= %)"5 ;D ?E 87@7>>3 8''+

EXPECTED PROGENY DIFFERENCES-SIMMENTAL MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC #' * "* () #"$ #) %( (+ $& $" " CW YG MAR BF REA SHR API TI $% % " '# " '* " "' # && " '" #(% *% ;D 5[`UZ K'** [e S fab Ugf BgdWTdWV Tg^^ 5a_bSd[`Y Z[e 7B6e fa fZW B4 bWdUW`f[^W UZSdf ZW efS`Ve Sf fZW fab aX fZW TdWWV Xad _aef WUa`a_[U fdS[fe [`U^gV[`Y 3B; S`V F; EUS``[`Y fZW T[YYWef d[TWkW [` fZW eS^W K'** [e S :a_alkYage 4^SU] ea` aX EZWSd 8adUW

LOT 6 ~ IR INCENTIVE Y559 IR INCENTIVE Y559

>AF ( ASA #:

$(&*+'$

BIRTH DATE +!#"!$"## ACT BW *" ADJ WW ("( ADJ YW ##+*

CALVING SCORE #

TEST GAIN

RATIO

RATIO #"' RATIO ##" RATIO #"*

' %#

### ADJ ADJ FRAME SCROTAL '% %( + DNA 50K K7E POLLED BB COLOR 44 DOCILITY $ (& IMF RATIO #"" BF RATIO #"' RE RATIO

LOT 4 ~ IR CINCH Y588 IR MANIFEST Y591

>AF ' ASA #:

$(&*+)"

BIRTH DATE *!$&!$"## ACT BW +$ ADJ WW (+# ADJ YW #$)*

CALVING SCORE #

TEST GAIN

RATIO

RATIO +) RATIO #$( RATIO ##'

#!$ E? #!$ 3@

@;5:A>E >7935K ?)$ @;5:A>E ?3@;87EF F)+ $&#('&) @;5:A>E ?5? @#% @ 43D BD;?7 F;?7 6*"( ;D ?E BD;?7 F;?7 G"#+

K'+#

@;5:A>E >7935K 9#'# @;5:A>E 93> 9&$ 9I >G5=K 6;57 #*): @;5:A>E ?5? 9)) 93D67@E BD;?7 F;?7 @ 43D ?;EE 7?G>AGE 3&"&

$'%)$%) ;D ?E D7F BDA6G5F D*+" 9 3 D D7F3;> BDA6G5F ; D ?E 7JF FD3H7>7D <(*'

EXPECTED PROGENY DIFFERENCES-SIMMENTAL ##$ ADJ MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC ADJ FRAME SCROTAL (+ %( % ## & "& )% #$& #$ $% '+ #$ " DNA 50K K7E CW YG MAR BF REA SHR API TI POLLED BB %( $ " #* " )( " "+ " ') " %% #'$ ** COLOR 44 E[_3`Yge Tg^^ i[fZ WjUW^^W`f bWdXad_S`UW S`V USdUSee dSf[ae K'+# [e ^a`Y TaV[WV S`V SffdSUf[hW DOCILITY $ ##' IMF RATIO $$) BF RATIO #"$ RE RATIO ' %(

E E A4<75F;H7 F'#" "F$( ;D ;@57@F;H7 G%*+ $&+%$#( ;D ?E @A <A=7 ?))( 9I >G5=K ?3@ (&&@ ;D ?E >G5=K ?3@ I"+$ $')"'+' ;D ?E B3?B>A@3 F+)%

TATTOO:

ASA #:

$(&+"%#

BIRTH DATE &!#'!$"## ACT BW *' ADJ WW '(* ADJ YW #"()

CALVING SCORE #

TEST GAIN

RATIO

RATIO #"" RATIO #"" RATIO #""

K''+

E E FD3H7>7D (*") F'#" E E ?;EE D;F3 D"## )D* BH848 48$( 4>35= <A=7D ;D ?E H;7@@3 :('* 9I >G5=K 5:3D? (('= 9I ?;EE (""G +(&< 9I >G5=K 6;57 #*): ;D ?E 83@5K EFA5= ?))+

EXPECTED PROGENY DIFFERENCES-SIMMENTAL MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC #' ) # & )) #%# ## %$ )# #" ' CW YG MAR BF REA SHR API TI %) % " $( " #& " "& " +) " #( #&# *& 7jUW^^W`f YS[`[`Y ;`UW`f[hW ea` K''+ Ua_T[`We S _aVWdSfW T[dfZ iW[YZf S`V YaaV 57 7B6 i[fZ S KWSd^[`Y IW[YZf 7B6 dS`][`Y [` fZW Fab # @ai fZSfe S dSdW Ua_T[`Sf[a` FdW_W`Vage USbSU[fk S`V _geU^W [` S _aVWdSfW XdS_W

IR INCENTIVE Y526

>AF ) TATTOO:

%!& E? #!& 3@

#!$ E? #!$ 3@ 4G>>

E E A4<75F;H7 F'#" "F$( ;D ;@57@F;H7 G%*+ $&+%$#( ;D ?E @A <A=7 ?))( 9I >G5=K A@7 (*(= ;D ?E >3GE3@@7 E+'$ $&$"+#* 8;@=E ?;EE $#"+ *%#' %$%

TATTOO:

K'$(

E E FD3H7>7D (*") F'#" E E ?;EE D;F3 D"## )D* BH848 48$( 4>35= <A=7D ;D ?E H;7@@3 :('* 9I >G5=K EFD;=7 #&)9 9E ?;EE 7> I3>>K 4D @7I 67E;9@ %$% 8;@=E ?;EE *%#' &#(*(#&*

EXPECTED PROGENY DIFFERENCES-SIMMENTAL #$& ADJ MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC ADJ FRAME SCROTAL '' %( " #& " # # (" #"$ #" $+ '+ ## # DNA 50K K7E CW YG MAR BF REA SHR API TI POLLED BB $" * " %) " )$ " "' " ++ " #& #'' *% COLOR 44 #* _a`fZ a^V Tg^^ fZSf YS[`WV '"" ^Te iZ[^W a` fZW *& VSk fWef :[e VS_ E+'$ [e _aVWdSfW S`V VWWb i[fZ YdWSf gVVWd efdgUfgdW DOCILITY $ IMF RATIO #"" BF RATIO #"" RE RATIO #"" ' +'

DNA 50K enhanced EPD's


IRVINE RANCH - DOCUMENTED FEED EFFICIENCY IR INCENTIVE Y551

>AF * ASA #:

$(&*+&+

BIRTH DATE *!$+!$"## ACT BW )* ADJ WW '$* ADJ YW #"+%

CALVING SCORE #

TEST GAIN

RATIO

RATIO #") RATIO +( RATIO ++

& (&

+) ADJ ADJ FRAME SCROTAL '$ %% + DNA 50K K7E POLLED BB COLOR 44 DOCILITY # #"# IMF RATIO +% BF RATIO ##& RE RATIO

>AF + ASA #:

$(&*+*&

BIRTH DATE *!)!$"## ACT BW *( ADJ WW ('$ ADJ YW #$'*

CALVING SCORE #

TEST GAIN

RATIO

RATIO 7F RATIO 7F RATIO 7F

E E A4<75F;H7 F'#" "F$( ;D ;@57@F;H7 G%*+ $&+%$#( ;D ?E @A <A=7 ?))(

TATTOO:

K''#

E E FD3H7>7D (*") F'#" E E ?;EE D;F3 D"## )D* BH848 48$( 4>35= <A=7D ;D ?E H;7@@3 :('*

:AA=E E:73D 8AD57 %*= @;5:A>E >7935K 9#'# ;D ?E E:73D 8AD57 I"*'

56 FD35K

$')"'+# ;D ?E >G5=K 5:3D? F+*# 9I >G5=K 5:3D? (('= 9I ?;EE >G5=K 4G5= +"(<

BIRTH DATE +!$*!$"## ACT BW *" ADJ WW ("+ ADJ YW ##&%

CALVING SCORE #

TEST GAIN

RATIO

& )&

RATIO 7F RATIO 7F RATIO 7F

++ ADJ ADJ FRAME SCROTAL '" %) ( DNA 50K K7E POLLED BB COLOR 44 DOCILITY $ #%( IMF RATIO #(& BF RATIO +$ RE RATIO

BIRTH DATE *!#%!$"## ACT BW *& ADJ WW '$$ ADJ YW ##$'

CALVING SCORE #

TEST GAIN

RATIO

RATIO 7F RATIO 7F RATIO 7F

%!& E? #!& 3@

F< ')< F:7 93?4>7D 6;=7?3@E EGD7 47F $$+&$($ ?793@ +? E E A4<75F;H7 F'#" "F$( ;D ?E H;7@@3 G")% $'%)$($ ;D ?E @A <A=7 ?))(

TATTOO:

K'*"

:3DFE 4>35= 53E;@A 4&"* F< @7>>;7 '(5 9I >G5=K 6;57 #*): 4>35= =3>>; E E FD3H7>7D (*") F'#" E E ?;EE D;F3 D"## )D* BH848 48$( 4>35= <A=7D ;D ?E H;7@@3 :('*

IR OBJECTIVE Y611

>AF #$

#!$ E? #!$ 3@

E E FD3H7>7D (*") F'#" E E A4<75F;H7 F'#" "F$( $%*(&*( E E ?;EE D;F3 D"## )D*

TATTOO:

K(##

6 : 6 FD3H7>7D (*") E E ?;EE :; EB367 3##& E E D;FA D;FA D)( D"## E E ?;EE G>FD7EE G'(

>DE BD787DD76 EFA5= %)"5;D5>7 E >735:?3@ (""G ;D ?E 83@5K EFA5= ?))+ $$%**#" ;D ?E 4A>6 5;E5A :((#

>3E ?;EE BD;@57EE "$"L 7D 4>35= 5;E5A '%$5 ;D ?E 4A>68>75= 8'(%

IR EXPEDITION Y600 $(&*+))

$(&*+($

EXPECTED PROGENY DIFFERENCES-SIMMENTAL ### ADJ MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC ADJ FRAME SCROTAL '' %' * #% ) # ' (+ #"+ & $+ (& #% + DNA 50K K7E CW YG MAR BF REA SHR API TI POLLED BB $% + " %$ " '% " "# # #+ " $$ #&' ** COLOR 44 8g^^ X^geZ TdafZWd fa >afe # $ % 7jUW^^W`f YS[` a` fWef DOCILITY $ *% IMF RATIO #"' BF RATIO +) RE RATIO

EXPECTED PROGENY DIFFERENCES-SIMMENTAL #"( ADJ MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC ADJ FRAME SCROTAL )$ %' ( #& ' " + )& #$" + %$ (+ #" ' DNA 50K CW YG MAR BF REA SHR API TI POLLED BB %# # " $( " %+ " "' " )+ " #* #&# *& COLOR 4T :[YZ YdaifZ E[_3`Yge Tg^^ i[fZ S ^af aX efdWfUZ 3 Xg^^ TdafZWd ea^V fa 6S^^Se =adfW >SfZS_ =E [` agd $"#" eS^W DOCILITY $ *$ IMF RATIO +" BF RATIO +) RE RATIO

ASA #:

ASA #:

EXPECTED PROGENY DIFFERENCES-SIMMENTAL MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC $" # $ * (' #"' #% %% (' #$ * CW YG MAR BF REA SHR API TI #+ ) " '& " '" " ") # %* " $+ #)( ** I[fZ fZW ;`UW`f[hW J EZWSd 8adUW bWV[YdWW S`V $" 57 7B6 K''# eZag^V iad] a` ZW[XWde HWdk YaaV g^fdSeag`V eUS` i[fZ a`W aX fZW ^SdYWef d[TWkW!Uif [` fZW eS^W :[e VS_ I"*' [e fZW # BgdWTdWV E[__W`fS^ 5ai [` fZW TdWWV Xad 3B;

' #"

>AF #"

IR SURE BET Y580

>AF ##

%!& E? #!& 3@ 4G>>

'!* E? %!* 3@

F@F 6G3> 8A5GE F$&+ ;D 7JB76;F;A@ I&#% $'&%$)+ ;D ?E H3>;AE3 D*** E E A4<75F;H7 F'#" "F$( ;D ?E H;7@@3 G")% $'%)$($ ;D ?E @A <A=7 ?))(

TATTOO:

' %#

IR MANIFEST Y599

ASA #:

$(&*+)(

BIRTH DATE #"!#)!$"## ACT BW *+ ADJ WW '") ADJ YW #"))

CALVING SCORE #

TEST GAIN

RATIO

RATIO #"" RATIO +$ RATIO +)

%!& E? #!& 3@

@;5:A>E >7935K ?)$ @;5:A>E ?3@;87EF F)+ $&#('&) @;5:A>E ?5? @#% E E A4<75F;H7 F'#" "F$( ;D ?E H;7@@3 G")% $'%)$($ ;D ?E @A <A=7 ?))(

K'++

@;5:A>E >7935K 9#'# @;5:A>E 93> 9&$ 9I >G5=K 6;57 #*): @;5:A>E ?5? 9)) E E FD3H7>7D (*") F'#" E E ?;EE D;F3 D"## )D* BH848 48$( 4>35= <A=7D ;D ?E H;7@@3 :('*

EXPECTED PROGENY DIFFERENCES-SIMMENTAL ++ ADJ MAT MAT MAT ADJ FRAME SCROTAL CE BW WW YW CE MILK WW STAY DOC '" %% % #" + " & (' #"& ## $) (" ** DNA 50K CW YG MAR BF REA SHR API TI POLLED BB $$ ) " %$ " )+ " "$ # #% " $* #') ** COLOR 44 @SfgdS^ US^X agf aX H[W``S G")% S^ea VS_ aX >afe # $ % #" S`V ## K'++ [e fZW kag`YWef Tg^^ [` fZW eS^W 5ZWU] agf Z[e g^fdSeag`V DOCILITY $ eUS` S`V USdUSee 7B6e #&% IMF RATIO #") BF RATIO #"% RE RATIO & )(

K(""

?KFFK ;@ 8A5GE F@F ?;EE D)) 9I >G5=K A@7 (*(= ;D ?E H3>;AE3 >)&+ E E FD3H7>7D (*") F'#" E E ?;EE D;F3 D"## )D* BH848 48$( 4>35= <A=7D ;D ?E H;7@@3 :('*

EXPECTED PROGENY DIFFERENCES-SIMMENTAL MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC #% + " ) )" ##' + %$ () #$ " CW YG MAR BF REA SHR API TI $* * " ") " *( " "% " *$ " $& #($ +# K("" [e fZW X[def aX fZdWW _adW ea`e aX ;D H[W``S G")% VS_ S^ea aX >afe # $ % ?aVWdSfW [` efSfgdW kWf ^a`Y TaV[WV i[fZ USbSU[fk Fab # 3B; S`V F; :W [e agd X[def ea` aX ;D 7jbWV[f[a` I&#% fa eW^^ fZW Z[YZ eW^^[`Y Tg^^ aX $"#" fa 5ai 5S_b DS`UZ 7jbWV[f[a` [e W`da^^WV [` fZW 3E3 5SdUSee ?Wd[f BdaYdS_

TATTOO:

LOT 10 ~ IR EXPEDITION Y600

More Vienna U073 Sons


IRVINE RANCH - SIMMENTAL, SIM-ANGUS, ANGUS GENETICS IR SHEAR FORCE Y584

>AF #% ASA #:

$(&*+(%

BIRTH DATE +!#"!$"## ACT BW +$ ADJ WW ')% ADJ YW ##%+

CALVING SCORE #

TEST GAIN

RATIO

RATIO +* RATIO #"& RATIO #"%

B4 E?

@;5:A>E >7935K 9#'# :AA=E E:73D 8AD57 $"*#+%+ 56 FD35K >DE D76 D73>;FK %%< ;D ?E D73>;FK ?))) $$%**"+ ;D ?E 4A>6F;?7 8''*

IR MANIFEST Y616

>AF #' TATTOO:

K'*&

@;5:A>E 4>= 67EF;@K 6#$ @;5:A>E 674D3 6*# 5;D5>7 E >735:?3@ (""G 47FEK BBED 5A3> 4>35= ('8 >DE ?E BD786 EFA5= )#'9 6E 53G8;F;?7 F&# )$J ;D ?E 4A>68>75= 3%"&

EXPECTED PROGENY DIFFERENCES-SIMMENTAL #"$ ADJ MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC ADJ FRAME SCROTAL () %$ & #' * " ) (+ #"( #& $) (# $# #& * DNA 50K CW YG MAR BF REA SHR API TI POLLED BB $$ * " %+ " &( " "$ # %# " %+ #'' *$ COLOR 4T BgdWTdWV Tg^^ i[fZ Fab # 3B; S`V F; `g_TWde S`V S` WjUW^^W`f g^fdSeag`V eUS` ;D ?E DWS^[fk ?))) ZSe ( `SfgdS^ US^hWe fZgeXSd DOCILITY $ i[fZ ShWdSYW bdaVgUf[a` dSf[ae aX, 4I #"$ II #"* KI ##$ ;?8 ##( IMF RATIO #"$ D7 ##) EZW [e S^ea fZW VS_ aX ;D 4W^^iWfZWd F%"" fZW Z[YZ #'% BF RATIO eW^^[`Y Tg^^ [` agd $""* eS^W fa IWef @aVSiSk E[__W`fS^e ?A ##& RE RATIO & +"

ASA #:

$(&*+*)

BIRTH DATE *!%#!$"## ACT BW *( ADJ WW (%# ADJ YW #$$'

CALVING SCORE #

TEST GAIN

RATIO

RATIO 7F RATIO 7F RATIO 7F

%!& E? #!& 3@

@;5:A>E >7935K ?)$ @;5:A>E ?3@;87EF F)+ $&#('&) @;5:A>E ?5? @#% 9 3 D D7F3;> BDA6G5F ;D ?E H;7@@3 E+&$ $&$"+%$ ;D ?E @A <A=7 ?))(

TATTOO:

K(#(

@;5:A>E >7935K 9#'# @;5:A>E 93> 9&$ 9I >G5=K 6;57 #*): @;5:A>E ?5? 9)) 9 3 D BD75;E;A@ #(*" 9 3 D 7JF &+$) BH848 48$( 4>35= <A=7D ;D ?E H;7@@3 :('*

EXPECTED PROGENY DIFFERENCES-SIMMENTAL #"( ADJ MAT MAT MAT ADJ FRAME SCROTAL CE BW WW YW CE MILK WW STAY DOC )" %* " +( "% (* ##' #$ $) ($ #" " DNA 50K CW YG MAR BF REA SHR API TI POLLED BB %" % " $$ " (' " "# # "" " &# #&) *( COLOR 44 3`afZWd H[W``S E+&$ ea` i[fZ WjUW^^W`f dSf[ae #" ea`e aX E+&$ eW^^[`Y [` agd ^Sef fia eS^We ShWdSYWV ahWd &$"" FZW XWdf[^[fk [` DOCILITY $ fZWeW H[W``S Tg^^e [e SbbSdW`f Sf eW_W` UZWU] f[_W ### IMF RATIO #"" BF RATIO #") RE RATIO ' #"

IR MANIFEST Y617

>AF #( ASA #:

$(&*+**

BIRTH DATE +!(!$"## ACT BW ** ADJ WW ()( ADJ YW #$#"

CALVING SCORE #

TEST GAIN

RATIO

RATIO 7F RATIO 7F RATIO 7F

%!& E? #!& 3@

@;5:A>E >7935K ?)$ @;5:A>E ?3@;87EF F)+ $&#('&) @;5:A>E ?5? @#% 9 3 D D7F3;> BDA6G5F ;D ?E H;7@@3 E+&$ $&$"+%$ ;D ?E @A <A=7 ?))(

TATTOO:

K(#)

@;5:A>E >7935K 9#'# @;5:A>E 93> 9&$ 9I >G5=K 6;57 #*): @;5:A>E ?5? 9)) 9 3 D BD75;E;A@ #(*" 9 3 D 7JF &+$) BH848 48$( 4>35= <A=7D ;D ?E H;7@@3 :('*

EXPECTED PROGENY DIFFERENCES-SIMMENTAL +# ADJ MAT MAT MAT ADJ FRAME SCROTAL CE BW WW YW CE MILK WW STAY DOC )& %+ ) +( "% (* ##' #$ $) ($ #" " DNA 50K CW YG MAR BF REA SHR API TI POLLED BB %" % " #+ " '+ " "$ " *& " &# #&% *& COLOR 44 E+&$ ea` i[fZ S ^SdYW eUdafS^ _WSegdW_W`f GeW K(#) fa SVV XdS_W fa S Ydagb aX e_S^^Wd Uaie DOCILITY $ #"% IMF RATIO *( BF RATIO +( RE RATIO & %*

IR MS VIENNA S942 - Dam of Lots 14, 15, 16. IR SHEAR FORCE Y561

>AF #& ASA #:

$(&*+'%

BIRTH DATE +!$)!$"## ACT BW +& ADJ WW (&# ADJ YW #$"$

CALVING SCORE #

TEST GAIN

RATIO

& +%

RATIO +) RATIO ##) RATIO #"*

#"% ADJ ADJ FRAME SCROTAL (* %( ' DNA 50K K7E POLLED BB COLOR 44 DOCILITY $ *$ IMF RATIO #") BF RATIO ##$ RE RATIO

%!& E? #!& 3@

@;5:A>E >7935K 9#'# :AA=E E:73D 8AD57 $"*#+%+ 56 FD35K 9 3 D D7F3;> BDA6G5F ;D ?E H;7@@3 E+&$ $&$"+%$ ;D ?E @A <A=7 ?))(

IR SHEAR FORCE Y598

>AF #) TATTOO:

K'(#

@;5:A>E 4>= 67EF;@K 6#$ @;5:A>E 674D3 6*# 5;D5>7 E >735:?3@ (""G 47FEK 9 3 D BD75;E;A@ #(*" 9 3 D 7JF &+$) BH848 48$( 4>35= <A=7D ;D ?E H;7@@3 :('*

EXPECTED PROGENY DIFFERENCES-SIMMENTAL MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC #* ( # & (+ ### #& %% () #' ( CW YG MAR BF REA SHR API TI $' % " %' " &* " "$ # $* " *$ #(+ *( Kag i[^^ `af[UW [` fZ[e USfS^aY fZSf fZW H[W``S ^[`W Va_[`SfWe fZW Taffa_ e[VW aX fZW bWV[YdWWe IW ZShW lWdaWV [` a` fZ[e XS_[^k TWUSgeW aX fZW[d Ua`e[efW`Uk [` fdS`e_[ff[`Y US^h[`Y WSeW dSb[V YdaifZ USdUSee S`V _SfWd`S^ fdS[fe K'(# [e S `SfgdS^ US^X aX E+&$ i[fZ WjUW^^W`f bWdXad_S`UW bWV[YdWW S`V 7bVe :[e TdafZWd ;D 8^[`fZ[^^e J'%' iSe fZW Z[YZ eW^^[`Y Tg^^ [` agd $"## eS^W

ASA #:

$(&*+)'

BIRTH DATE +!$%!$"## ACT BW *) ADJ WW '"* ADJ YW #"&)

CALVING SCORE #

TEST GAIN

RATIO

RATIO 7F RATIO 7F RATIO 7F

& $+

+" ADJ ADJ FRAME SCROTAL (" %& & DNA 50K K7E POLLED BB COLOR 4T DOCILITY $ (' IMF RATIO (& BF RATIO +& RE RATIO

Sons of Vienna S942

%!& E? #!& 3@

@;5:A>E >7935K 9#'# :AA=E E:73D 8AD57 $"*#+%+ 56 FD35K 9 3 D D7F3;> BDA6G5F ;D ?E D7F3;> BDA6 E+%% $%*&)$# ;D ?E @A <A=7 ?))(

TATTOO:

K'+*

@;5:A>E 4>= 67EF;@K 6#$ @;5:A>E 674D3 6*# 5;D5>7 E >735:?3@ (""G 47FEK 9 3 D BD75;E;A@ #(*" 9 3 D 7JF &+$) BH848 48$( 4>35= <A=7D ;D ?E H;7@@3 :('*

EXPECTED PROGENY DIFFERENCES-SIMMENTAL MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC #) ( # ' '+ +* #& &$ )# #' # CW YG MAR BF REA SHR API TI #) * " &$ " $) " "' # #( " $" #'$ )& 7F ea` aX E+%% b[UfgdWV a` dWSd UahWd S`V [` >af &# ;X kag ]WWb dWb^SUW_W`fe S`V `WWV fa SVV _[^] K'+* eZag^V Va [f Sf &$ Xad _SfWd`S^ _[^] E+%% ZSe S` ShWdSYW iWS`[`Y dSf[a a` fZdWW `SfgdS^ US^hWe aX #$# 5S^h[`Y 7SeW bdaebWUf


IRVINE RANCH - SINCE 1927 IR ROUNDUP Y621

>AF #* ASA #:

$(&*++"

BIRTH DATE *!##!$"## ACT BW +$ ADJ WW (** ADJ YW #%*'

CALVING SCORE #

TEST GAIN

RATIO

RATIO 7F RATIO 7F RATIO 7F

' &'

##& ADJ ADJ FRAME SCROTAL (' %* % DNA 50K K7E POLLED BB COLOR 44 DOCILITY $ +) IMF RATIO #$+ BF RATIO +$ RE RATIO

#!$ E? #!$ 3@

?KFFK ;@ 8A5GE F@F 6G3> 8A5GE F$&+ $&$#*'# F@F ?;EE D)) E E A4<75F;H7 F'#" "F$( ;D ?E H;7@@3 G")# $'%)$(" ;D ?E @A <A=7 ?))(

TATTOO: E 3 8 8A5GE A8 7 D ?KFFK 5AG@F7EE +"( :5 :G??7D #$? F@F ?;EE @7H3 @+ E E FD3H7>7D (*") F'#" E E ?;EE D;F3 D"## )D* BH848 48$( 4>35= <A=7D ;D ?E H;7@@3 :('*

EXPECTED PROGENY DIFFERENCES-SIMMENTAL MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC #( ) # " )% #$# * $) (% ## # CW YG MAR BF REA SHR API TI %$ % " "& " '$ " "# " (" " $& #'" *( Dag`Vgb [e S FAF3>>K ;?BD7EE;H7 Tg^^ i[fZ fdW_W`Vage ^W`YfZ i[VfZ S`V Y[dfZ 9S[`[`Y `Wjf fa ' #!$ bag`Ve S VSk a` fWef K($# [e egdW fa SVV bag`Ve fa S eWf aX US^hWe

LOT 18 ~ IR ROUNDUP Y621 IR PREDESTINED Y597

>AF #+ ASA #:

$(&*+)&

BIRTH DATE +!$%!$"## ACT BW *" ADJ WW ("( ADJ YW #$"+

CALVING SCORE #

TEST GAIN

RATIO

RATIO 7F RATIO 7F RATIO 7F

K($#

#!$ E? #!$ 3@

9 3 D BD767EF;@76 9I BD767EF;@76 )"#F

K'+)

4!D @7I 67E;9@ "%( 9 3 D 7JF &$"( 9I >G5=K EFD;=7 #&)9

$&#&'%) 9I ?;EE >G5=K EFD;=7 %(%=3BB7E ?AE7E <$#% E E A4<75F;H7 F'#" "F$( ;D ?E H;7@@3 G")# $'%)$(" ;D ?E @A <A=7 ?))(

E E FD3H7>7D (*") F'#" E E ?;EE D;F3 D"## )D* BH848 48$( 4>35= <A=7D ;D ?E H;7@@3 :('*

EXPECTED PROGENY DIFFERENCES-SIMMENTAL #"* ADJ MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC ADJ FRAME SCROTAL (" %( + #' ' $ ' () ##" ## $* (# #$ * DNA 50K CW YG MAR BF REA SHR API TI POLLED BB $% # " %" " +" " "# # #& " #' #)' +( COLOR 44 A`W aX fZW fab dSf[a[`Y Tg^^e i[fZ Se YaaV aX 7jbWUfWV BdaYW`k 6[XXWdW`UWe Se US` TW Xag`V ;X kag dWfS[` ai`WdeZ[b S`V eW^^ a` S DOCILITY $ Yd[V fZWdW _Sk TW `a TWffWd bdaebWUf fZS` K'+) fa e[dW kagd `Wjf #$* IMF RATIO US^X Udab :W ZSe bafW`f[S^ fa e[dW US^hWe fZSf Ydai YdSVW S`V ##& BF RATIO k[W^V #"' RE RATIO ' #+

IR PREDESTINED Y607

>AF $" ASA #:

$(&*+*$

BIRTH DATE +!$%!$"## ACT BW ** ADJ WW &+* ADJ YW #"'+

CALVING SCORE #

TEST GAIN

RATIO

RATIO 7F RATIO 7F RATIO 7F

#!$ E? #!$ 3@

9 3 D BD767EF;@76 9I BD767EF;@76 )"#F

E E A4<75F;H7 F'#" "F$( $'%)$(" ;D ?E @A <A=7 ?))(

ASA #:

$(&*+("

BIRTH DATE +!$$!$"## ACT BW +% ADJ WW ($% ADJ YW #$$(

CALVING SCORE #

TEST GAIN

RATIO

RATIO +) RATIO ##& RATIO ###

K(")

4!D @7I 67E;9@ "%( 9 3 D 7JF &$"( 9I >G5=K EFD;=7 #&)9

E E FD3H7>7D (*") F'#" E E ?;EE D;F3 D"## )D* BH848 48$( 4>35= <A=7D ;D ?E H;7@@3 :('*

EXPECTED PROGENY DIFFERENCES-SIMMENTAL & )& ++ ADJ MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC ADJ FRAME SCROTAL '% %& & #' ' $ ' () ##" ## $* (# #$ * DNA 50K CW YG MAR BF REA SHR API TI POLLED BB $% # " %$ " '# " "& # "" " #' #'& *( COLOR 44 8g^^ TdafZWd fa >af #+ S`V _SfWd`S^ TdafZWd fa >af #* DOCILITY $ *" IMF RATIO )% BF RATIO +( RE RATIO

%!& E? #!& 3@

?KFFK ;@ 8A5GE F@F 6G3> 8A5GE F$&+ $&$#*'# F@F ?;EE D)) 9I >G5=K A@7 (*(= ;D ?E H;7@@3 E+$# $&$"+$" ;D ?E @A <A=7 ?))(

TATTOO:

K'))

E 3 8 8A5GE A8 7 D ?KFFK 5AG@F7EE +"( :5 :G??7D #$? F@F ?;EE @7H3 @+ 9I >G5=K EFD;=7 #&)9 9E ?;EE 7> I3>>K BH848 48$( 4>35= <A=7D ;D ?E H;7@@3 :('*

EXPECTED PROGENY DIFFERENCES-SIMMENTAL #"$ ADJ MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC ADJ FRAME SCROTAL () %' * #$ + #( )( #$$ ## $& ($ #& ( DNA 50K K7E CW YG MAR BF REA SHR API TI POLLED BB %( " " #% " &( " "$ " (' " "& #&% *$ COLOR 44 3`afZWd Z[YZ bWdXad_[`Y 6gS^ 8aUge ea` :[e VS_ H[W``S E+$# bdaVgUWV S '""" Tg^^ [` ^Sef kWSde eS^W DOCILITY # #"& IMF RATIO +% BF RATIO #"" RE RATIO & **

IR DUAL FOCUS Y587

>AF $$ TATTOO:

$&#&'%) 9I ?;EE >G5=K EFD;=7 %(%=3BB7E ?AE7E <$#%

;D ?E H;7@@3 G")#

IR DUAL FOCUS Y577

>AF $# TATTOO:

ASA #:

$(&*+((

BIRTH DATE *!$%!$"## ACT BW +# ADJ WW ($$ ADJ YW ##+)

CALVING SCORE #

TEST GAIN

RATIO

& ()

RATIO +* RATIO ##% RATIO #"*

+) ADJ ADJ FRAME SCROTAL '& %% $ DNA 50K K7E POLLED BB COLOR 44 DOCILITY % *' IMF RATIO ##% BF RATIO +& RE RATIO

%!& E? #!& 3@

?KFFK ;@ 8A5GE F@F 6G3> 8A5GE F$&+ $&$#*'# F@F ?;EE D)) 9I >G5=K 6;57 #*): ;D ?E B3?B>A@3 F+)%

TATTOO:

K'*)

E 3 8 8A5GE A8 7 D ?KFFK 5AG@F7EE +"( :5 :G??7D #$? F@F ?;EE @7H3 @+ >5:?3@ >G5=K 4G5= )"&+5 &")6

$&()"&$ ;D ?E 83@5K EFA5= ?))+ >DE BD787DD76 EFA5= %)"5 ;D ?E 4A>6 5;E5A :((#

EXPECTED PROGENY DIFFERENCES-SIMMENTAL MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC #$ $ #" )+ #$( * $% (% #$ & CW YG MAR BF REA SHR API TI %) & " "" " $+ " "" " &( " $% #%# *$ K'*) [e S ecgSdW SffdSUf[hW Tg^^ FZW '"= 6@3 fWef TdagYZf Z[_ gb fa #$( Xad KI 7B6 :[e e[dW 6gS^ 8aUge ZSe bdaVgUWV fZW fab eW^^[`Y Tg^^ [` agd ^Sef fia eS^We

Dual Focus and 701T Sons


IRVINE RANCH - BREED LEADING GENETIC MERIT IR EXPEDITION Y589

>AF $' ASA #:

$(&*+(*

BIRTH DATE *!$'!$"## ACT BW +" ADJ WW '%% ADJ YW ##*"

CALVING SCORE #

TEST GAIN

RATIO

RATIO +( RATIO +) RATIO #"(

B4 E?

TATTOO:

F@F 6G3> 8A5GE F$&+ ;D 7JB76;F;A@ I&#% $'&%$)+ ;D ?E H3>;AE3 D*** 9I >G5=K A@7 (*(= ;D ?E >G5=K A@7 G"($ $'%)$'' ;D ?E D73>;FK ?)))

K'*+

?KFFK ;@ 8A5GE F@F ?;EE D)) 9I >G5=K A@7 (*(= ;D ?E H3>;AE3 >)&+ 9I >G5=K EFD;=7 #&)9 9E ?;EE 7> I3>>K >DE D76 D73>;FK %%< ;D ?E 4A>6F;?7 8''*

EXPECTED PROGENY DIFFERENCES-SIMMENTAL ##% ADJ MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC ADJ FRAME SCROTAL '+ %$ % #$ * #& )$ ##( #' $% '+ #% #( # DNA 50K K7E CW YG MAR BF REA SHR API TI POLLED BB %$ ) " $' " (* " "% " +' " &# #&& *' COLOR 44 BgdWTdWV 7jbWV[f[a` ea` i[fZ S` WjUW^^W`f fWef YS[` S`V _SdT^[`Y DOCILITY $ #$+ IMF RATIO )% BF RATIO +( RE RATIO ' &%

LOT 23 ~ IR DUAL FOCUS Y590 IR DUAL FOCUS Y590

>AF $% ASA #:

$(&*+(+

BIRTH DATE +!#!$"## ACT BW +& ADJ WW ()& ADJ YW #$"#

CALVING SCORE #

TEST GAIN

RATIO

RATIO +' RATIO #$% RATIO #"*

& &"

+$ ADJ ADJ FRAME SCROTAL '+ %( ( DNA 50K K7E POLLED BB COLOR 4T DOCILITY $ ##% IMF RATIO *) BF RATIO #"% RE RATIO

>AF $& ASA #:

$(&*+(#

BIRTH DATE *!$#!$"## ACT BW +# ADJ WW '*# ADJ YW ##"'

CALVING SCORE #

TEST GAIN

RATIO

& '$

RATIO +( RATIO #"( RATIO #""

+& ADJ ADJ FRAME SCROTAL '# %% ( DNA 50K K7E POLLED BB COLOR 44 DOCILITY $ #%$ IMF RATIO #&) BF RATIO +& RE RATIO

%!& E? #!& 3@

?KFFK ;@ 8A5GE F@F 6G3> 8A5GE F$&+ $&$#*'# F@F ?;EE D)) 9I >G5=K A@7 (*(= ;D ?E H3>;AE3 F"## $&()")% ;D ?E H3>;AE3 >)&+

IR EXPEDITION Y575

>AF $( TATTOO:

K'+"

E 3 8 8A5GE A8 7 D ?KFFK 5AG@F7EE +"( :5 :G??7D #$? F@F ?;EE @7H3 @+ 9I >G5=K EFD;=7 #&)9 9E ?;EE 7> I3>>K >DE BD787DD76 EFA5= %)"5 ;D ?E 87@7>>3 8''+

ASA #:

$(&*+'+

BIRTH DATE +!#*!$"## ACT BW *) ADJ WW '&" ADJ YW #"&+

CALVING SCORE #

TEST GAIN

RATIO

RATIO #"& RATIO +* RATIO +'

B4 E?

TATTOO:

F@F 6G3> 8A5GE F$&+ ;D 7JB76;F;A@ I&#% $'&%$)+ ;D ?E H3>;AE3 D*** 7E 63=AF3 @=(* ;D ?E 63=AF3 E+$* $&$"+$$ ;D ?E 4A>68>75= 8'(%

K')'

?KFFK ;@ 8A5GE F@F ?;EE D)) 9I >G5=K A@7 (*(= ;D ?E H3>;AE3 >)&+ EDE <+#& BD787DD76 4778 7E=(* 4A>6 8GFGD7 ;D ?E BA>>8>75= 8> 4%'%

EXPECTED PROGENY DIFFERENCES-SIMMENTAL MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC ## ' #+ )( ##* #& $& ($ #( ' CW YG MAR BF REA SHR API TI %% + " #* " '& " "% " )$ " $& #&* *& :WdW [e S egbWd efagf S`V VWWb T^SU] TS^V[W Tg^^ :[e VS_ HS^[aeS F"## ZSe bgf faYWfZWd S` [_bdWee[hW dWUadV EZW ZSe bdaVgUWV & US^hWe Xda_ Xagd g`[fe aX eW_W` Tk SYW ' i[fZ ShWdSYW dSf[ae aX II #$# S`V KI ##% K'+" [e S Xg^^ TdafZWd [` T^aaV fa ;D 7jbWV[f[a` I&#% :[e '"= 6@3 fWef bgeZWV Z[_ [`fa fZW Fab % Xad KI 7B6

EXPECTED PROGENY DIFFERENCES-SIMMENTAL ** ADJ MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC ADJ FRAME SCROTAL '& %' $ ## " " + '+ ** #$ $* '* ## ( DNA 50K CW YG MAR BF REA SHR API TI POLLED BB ## + " #' " "' " "$ " &% " $' ##+ (' COLOR 4T K')' [e S Tg^^ i[fZ ^a`YWh[fk [` Z[e _SfWd`S^ ^[`W :[e 9dS`VVS_ S`V 9dWSf9dS`VS_ bdaVgUWV [` agd ZWdV fa SYW #' DOCILITY $ (( IMF RATIO +% BF RATIO +' RE RATIO

IR EXPEDITION Y578

>AF $)

B4 E?

TATTOO:

F@F 6G3> 8A5GE F$&+ ;D 7JB76;F;A@ I&#% $'&%$)+ ;D ?E H3>;AE3 D*** 9I >G5=K 5:3D? (('= ;D ?E 87@7>>3 G"'+ $'%)$'& ;D ?E >G5=K A@7 D*+*

K')*

?KFFK ;@ 8A5GE F@F ?;EE D)) 9I >G5=K A@7 (*(= ;D ?E H3>;AE3 >)&+ >5:?3@ >G5=K 4G5= )"&+5 9I ?;EE (""G '"*5 9I >G5=K A@7 (*(= ;D ?E 87@7>>3 ?)*'

EXPECTED PROGENY DIFFERENCES-SIMMENTAL MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC #% & "% (' #"# #% %$ (& #( #) & CW YG MAR BF REA SHR API TI $# ( " #% " (+ " "" " (+ " +& #&+ *% K')* _ahWV Xda_  &" fa  +& Xad FW`VWd`Wee E:D 7B6 i[fZ Z[e '"= 6@3 fWef FZ[e Uagb^WV i[fZ Z[e Z[YZ _SdT^[`Y eUS` _S]W Z[_ S` WjfdW_W USdUSee agf^[Wd S_a`Y fZW BgdWTdWV E[__W`fS^ babg^Sf[a` :[e VS_ bdaVgUWV S '""" Tg^^ eW^^[`Y fa 5SdefW`e E[__W`fS^ :afUZ][ee 5A [` $"## eS^W

& $#

IR OBJECTIVE Y614

ASA #:

$(&*+*(

BIRTH DATE +!'!$"## ACT BW )* ADJ WW ('% ADJ YW #$+)

CALVING SCORE #

TEST GAIN

RATIO

RATIO 7F RATIO 7F RATIO 7F

#!$ E? #!$ 3@

E E FD3H7>7D (*") F'#" E E A4<75F;H7 F'#" "F$( $%*(&*( E E ?;EE D;F3 D"## )D*

TATTOO:

K(#&

6 : 6 FD3H7>7D (*") E E ?;EE :; EB367 3##& E E D;FA D;FA D)( D"## E E ?;EE G>FD7EE G'(

>DE BD787DD76 EFA5= %)"5;D5>7 E >735:?3@ (""G ;D ?E 83@5K EFA5= ?))+ $$%**#" ;D ?E 4A>6 5;E5A :((#

>3E ?;EE BD;@57EE "$"L 7D 4>35= 5;E5A '%$5 ;D ?E 4A>68>75= 8'(%

EXPECTED PROGENY DIFFERENCES-SIMMENTAL ##" ADJ MAT MAT MAT ADJ FRAME SCROTAL CE BW WW YW CE MILK WW STAY DOC )# %+ ) #& ' " + )& #$" + %$ (+ #" ' DNA 50K CW YG MAR BF REA SHR API TI POLLED BB %# # " $# " &# " "& " )# " #* #&$ *& COLOR 44 :[YZ YdaifZ E[_3`Yge Tg^^ ?aVWdSfW T[dfZ iW[YZf i[fZ S ^SdYW eUdafg_ DOCILITY % *& IMF RATIO #"' BF RATIO +$ RE RATIO ' $+

View Bull Videos www.IrvineRanchGenetics.com (after 10/20/2012)


IRVINE RANCH - BREEDING SIMMENTAL SINCE 1968 IR SHEAR FORCE Y596

>AF $* ASA #:

$(&*+)%

BIRTH DATE #"!#&!$"## ACT BW *' ADJ WW '+) ADJ YW ##"(

CALVING SCORE #

TEST GAIN

RATIO

RATIO #"* RATIO #"+ RATIO #""

#!$ E? #!$ 3@

@;5:A>E >7935K 9#'# :AA=E E:73D 8AD57 $"*#+%+ 56 FD35K 9 3 D D7F3;> BDA6G5F ;D ?E D7F BDA6G5F D*+"

K'+(

@;5:A>E 4>= 67EF;@K 6#$ @;5:A>E 674D3 6*# 5;D5>7 E >735:?3@ (""G 47FEK 9 3 D BD75;E;A@ #(*" 9 3 D 7JF &+$)

$%*%"#% ;D ?E 7JF FD3H7>7D <(*' @ 43D 7?G>3F;A@ 7JF ;D ?E FD3H7>7D #&*+ 9'+$

& ()

+) ADJ ADJ FRAME SCROTAL '# %% $ DNA 50K K7E POLLED BB COLOR 44 DOCILITY % +) IMF RATIO +% BF RATIO ##' RE RATIO

>AF $+ ASA #:

$(&*+'(

BIRTH DATE #"!*!$"## ACT BW )+ ADJ WW &)& ADJ YW #""'

CALVING SCORE #

TEST GAIN

RATIO

RATIO #") RATIO *( RATIO +#

9 3 D BD767EF;@76

$')"'+% 8;@=E ?;EE $#"+ *%#' %$%

K'('

4!D @7I 67E;9@ "%( 9 3 D 7JF &$"( 9I >G5=K EFD;=7 #&)9

56 FD35K 4!D @7I 67E;9@ %$% 8;@=E?;EE *%#' &#(* (#&*

EXPECTED PROGENY DIFFERENCES-SIMMENTAL +( ADJ MAT MAT MAT ADJ FRAME SCROTAL CE BW WW YW CE MILK WW STAY DOC &( %$ + #) ' % ) &' (+ #' $* '# #+ " DNA 50K CW YG MAR BF REA SHR API TI POLLED BB $ * " %* " )' " "$ " ++ " $* #)% )+ COLOR 4T K'(' ZSe fZW bWV[YdWW S`V bWdXad_S`UW [`V[USf[hW aX S ZW[XWd Tg^^ Agf aX S dWS^^k `[UW EZWSd 8adUW Uai DOCILITY $ ##% IMF RATIO +% BF RATIO +( RE RATIO & ("

IR PREDESTINED Y563 CALVING SCORE #

TEST GAIN

RATIO

RATIO #"$ RATIO *# RATIO +'

CALVING SCORE #

TEST GAIN

RATIO

RATIO #"' RATIO +% RATIO +(

TATTOO:

@;5:A>E >7935K 9#'# :AA=E E:73D 8AD57 $"*#+%+ 56 FD35K ;D 47>>I7F:7D F%"" ;D ?E H;7@@3 I#$" $')"(#% ;D ?E H;7@@3 E+&$

K("(

@;5:A>E 4>= 67EF;@K 6#$ @;5:A>E 674D3 6*# 5;D5>7 E >735:?3@ (""G 47FEK 9I >G5=K ?3@ (&&@ ;D ?E D73>;FK ?))) 9 3 D D7F3;> BDA6G5F ;D ?E @A <A=7 ?))(

>AF %$ TATTOO:

:AA=E E:73D 8AD57 %*= @;5:A>E >7935K 9#'#

BIRTH DATE +!#(!$"## ACT BW *% ADJ WW &&) ADJ YW #"&+

BIRTH DATE +!#)!$"## ACT BW *" ADJ WW '"+ ADJ YW #"('

B4 E?

IR PREDESTINED Y565

#!$ E? #!$ 3@ 4G>>

;D ?E 97@7H3 I"**

$(&*+'&

$(&*+*#

EXPECTED PROGENY DIFFERENCES-SIMMENTAL +$ ADJ MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC ADJ FRAME SCROTAL &( %% ( #( ' $ # ') *) #% %" '+ #* #) & DNA 50K CW YG MAR BF REA SHR API TI POLLED BB ++ " &% " %+ " "( # "# " &+ #&$ )' COLOR 44 9dS`Vea` aX H[W``S E+&$ agf aX S X[def US^X ZW[XWd FZ[e Tg^^ ZSe TWW` Ua_[`Y a` efda`Y S`V eZag^V VWhW^ab [`fa S `[UW ZWdV Tg^^ DOCILITY $ +" IMF RATIO *" BF RATIO +& RE RATIO

$&#&'%) 9I ?;EE >G5=K EFD;=7 %(%=3BB7E ?AE7E <$#%

ASA #:

ASA #:

EXPECTED PROGENY DIFFERENCES-SIMMENTAL MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC $" " % # '( *' #% %( (& #' ( CW YG MAR BF REA SHR API TI )$ " &" " (# " "% # ## " #( #)$ *# 5S^h[`Y 7SeW bdaebWUf agf aX S YaaV gVVWdWV _aVWdSfW 3`Yge Uai Fab # Xad 5S^h[`Y 7SeW 7B6 EZag^V iad] Se S ZW[XWd Tg^^ S`V bdaVgUW S YdWSf eWf aX XW_S^We Xad fZW dWb^SUW_W`f bW` A`W aX fZW T[YYWd d[TWkW Tg^^e [` fZW eS^W

9I BD767EF;@76 )"#F

>AF %"

IR SHEAR FORCE Y606

>AF %# TATTOO:

%!& E? #!& 3@

9 3 D BD767EF;@76 9I BD767EF;@76 )"#F

TATTOO:

& &%

IR EXPEDITION Y570

ASA #:

$(&*+')

BIRTH DATE +!#(!$"## ACT BW *( ADJ WW '"* ADJ YW #"*+

CALVING SCORE #

TEST GAIN

RATIO

RATIO +* RATIO +% RATIO +*

%!& E? #!& 3@

F@F 6G3> 8A5GE F$&+ ;D 7JB76;F;A@ I&#% $'&%$)+ ;D ?E H3>;AE3 D***

TATTOO:

K')"

?KFFK ;@ 8A5GE F@F ?;EE D)) 9I >G5=K A@7 (*(= ;D ?E H3>;AE3 >)&+

:AA=E E:73D 8AD57 %*= @;5:A>E >7935K 9#'# ;D ?E 97@7H3 I"*+ $')"'+& ;D ?E >G5=K ?3@ F++)

56 FD35K 9I >G5=K ?3@ (&&@ 8;@=E ?;EE $#"+ *%#' %$%

EXPECTED PROGENY DIFFERENCES-SIMMENTAL #"# ADJ MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC ADJ FRAME SCROTAL '# %( # #' ( # " ') *) #& %# '+ #+ ' DNA 50K CW YG MAR BF REA SHR API TI POLLED BB ## * " $) " )* " "% " )( " &# #)% *% COLOR 4T FZdWW YW`WdSf[a`e aX TWSgf[Xg^ XW_S^We a` fZW _SfWd`S^ e[VW aX fZ[e Tg^^ FZ[e Uai XS_[^k WjZ[T[fe _aVWdSfW _SfgdW e[lW i[fZ WjUW^^W`f DOCILITY $ gVVWd cgS^[fk ;X kag ]WWb TSU] dWb^SUW_W`f XW_S^We ZWdW [e a`W #%# IMF RATIO fZSf [e fZW d[YZf fkbW K')" [e [` fZW fab # 3B; S`V eZag^V SVV +% BF RATIO _SdT^[`Y fa kagd UaiZWdV!US^X Udab +* RE RATIO & *(

K'(%

4!D @7I 67E;9@ "%( 9 3 D 7JF &$"( 9I >G5=K EFD;=7 #&)9

$&#&'%) 9I ?;EE >G5=K EFD;=7 %(%=3BB7E ?AE7E <$#% ;D 47>>I7F:7D F%"" ;D ?E 47>>I7F:7D I##" $')"("( ;D ?E BD78 4778 E+&%

9I >G5=K ?3@ (&&@ ;D ?E D73>;FK ?))) EDE <+#& BD787DD76 4778 ;D ?E 63@6K (""G <(+(

EXPECTED PROGENY DIFFERENCES-SIMMENTAL #") ADJ MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC ADJ FRAME SCROTAL &+ %& # #% $ # % '' *+ #' $% '" #' " DNA 50K CW YG MAR BF REA SHR API TI POLLED BB #$ & " $& " &) " "% " (& " %% #'" )' COLOR 4T 3 ^[ff^W e^aiWd efSdf[`Y agf aX S X[def US^X ZW[XWd K'(% YS[`WV ahWd ' " ^Te!VSk a` fWef :W ZSe S` SffdSUf[hW bZW`afkbW S`V i[^^ Ydai agf DOCILITY $ [`fa S `[UW Tg^^ #"" IMF RATIO *" BF RATIO +# RE RATIO ' #&

IR EXPEDITION W413 - High Seller in the 2010 Sale and Sire of several lots.

Years of disciplined culling for Calving Ease and Dispositions


IRVINE RANCH – DOCUMENTED FEED EFFICIENCY IR SHEAR FORCE Y601

>AF %% ASA #:

$(&*+)*

BIRTH DATE +!$)!$"## ACT BW ** ADJ WW ($% ADJ YW ##&)

CALVING SCORE #

TEST GAIN

RATIO

RATIO #"% RATIO ##& RATIO #"%

B4 E?

@;5:A>E >7935K 9#'# :AA=E E:73D 8AD57 $"*#+%+ 56 FD35K

K("#

@;5:A>E 4>= 67EF;@K 6#$ @;5:A>E 674D3 6*# 5;D5>7 E >735:?3@ (""G 47FEK

5;D5>7 E >735:?3@ (""G >3@6D;697 <7F 4>35= ;D ?E (""G ?*"# $$%**#* ;D ?E 4A>6 8GFGD7 =)$(

46H D'$ ?E 4>35= =@;9:F 4A>6 8GFGD7 ;ED ?E G"**

EXPECTED PROGENY DIFFERENCES-SIMMENTAL +" ADJ MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC ADJ FRAME SCROTAL '* %% ' #& # " & (& +# #$ $+ (# $$ #& & DNA 50K CW YG MAR BF REA SHR API TI POLLED BB #& $ " %& " %$ " "' " *+ " %( #&$ )& COLOR 44 8da_ agd #+$) 8ag`VSf[a` ^[`W DOCILITY $ #"' IMF RATIO #") BF RATIO +) RE RATIO & %$

IR DUAL FOCUS Y585

>AF %& ASA #:

$(&*+(&

BIRTH DATE *!$&!$"## ACT BW *+ ADJ WW '(% ADJ YW ##)"

CALVING SCORE #

TEST GAIN

RATIO

RATIO #"" RATIO #"% RATIO #"(

F@F 6G3> 8A5GE F$&+ $&$#*'# F@F ?;EE D)) 9 3 D D7F3;> BDA6G5F ;D ?E D7F3;> BDA6 G"'( $'%)$'% ;D ?E BD787DD76 @*$$

TATTOO:

K'*'

E 3 8 8A5GE A8 7 D ?KFFK 5AG@F7EE +"( :5 :G??7D #$? F@F ?;EE @7H3 @+ 9 3 D BD75;E;A@ #(*" 9 3 D 7JF &+$) >DE BD787DD76 EFA5= %)"5 ;D ?E B3ECG7 9'+$

EXPECTED PROGENY DIFFERENCES-SIMMENTAL #"$ ADJ MAT MAT MAT ADJ FRAME SCROTAL CE BW WW YW CE MILK WW STAY DOC '+ %& * #$ ' "( (+ ### ## $( (" #$ ) DNA 50K CW YG MAR BF REA SHR API TI POLLED BB $* ( " $# " #( " "& " (( " &$ #$# )# COLOR 4T 3`afZWd `[UW 6gS^ 8aUge ea` fdSU[`Y TSU] fa agd #+$) 8ag`VSf[a` ^[`W DOCILITY % )# IMF RATIO (" BF RATIO #"% RE RATIO & **

IR SHEAR FORCE Y605

>AF %' ASA #:

$(&*+*"

BIRTH DATE +!#!$"## ACT BW ** ADJ WW &(( ADJ YW ++'

CALVING SCORE #

TEST GAIN

RATIO

RATIO 7F RATIO 7F RATIO 7F

#!$ E? #!$ 3@

@;5:A>E >7935K 9#'# :AA=E E:73D 8AD57 $"*#+%+ 56 FD35K 4!D @7I 67E;9@ %$% 8;@=E ?;EE $#"+ *%#' %$%

ASA #:

$(&*+)+

BIRTH DATE +!#&!$"## ACT BW *$ ADJ WW '++ ADJ YW ##%%

CALVING SCORE #

TEST GAIN

RATIO

RATIO ##" RATIO #"+ RATIO #"$

TATTOO:

B4 E?

TATTOO:

@;5:A>E >7935K 9#'# :AA=E E:73D 8AD57 $"*#+%+ 56 FD35K

@;5:A>E 4>= 67EF;@K 6#$ @;5:A>E 674D3 6*# 5;D5>7 E >735:?3@ (""G 47FEK

>DE BD787DD76 EFA5= %)"5;D5>7 E >735:?3@ (""G ;D ?E BD787DD76 =)$* $#'#'%# ;D ?E 4A>68>75= 8'(%

>3E ?;EE BD;@57EE "$"L 4A>6 8GFGD7 ;D ?E BA>>8>75= 8> 4%'%

EXPECTED PROGENY DIFFERENCES-SIMMENTAL *# ADJ MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC ADJ FRAME SCROTAL ($ %% " #' % $ * (' +( #& $) '+ $$ #' + DNA 50K CW YG MAR BF REA SHR API TI POLLED BB #& " " %( " #& " "* " (+ " &# #$' () COLOR 4T EZWSd 8adUW ea` Xda_ S YaaV Uai XS_[^k DOCILITY $ &% IMF RATIO %% BF RATIO +" RE RATIO

IR SURE BET Y571

ASA #:

$(&*+'*

BIRTH DATE +!$*!$"## ACT BW *( ADJ WW ')) ADJ YW ##'+

CALVING SCORE #

TEST GAIN

RATIO

RATIO #"" RATIO #"' RATIO #"'

B4 E?

TATTOO:

F< ')< F:7 93?4>7D 6;=7?3@E EGD7 47F $$+&$($ ?793@ +? F@F 6G3> 8A5GE F$&+ ;D ?E H3>;AE3 I"++ $')"'+* ;D ?E H3>;AE3 D***

K')#

:3DFE 4>35= 53E;@A 4&"* F< @7>>;7 '(5 9I >G5=K 6;57 #*): 4>35= =3>>; ?KFFK ;@ 8A5GE F@F ?;EE D)) 9I >G5=K A@7 (*(= ;D ?E H3>;AE3 >)&+

EXPECTED PROGENY DIFFERENCES-SIMMENTAL #"& ADJ MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC ADJ FRAME SCROTAL ($ %( ( ## # "$ (* #"# ) $( (" #+ ' DNA 50K CW YG MAR BF REA SHR API TI POLLED BB $# ( " $* " ') " "% " *( " '% #&" *% COLOR 44 BgdWTdWV Tg^^ i[fZ YaaV iWS`[`Y S`V kWSd^[`Y bWdXad_S`UW 9dS`VVS_ D*** bdaVgUWV ;D 7jbWV[f[a` I&#% Z[YZ eW^^[`Y Tg^^ [` DOCILITY $ $"#" eS^W S`V b[UfgdW a` fZW bdWh[age bSYW ++ IMF RATIO (" BF RATIO +& RE RATIO & +*

K("'

@;5:A>E 4>= 67EF;@K 6#$ @;5:A>E 674D3 6*# 5;D5>7 E >735:?3@ (""G 47FEK 4!D @7I 67E;9@ "%( 4!D DG4K A8 F;883@K #''

$%$"$+# 8;@=E?;EE *%#' &#(* (#&* 8;@=E ''$$(#&* 8;@=E?;EE &#(* *#%" '$"&

EXPECTED PROGENY DIFFERENCES-SIMMENTAL +% ADJ MAT MAT MAT ADJ FRAME SCROTAL CE BW WW YW CE MILK WW STAY DOC '' %$ # #+ $ % % &' )" #% %$ '& #+ ' DNA 50K CW YG MAR BF REA SHR API TI POLLED BB # % " &" " )( " "$ # "% " %% #)& )* COLOR 4T 8g^^ TdafZWd fa & Tg^^e eW^^[`Y [` agd $"#" eS^W ShWdSY[`Y %""" Fab # Xad 3B; DOCILITY $ +) IMF RATIO +# BF RATIO +' RE RATIO

K("%

% *(

>AF %)

#!$ E? #!$ 3@

?KFFK ;@ 8A5GE

IR SHEAR FORCE Y603

>AF %( TATTOO:

& &*

Branding time - Craig Kennedy lending a hand.

A continuous herd since 1927


IRVINE RANCH - SIMMENTAL, SIMANGUS, ANGUS GENETICS IR EXPEDITION Y586

>AF %* ASA #:

$(&*+('

BIRTH DATE +!#"!$"## ACT BW *& ADJ WW '($ ADJ YW #"#%

CALVING SCORE #

TEST GAIN

RATIO

RATIO #"* RATIO #"$ RATIO +#

B4 E?

TATTOO:

F@F 6G3> 8A5GE F$&+ ;D 7JB76;F;A@ I&#% $'&%$)+ ;D ?E H3>;AE3 D*** ;D 67EB7D36A >"(* ;D ?E 87@7>>3 B*&$ $%%+")+ ;D ?E 4A>6 E;79 <()#

K'*(

?KFFK ;@ 8A5GE F@F ?;EE D))

LOT 41 - PICK OF THE HERD FLUSH ;dh[`W DS`UZ h[Wie fZW [VWS^ Uai Se S _aVWdSfW e[lWV bdaT^W_XdWW Uai fZSf US^hWe a` ZWd ai` bdaVgUWe S YaaV US^X WhWdk kWSd S`V VaWe ea Xad _S`k kWSde FZdagYZ fZW kWSde ;dh[`W DS`UZ ZSe XaUgeWV ZWdV Tg[^V[`Y WXXadfe a` fZWeW fkbWe aX Uaie ;dh[`W DS`UZ i[^^ aXXWd S ebWU[S^ abbadfg`[fk fa fSb fZW egUUWee aX agd V[eU[b^[`WV bdaYdS_ ebS``[`Y && kWSde aX TdWWV[`Y E[__W`fS^e FZW i[``[`Y T[VVWd [e bgdUZSe[`Y a`W W_Tdka X^geZ agf aX S` ;dh[`W DS`UZ Uai aX 4gkWde UZa[UW ;dh[`W DS`UZ i[^^ YgSdS`fWW ) h[ST^W W_Tdkae i[fZ `a gbe[VW ^[_[f FZW $"## i[``[`Y T[VVWd aX fZ[e ^af dWUW[hWV #* W_Tdkae

9I >G5=K A@7 (*(= ;D ?E H3>;AE3 >)&+ I:8 67EB7D36A $#$9 ;D ?E 4A>6 (""G :((( E;798D;76 E93 87@7>>3

EXPECTED PROGENY DIFFERENCES-SIMMENTAL +" ADJ MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC ADJ FRAME SCROTAL '+ %& + #" + # " '( )( #& %$ (" #$ * DNA 50K CW YG MAR BF REA SHR API TI POLLED BQ &( " #% " %$ " "# " &$ " $$ #%& (+ COLOR 4T 4^SU] iZ[fW XSUW Tg^^ DOCILITY # +( IMF RATIO ##% BF RATIO *% RE RATIO & %%

IR SURE BET Y564

>AF %+ ASA #:

$(&*+''

BIRTH DATE +!#*!$"## ACT BW #"(

CALVING SCORE $

ADJ WW ("& ADJ YW ##+)

RATIO ##" RATIO #"*

TEST GAIN

RATIO

RATIO )(

B4 E?

TATTOO:

F< ')< F:7 93?4>7D 6;=7?3@E EGD7 47F $$+&$($ ?793@ +?

K'(&

:3DFE 4>35= 53E;@A 4&"* F< @7>>;7 '(5 9I >G5=K 6;57 #*): 4>35= =3>>;

With 150 females to choose from, here are a few feature choices: F@F 6G3> 8A5GE F$&+ ;D ?E H3>;AE3 I#$' $')"(#) ;D ?E H3>;AE3 D***

?KFFK ;@ 8A5GE

IR MS VIENNA S942 - 1/2 SM 1/2 AN Cow (Homozygous Polled/Black) 3E3 $&$"+%$ b[UfgdWV [` fZ[e USfS^aY

F@F ?;EE D)) 9I >G5=K A@7 (*(= ;D ?E H3>;AE3 >)&+

FW` ea`e eW^^[`Y [` $"#"!$"## ES^We ZShW ShWdSYWV ahWd &$"" % ea`e [` $"#$ E

EXPECTED PROGENY DIFFERENCES-SIMMENTAL #"% ADJ MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC ADJ FRAME SCROTAL (" %* $ #" & $# )$ #"( ( $( ($ #+ ' DNA 50K CW YG MAR BF REA SHR API TI POLLED BB $) # " $& " '+ " "% " *( " '" #%' *# COLOR 44 6S_ eW^^e Se >af &$ EZW V[V S hWdk `[UW \aT i[fZ K'(& ZWd X[def US^X DOCILITY # #"% IMF RATIO )% BF RATIO +) RE RATIO & +'

>AF &" ASA #:

$(&*+)$

BIRTH DATE +!$)!$"## ACT BW +" ADJ WW &+# ADJ YW #"$+

CALVING SCORE #

TEST GAIN

RATIO

RATIO +* RATIO *+ RATIO +%

IR INCENTIVE Y595

#!$ E? #!$ 3@

E E A4<75F;H7 F'#" "F$( ;D ;@57@F;H7 G%*+ $&+%$#( ;D ?E @A <A=7 ?))( 9I >G5=K ?3@ (&&@ ;D ?E 97@7H3 G")( $'%)$(' 8;@=E ?;EE $#"+ *%#' %$%

TATTOO:

K'+'

E E FD3H7>7D (*") F'#" E E ?;EE D;F3 D"## )D*

8^geZ @afWe, 8^geZ[`Y i[^^ TW Ua_b^WfWV Sf ;dh[`W DS`UZ Tk 5daee 5ag`fdk 9W`Wf[Ue ;dh[`W DS`UZ i[^^ bSk S^^ Va`ad X^geZ[`Y S`V XdWWl[`Y XWWe 4gkWd fa bdah[VW eW_W` aX fZW[d UZa[UW Xad fZW _Sf[`Y bdah[VWV fZW eW_W` _WWfe `WUWeeSdk 5EE ZWS^fZ S`V cgS^[fk efS`VSdVe aX agd W_Tdka^aY[ef 8^geZ[`Y i[^^ TW Ua_b^WfWV Sf fZW V[eUdWf[a` aX ;dh[`W DS`UZ `a ^SfWd fZS` #$ _a`fZe Xa^^ai[`Y fZW eS^W FZW bd[UW WefST^[eZWV fZdagYZ fZW SgUf[a` i[^^ TW VgW fa ;dh[`W DS`UZ ZS^X Sf eS^W f[_W S`V ZS^X gba` W_Tdka VW^[hWdk fa fZW 4gkWd 4gkWd i[^^ ZShW #& VSke Xa^^ai[`Y fZW eS^W fa VWU[VW iZ[UZ Uai fa gf[^[lW ;dh[`W DS`UZ i[^^ YgSdS`fWW '" fS]W dSfW Sf (" VSke a` fZW X[def ) W_Tdkae [X fdS`eXWddWV Tk S 5Wdf[X[WV 7_Tdka^aY[ef

BH848 48$( 4>35= <A=7D ;D ?E H;7@@3 :('* 9I >G5=K 5:3D? (('= 9I ?;EE (""G +(&< 4!D @7I 67E;9@ %$% 8;@=E?;EE *%#' &#(* (#&*

EXPECTED PROGENY DIFFERENCES-SIMMENTAL +* ADJ MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC ADJ FRAME SCROTAL '+ %% " #) " $ $ '' *+ #" %" '* ## * DNA 50K CW YG MAR BF REA SHR API TI POLLED BB ## & " $+ " )# " "& " )$ " $* #($ *# COLOR 44 ;`UW`f[hW ea` agf aX S _aVWdSfW e[lWV Uai Fab # 3B; DOCILITY $ #$" IMF RATIO #") BF RATIO RE RATIO +& & (+

IR MS VALIOSA T011 - PB SM Cow (Heterozygous Polled/Black) 3E3 $&()")% 6S_ aX >af $% 3 Ua`e[efW`f bdaVgUWd IR MS RETAIL PROD S933 - 1/2 SM 1/2 AN Cow (Homozygous Polled/Black) 3E3 $%*&)$# B[UfgdWV STahW :Se bdaVgUWV eWhWdS^ Z[YZ eW^^[`Y ea`e IR MS VIENNA U073 - 1/2 SM 1/2 AN Cow (Homozygous Polled/Black) 3E3 $'%)$($ 6S_ aX ( Tg^^e eW^^[`Y, >afe #% S`V #"#$

LIVE ON THE INTERNET. LIVE AUDIO. LIVE VIDEO. BIDDING

LiveAuctions TV

To register and follow the auction in real time on the internet, log on to Website: http://www.liveauctions.tv For More Information, call Brad Fahrmeier at (816) 392-9241 If you wish to follow the sale on the computer and bid by telephone, please call the sale day phone numbers or one of the consultants listed in our catalog. â&#x20AC;&#x153;We attendanceâ&#x20AC;? We appreciate your attendance

DNA 50K enhanced EPD's


IRVINE RANCH- BREEDING SIMMENTALS SINCE 1968 The Females that Sell:

The American Simmental Association recently published a list of the top cows in the Breed for the API $ index. 11 of the top 100 cows in the Breed for API$ carry the IR prefix. Both the #1 Purebred Cow and the #1 SimAngus Cow for API$ are bred and owned by Irvine Ranch. The Cow/Calf pairs selling present an opportunity to purchase breed leading caliber genetics. All of the cows selling are homeraised, with 85 years of breeding behind them. There are no culls selling in this group; Only cows that we would be just as willing to retain in our herd. Our program is generating more quality replacement females than we have the ability to maintain in the herd, and we are proud to offer this group. Our ability to offer these quality females is the result of three principal factors: 1.) Use of quality, proven sires through Artificial Insemination for over 40 years. 2.) Disciplined culling â&#x20AC;&#x201C; Heifers and cows that fail to meet our high standards are culled. 3.) Embryo Transfer; Our first use of ET was in 1987, with limited success until 2005. Beginning in 2005 we set a goal to produce 40-50% of the calf crop through embryo work. The result has been an improvement in both consistency and quality with every calf crop. The AI sired calves at side represent cutting edge genetics. As a group they rank near the top of the breed for the All Purpose Index. All cows are open and should be ready to start breeding anytime fit for your program. If you purchase a first calf heifer(s) remember they are still growing and manage them accordingly to insure they breed right back. A sale supplement sheet will be available to update calf information not available at the time of the

catalog being published. This supplement will be available at the sale, and ahead of the sale at:

>AF &$ ASA #:

$')"(#) BIRTH DATE *!#$!$""+

IR MS VALIOSA W125

%!& E? #!& 3@ 5AI

?KFFK ;@ 8A5GE F@F 6G3> 8A5GE F$&+

TATTOO:

www.irvineranchgenetics.com

I#$'

E 3 8 8A5GE A8 7 D ?KFFK 5AG@F7EE +"( :5 :G??7D #$?

F@F ?;EE D))

F@F ?;EE @7H3 @+

9I >G5=K A@7 (*(=

9I >G5=K EFD;=7 #&)9

;D ?E H3>;AE3 D*** 9E ?;EE 7> I3>>K CALF SIRE F< E:3DB7D ;?397 ;D ?E H3>;AE3 >)&+ >DE BD787DD76 EFA5= %)"5 CALF SEX ;D ?E 87@7>>3 8''+ ZW[XWd EXPECTED PROGENY DIFFERENCES-SIMMENTAL CALF TAG MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC CALF BREED(S) #$ % ## ($ +* #$ %$ (% #* '!* E? %!* 3@ CW YG MAR BF REA SHR API TI CALF BIRTH DATE $# $ " #% " '% " "% " &$ " $+ #&& )' *!$+!$"#$ 8g^^ e[efWd fa ;D 7JB76;F;A@ I&#% Z[YZ eW^^[`Y Tg^^ [` agd $"#" ES^W :[YZ ;?8 ZW[XWd [` ZWd Ua`fW_badSdk Ydagb Se S kWSd^[`Y dSf[a[`Y #$* HS^[aeS I#$' efSdfe aXX S Ydagb aX CALF BIRTH WT Uaie b[U]WV Xda_ fZW fab ZS^X aX agd ZWdV :WdW [e a`W i[fZ Va`ad bafW`f[S^ *$

>AF &$ p ;D ?E H3>;AE3 I#$'

CALF EPD'S: (available Sale Day)

>AF &% ASA #:

$'%)$'" BIRTH DATE +!$(!$""*

IR MS PAMPLONA U040

#!$ E? #!$ 3@ 5AI

>AF && TATTOO:

G"&"

D D FD3H7>7D '$"& 93D67@E BD;?7 F;?7 @ 43D BD;?7 F;?7 6*"(

9D77@ 93D67@ EGE;7 #$&( E# @ 43D 7?G>3F;A@ 7JF L'$

ASA #:

$(%%""" BIRTH DATE *!$+!$"#"

@ 43D ?;EE 7?G>AGE 3&"& @ 43D ?;EE 7?A>AGE J%"+#

CALF SIRE ;D 8>;@F:;>>E J'%' CALF SEX ZW[XWd CALF TAG

>DE BD787DD76 EFA5= %)"5;D5>7 E >735:?3@ (""G ;D ?E BD787DD76 =)#) >3E ?;EE BD;@57EE "$"L ;D ?E 4A>6 5;E5A :((#

7D 4>35= 5;E5A '%$5 ;D ?E 4A>68>75= 8'(%

EXPECTED PROGENY DIFFERENCES-SIMMENTAL MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC CALF BREED(S) #) # % % && )( #$ $$ && #+ #!$ E? #!$ 3@ CW YG MAR BF REA SHR API TI CALF BIRTH DATE ## # " "' " +% " "& " &' #)& )) +!%!$"#$ 3 _aVW^ fkbW Uai _aVWdSfW [` e[lW i[fZ S b[UfgdW bWdXWUf gVVWd FZW CALF BIRTH WT e[dW aX ZWd ZW[XWd US^X ;D 8^[`fZ[^^e J'%' iSe fZW Z[YZ eW^^[`Y Tg^^ [` agd *" $"## eS^W :[e X[def US^hWe SdW ^aa][`Y YdWSf CALF EPD'S: (available Sale Day)

IR MS DUAL FOCUS X177

%!& E? #!& 3@ 5AI

?KFFK ;@ 8A5GE F@F 6G3> 8A5GE F$&+

TATTOO:

J#))

E 3 8 8A5GE A8 7 D ?KFFK 5AG@F7EE +"( :5 :G??7D #$?

F@F ?;EE D))

F@F ?;EE @7H3 @+

9I >G5=K 5:3D? (('=

>5:?3@ >G5=K 4G5= )"&+5

;D ?E >G5=K 5:3D? F+)( 9I ?;EE (""G '"*5 CALF SIRE F< E:3DB7D ;?397 9I ?;EE >G5=K 4G5= +"(< >5:?3@ >G5=K 4G5= )"&+5 9I ?;EE I3>>K *'&9 CALF SEX ZW[XWd EXPECTED PROGENY DIFFERENCES-SIMMENTAL CALF TAG MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC CALF BREED(S) #( & # # '& *% #$ %" ') #* '!* E? %!* 3@ CW YG MAR BF REA SHR API TI CALF BIRTH DATE *+ " $& " (' " "% " (' " '# #(& )* #"!%!$"#$ 7jUW^^W`f XW_S^W i[fZ a`W aX fZW Z[YZ _SdT^[`Y eUS`e [` ZWd Ydagb CALF BIRTH WT 4S^S`UWV 7B6e i[fZ Z[YZ dS`][`Y 3B; GeW fZ[e XW_S^W fa _S]W )' BgdWTdWV ad E[_3`Yge US^hWe CALF EPD'S: (available Sale Day)

>AF &' ASA #:

$')"("$ BIRTH DATE +!)!$""+

IR MS FENELLA W104

B4 E? 5AI

@;5:A>E >7935K 9#'# :AA=E E:73D 8AD57 56 FD35K

TATTOO:

I#"&

@;5:A>E 4>= 67EF;@K 6#$ @;5:A>E 674D3 6*# 5;D5>7 E >735:?3@ (""G 47FEK

5;D5>7 E >735:?3@ (""G >3@6D;697 <7F 4>35=

>AF &% p ;D ?E B3?B>A@3 G"&"

;D ?E 4>= 87@7>>3 <(*& 46H D'$ ?E 4>35= =@;9:F CALF SIRE 9I BD767EF;@76 )"#F ;D ?E F3FF7@:35= 9'+( =E F3FF7@:35= CALF SEX E93 87@7>>3 Tg^^ EXPECTED PROGENY DIFFERENCES-SIMMENTAL CALF TAG MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC CALF BREED(S) #% & "* (( +* #' $* (# $% + #& %!& E? #!& 3@ CW YG MAR BF REA SHR API TI CALF BIRTH DATE $" ) " &" " '$ " "( # "$ " &' #'( )+ +!'!$"#$ BgdWTdWV E[__W`fS^ [` fZW Fab # aX fZW TdWWV Xad 3B; I#"&e VS_ CALF BIRTH WT [e S #% kWSd a^V Uai i[fZ #% `SfgdS^ US^hWe S`V S fab `afUZ bdaVgUf[a` *) dWUadV ?SfWd`S^ e[efWd iSe Z[YZ eW^^[`Y XW_S^W [` $"## eS^W CALF EPD'S: (available Sale Day)


IRVINE RANCH- BREEDING SIMMENTALS SINCE 1968 >AF &( ASA #:

$')"'** BIRTH DATE *!#*!$""+

IR MS PAMPLONA W080

%!& E? #!& 3@ 5AI

4!D @7I 8DA@F;7D "+' 9>E 5A?4;@3F;A@ D$ 9>E :AEF7EE :#(

CALF SIRE IE :AF 4778 CALF SEX Tg^^ CALF TAG

TATTOO:

I"*"

4!D @7I 67E;9@ "%(

9I >G5=K ?3@ (&&@ ;D ?E B3?B>A@3 F""'

I:;F7 87@57 BD;67 :# >DE BD787DD76 EFA5= %)"5 9>E +#J 7JBD7EEA 8"# 9I >G5=K 5:3D? (('= 9I ?;EE (""G +(&<

;D ?E 83@5K EFA5= ?))+ >DE BD787DD76 EFA5= %)"5 ;D ?E 4A>6 5;E5A :((#

EXPECTED PROGENY DIFFERENCES-SIMMENTAL MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC #" ) $& )% ##$ " $% '+ $# CW YG MAR BF REA SHR API TI %# ( " $+ " $# " "' " *+ " &) #"( )$ BaiWdXg^ Uai i[fZ WjUW^^W`f YdaifZ S`V _geU^W DWV B4 E? Tg^^ US^X Sf e[VW

CALF BREED(S) B4 E? CALF BIRTH DATE #"!#!$"#$ CALF BIRTH WT #"& CALF EPD'S: (available Sale Day)

>AF &) ASA #:

$'('+)# BIRTH DATE *!$"!$"#"

>AF &( p ;D ?E B3?B>A@3 I"*"

IR MS VIENNA X152

>AF '"

%!& E? #!& 3@ 5AI

?KFFK ;@ 8A5GE F@F 6G3> 8A5GE F$&+

TATTOO:

J#'$

$(%%""+ BIRTH DATE *!$'!$"#"

E 3 8 8A5GE A8 7 D ?KFFK 5AG@F7EE +"( :5 :G??7D #$?

F@F ?;EE D))

F@F ?;EE @7H3 @+

9I >G5=K 5:3D? (('=

>5:?3@ >G5=K 4G5= )"&+5

;D ?E H;7@@3 G"(+ 9I ?;EE (""G '"*5 CALF SIRE FD;B>7 5 E;@9>7F3DK ;D ?E @A <A=7 ?))( BH848 48$( 4>35= <A=7D CALF SEX ;D ?E H;7@@3 :('* ZW[XWd EXPECTED PROGENY DIFFERENCES-SIMMENTAL CALF TAG MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC CALF BREED(S) #( ' $ # (# +( ## %" (# #( B4 E? CW YG MAR BF REA SHR API TI CALF BIRTH DATE #' % " #+ " %* " "% " (" " && #'$ )* +!'!$"#$ 8[def US^X 6gS^ 8aUge VSgYZfWd i[fZ S `[UW gVVWd :Wd B4 E[`Y^WfSdk CALF BIRTH WT ZW[XWd US^X Sf e[VW ^aa]e ^[]W eZW i[^^ TW S YaaV a`W *( CALF EPD'S: (available Sale Day)

>AF &* ASA #:

$(%$++' BIRTH DATE *!$#!$"#"

IR MS PAMPLONA X179

%!& E? #!& 3@ 5AI

E E A4<75F;H7 F'#" "F$( ;D ;@57@F;H7 G%*+

J#)+

BH848 48$( 4>35= <A=7D

;D ?E @A <A=7 ?))(

;D ?E H;7@@3 :('*

9I >G5=K ?3@ (&&@

9I >G5=K 5:3D? (('=

ASA #:

$(%$+*( BIRTH DATE *!$#!$"#"

IR MS BELLWETHER X161

#!$ E? #!$ 3@ 5AI

TATTOO:

ASA #:

$(%$+)) BIRTH DATE #"!#'!$"#"

E E FD3H7>7D (*") F'#" E E ?;EE D;F3 D"## )D*

IR MS GENEVA X175

#!$ E? #!$ 3@ 5AI

?KFFK ;@ 8A5GE F@F 6G3> 8A5GE F$&+

9I >G5=K ?3@ (&&@

F@F ?;EE @7H3 @+

9I >G5=K ?3@ (&&@

9I >G5=K 5:3D? (('=

IR MS GENEVA X198

B4 3@ 5AI

93D67@E :;9:?3D= 93D67@E I3H7

9 3 D D7F3;> BDA6G5F

9 3 D BD75;E;A@ #(*"

J#+*

9D77@ 93D67@ BD;67(#$*E# @ 43D 7?G>3F;A@ 7JF

9D77@ 93D67@>36K ($'' E9D77@ 93D67@>36K &$'( E$ 4!D @7I 67E;9@ %$%

CALF SIRE ;D 8>;@F:;>>E J'%' CALF SEX Tg^^ CALF TAG

8;@=E ?;EE $#"+ *%#' %$%

4!D DG4K A8 F;883@K #'' 8;@=E?;EE &#(* *#%" '$"&

EXPECTED PROGENY DIFFERENCES-SIMMENTAL MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC CALF BREED(S) #( ' $ & %+ (+ #% $' && #& #!& E? %!& 3@ CW YG MAR BF REA SHR API TI CALF BIRTH DATE " ' " %" # %* " "# " *+ " #( #($ )* +!$+!$"#$ 3` X^geZ VSgYZfWd aX agd TWVdaU] Va`ad ?[ee $#"+ :[YZ 3B; CALF BIRTH WT 8W_S^We ^[]W fZ[e $ kWSd a^V SdW `af WSek fa ^Wf Ya 3_Wd[US` 3`Yge *% DWY #)$$''#" CALF EPD'S: (available Sale Day)

J#(#

CALF SIRE 93D D7F3;> BDA6G5F D$#) 9 3 D 7JF &+$) F< E:3DB7D ;?397 9 3 D #&") @Wi 6We[Y` #+'& 4a` H[Wi @Wi 6We[Y` #&") 9 3 D BdWU[e[a` *#+ CALF SEX ZW[XWd EXPECTED PROGENY DIFFERENCES-SIMMENTAL CALF TAG MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC CALF BREED(S) +* #+ )& #$% #" $& (# #% #!$ E? #!$ 3@ CW YG MAR BF REA SHR API TI CALF BIRTH DATE %) % " ## " %' " "$ " (( #$$ )( *!$+!$"#$ J#(# ZSV S II DSf[a aX ##$ S`V KI DSf[a aX ### EZW ZSe S^^ fZW CALF BIRTH WT _S][`Ye aX S `[UW TdaaV Uai +) CALF EPD'S: (available Sale Day)

4!D @7I 67E;9@ "%(

8;@=E?;EE *%#' &#(* (#&* 8;@=E ''$$(#&*

>DE D76 D73>;FK %%< ;D ?E 4A>6F;?7 8''*

TATTOO: EG??;F5D7EFE5AF5:53B"4&'

9I ?;EE (""G +(&<

;D ?E D73>;FK ?)))

J#)'

:5 :G??7D #$?

F@F ?;EE D))

9I >G5=K 5:3D? (('= ;D 47>>I7F:7D F%""

TATTOO: E 3 8 8A5GE A8 7 D ?KFFK 5AG@F7EE +"(

;D ?E >G5=K ?3@ F++) 9I ?;EE (""G +(&< CALF SIRE 8;@=E ?;EE $#"+ *%#' %$% 4!D @7I 67E;9@ %$% 9I BD767EF;@76 )"#F 8;@=E?;EE *%#' &#(* (#&* CALF SEX ZW[XWd EXPECTED PROGENY DIFFERENCES-SIMMENTAL CALF TAG MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC CALF BREED(S) #' ( # " '+ +# #$ $+ '* #* #!$ E? #!$ 3@ CW YG MAR BF REA SHR API TI CALF BIRTH DATE #& $ " #) " () " "% " &( " &$ #') )+ *!$$!$"#$ Fia `[UW E[_3`Yge XW_S^We [` a`W FZW ?[ee $#"+ Uai XS_[^k [e a`W aX CALF BIRTH WT agd TWef J#)' eZag^V VWhW^ab [`fa S hWdk YaaV Uai )% CALF EPD'S: (available Sale Day)

>AF '# TATTOO:

;D ?E B3?B>A@3 F""' 9I ?;EE (""G +(&< CALF SIRE ;D 7JB76F;A@ I&#% ;D ?E 83@5K EFA5= ?))+ >DE BD787DD76 EFA5= %)"5 CALF SEX ;D ?E 4A>6 5;E5A :((# ZW[XWd EXPECTED PROGENY DIFFERENCES-SIMMENTAL CALF TAG MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC CALF BREED(S) #' ( $ ( )# ##' + %% (+ $& %!& E? #!& 3@ CW YG MAR BF REA SHR API TI CALF BIRTH DATE $' + " $+ " #" " "& " +' " %& #%) *# +!$'!$"#$ J#)+ [e S_a`Y agd X[def Ydagb aX ;D ;`UW`f[hW VSgYZfWde fa US^hW FZWk CALF BIRTH WT ^aa] ^[]W YdWSf Uaie [` fZW _S][`Y _aVWdSfW [` e[lW i[fZ YaaV gVVWde )% CALF EPD'S: (available Sale Day)

>AF &+

ASA #:

>AF '# p ;D ?E 97@7H3 J#+*


IRVINE RANCH - SIMMENTAL, SIM-ANGUS, ANGUS GENETICS >AF '$ ASA #:

$(%$+*' BIRTH DATE +!)!$"#"

IR MS VIENNA X188 TATTOO:

J#**

:FB EH8 ;@ 67I F;?7 >DE F;?7 LA@7 $*G

9 3 D D7F3;> BDA6G5F ;D ?E H;7@@3 E+&$ ;D ?E @A <A=7 ?))(

ASA #:

$(%%""# BIRTH DATE +!#(!$"#"

5@E 6D73? A@ >#*(

>DE ?E B3K435= (#)E

CALF SIRE ;D F7FA@ J&+) CALF SEX ZW[XWd CALF TAG

>AF ''

%!& E? #!& 3@ 5AI

:FB EH8 :A@7K67I >DE B3K435= %'B >DE ?E 4778 +$#< 9 3 D BD75;E;A@ #(*" 9 3 D 7JF &+$) BH848 48$( 4>35= <A=7D ;D ?E H;7@@3 :('*

EXPECTED PROGENY DIFFERENCES-SIMMENTAL MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC CALF BREED(S) +$ "$ () #"% * $' '* " %!& E? #!& 3@ CW YG MAR BF REA SHR API TI CALF BIRTH DATE $$ + " $( " '' " "% " +" " %* #%' *$ +!)!$"#$ 6SgYZfWd aX H[W``S E+&$ #" ea`e aX E+&$ eW^^[`Y [` agd $"#"!$"## CALF BIRTH WT eS^We ShWdSYWV ahWd &$"" FZ[e kag`Y Uai ZSe fZW d[YZf YW`Wf[Ue fa )' dS[eW ZWdVTg^^e CALF EPD'S: (available Sale Day)

CALF SIRE ;D F7FA@ J&+) CALF SEX Tg^^ CALF TAG

ASA #:

$&()"$* BIRTH DATE *!#*!$"")

$(%$+*& BIRTH DATE #"!&!$"#"

IR MS PAMPLONA X185

#!$ E? #!$ 3@ 5AI

?KFFK ;@ 8A5GE F@F 6G3> 8A5GE F$&+ F@F ?;EE D))

CALF SIRE IE :AF 4778 CALF SEX ZW[XWd CALF TAG

>AF ') TATTOO:

J#*'

ASA #:

:5 :G??7D #$? F@F ?;EE @7H3 @+

$(%$++% BIRTH DATE +!#"!$"#"

9I >G5=K A@7 (*(= 9I >G5=K 357 ")(FE

9E ?;EE 7> I3>>K 4A@ H;7I @7I 67E;9@ #&")

9I ?;EE #&") *((B

9I ?;EE :;9: 67@E;FK "%'

>DE D76 D73>;FK %%<

BBED 5A3> 4>35= ('8

;D ?E D73>;FK ?))) ;D ?E 4A>6F;?7 8''*

>DE ?E BD786 EFA5= )#'9 6E 53G8;F;?7 F&# )$J ;D ?E 4A>68>75= 3%"&

EXPECTED PROGENY DIFFERENCES-SIMMENTAL MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC +" &# )( ##* #" #' '% #& ' #& CW YG MAR BF REA SHR API TI %) % " %# " '# " "% # $" " &# #%" )+ BgdWTdWV T^SU] TS^V[W Tg^^ US^X Sf e[VW ?))) [e S^ea fZW VS_ aX ;D 4W^^iWfZWd F%"" Z[YZ eW^^[`Y Tg^^ [` $""*

IR MS VALIOSA T955

B4 E? 5AI

TATTOO:

F+''

;D;E: 4>35= =@;9:F >5:?3@ >G5=K 4G5= )"&+5>735:?3@ 4>= 43>6K L$%" 9I >G5=K 5:3D? (('=

5;D5>7 E >735:?3@ (""G

9I ?;EE (""G '"*5

3)'9

9I >G5=K A@7 (*(=

9I >G5=K EFD;=7 #&)9

IR MS VIENNA U067

B4 E? 5AI

TATTOO:

G"()

;D;E: 4>35= =@;9:F >5:?3@ >G5=K 4G5= )"&+5>735:?3@ 4>= 43>6K L$%" 9I >G5=K 5:3D? (('= 9I ?;EE (""G '"*5

5 3 8GFGD7 6;D75F;A@'%$#9 3 D BD75;E;A@ #(*" ;D ?E B3?B>A@3 F+'+ 5 3 ?;EE BAI7D 8;J %"*

5;D5>7 E >735:?3@ (""G 3)'9

BH848 48$( 4>35= <A=7D :3DFE 4>35= 53E;@A 4&"*

;D ?E 83@5K EFA5= ?))+ >DE BD787DD76 EFA5= %)"5 ;D ?E 4A>6 5;E5A :((#

EXPECTED PROGENY DIFFERENCES-SIMMENTAL MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC #% + " $ (" +$ ## $+ '+ #& CW YG MAR BF REA SHR API TI #' ( " $& " '# " "& " (% " &) #&$ )& EgbWd SffdSUf[hW 6gS^ 8aUge VSgYZfWd :Se fWefWV XdWW aX YW`Wf[U VWXWUfe SeeaU[SfWV i[fZ 8gfgdW 6[dWUf[a`

CALF SIRE ;D ?E @A <A=7 ?))( BH848 ?347>>7 5#%# 9I BD767EF;@76 )"#F ;D ?E H;7@@3 :('* 5;D5>7 E >735:?3@ (""G CALF SEX ;D ?E 87@7>>3 8''+ EXPECTED PROGENY DIFFERENCES-SIMMENTAL CALF TAG MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC CALF BREED(S) #% & " # (& #"$ #" $) '+ $# " #) %!& E? #!& 3@ CW YG MAR BF REA SHR API TI CALF BIRTH DATE %# " " %# " $" " "' " *' " &) #%& )# 6gW #"!'!$"#$ FZW H[W``S Uai XS_[^k Ua`e[efW`f bdaVgUWe fab ZWdVTg^^ bdaebWUfe CALF BIRTH WT CALF EPD'S: (available Sale Day)

IR MS WAVE X183

B4 3@ 5AI

ASA #:

$'%)$'* BIRTH DATE *!+!$""*

E 3 8 8A5GE A8 7 D ?KFFK 5AG@F7EE +"(

CALF BREED(S) %!& E? #!& 3@ CALF BIRTH DATE +!$*!$"#$ CALF BIRTH WT (& CALF EPD'S: (available Sale Day)

>AF '&

J#++

;D ?E H3>;AE3 D**' 9E ?;EE 7> I3>>K CALF SIRE F< E:3DB7D ;?397 ;D ?E H3>;AE3 >)&+ >DE BD787DD76 EFA5= %)"5 CALF SEX ;D ?E 87@7>>3 8''+ ZW[XWd EXPECTED PROGENY DIFFERENCES-SIMMENTAL CALF TAG MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC CALF BREED(S) #' & " $ (' #"$ #) %# (% #) & $( %!& E? #!& 3@ CW YG MAR BF REA SHR API TI CALF BIRTH DATE %" * " $& " &* " "' " (' " &* #&' )+ *!$"!$"#$ F+'' ZSe iWS`WV fZdWW US^hWe fZgeXSd ShWdSY[`Y S II dSf[a aX #"+ i[fZ CALF BIRTH WT S %(( VSk US^h[`Y [`fWdhS^ 8S`Uk T^SU] TS^V[W ZW[XWd US^X Sf e[VW *( CALF EPD'S: (available Sale Day)

;D ?E H;7@@3 E+&$  6S_ aX >af '$ ASA #:

TATTOO: 9I >G5=K EFD;=7 #&)9

CALF BREED(S) B4 E? CALF BIRTH DATE +!#'!$"#$ CALF BIRTH WT *" CALF EPD'S: (available Sale Day)

>AF '(

>AF '%

IR MS LUCKY ACE X199

B4 E? 5AI

TATTOO:

J#*%

EG??;F5D7EFE5AF5:53B"4&' 93D67@E :;9:?3D= 93D67@E I3H7

9D77@ 93D67@ BD;67(#$*E# @ 43D 7?G>3F;A@ 7JF

9D77@ 93D67@>36K ($'' E9D77@ 93D67@>36K &$'( E$ D3479> 4>G7 ?AA@ &&")?4A@ H;7I @7I 67E;9@ #&") ;D ?E 4>G7 ?AA@ F+'( ?;>> 4D37 43>@AD?3 B?"#$ CALF SIRE E3H 8;@3> 3@EI7D ;D ?E D7F BDA6G5F D*+" 9 3 D D7F3;> BDA6G5F CALF SEX ;D ?E 7JF FD3H7>7D <(*' ZW[XWd EXPECTED PROGENY DIFFERENCES-SIMMENTAL CALF TAG MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC CALF BREED(S) #( ' $ ' &% )& #& $) &+ #" B4 3@ CW YG MAR BF REA SHR API TI CALF BIRTH DATE $* " $( # ($ " "# " )& " %$ #)) *) #"!$!$"#$ 7^[fW ?SdT^[`Y S`V 3B; 7B6e J#*% dWbdWeW`fe * YW`WdSf[a`e aX 3; CALF BIRTH WT TdWWV[`Y [` agd 3`Yge bdaYdS_ i[fZagf fZW geW aX S U^WS`gb Tg^^ *" 3_Wd[US` 3`Yge DWY #)$$''") CALF EPD'S: (available Sale Day)

6gd[`Y agd 3gYgef h[e[f i[fZ Xd[W`Ve DSk S`V >WSZ HW^^S Xda_ ?Sd^TadagYZ CgWW`e^S`V 3gefdS^[S


IRVINE RANCH- BREEDING SIMMENTALS SINCE 1968 IR MS LUCKY ACE X155

>AF '*

B4 E? 5AI

ASA #:

$(%$+)& BIRTH DATE +!&!$"#"

J#''

TATTOO: 9I >G5=K EFD;=7 #&)9

9I >G5=K A@7 (*(= 9I >G5=K 357 ")(FE 9I ?;EE #&") *((B 55D E@3=7 7K7E ?$#)B

;D ?E 7K7E G"%+ CALF SIRE ;D ?E D73>;FK ?))) 9I BD767EF;@76 )"#F CALF SEX

CALF TAG CALF BREED(S) %!& E? #!& 3@ CALF BIRTH DATE 6gW #"!$"!$"#$ CALF BIRTH WT

9E ?;EE 7> I3>>K 4A@ H;7I @7I 67E;9@ #&") 9I ?;EE :;9: 67@E;FK "%' 9I >G5=K 6;57 #*): 55D ?E I;>68;D7 $#)? >DE D76 D73>;FK %%< ;D ?E 4A>6F;?7 8''*

EXPECTED PROGENY DIFFERENCES-SIMMENTAL MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC #$ ' #( (" +) ## #& && #& # #& CW YG MAR BF REA SHR API TI $# ( " %' " '# " "' " ++ " '" #%$ )% BgdWTdWV 5ai i[fZ S` agfUdaee bWV[YdWW fa _aef E[__W`fS^ bWV[YdWWe >a`Y TaV[WV S`V XW_[`[`W Fab # aX fZW TdWWV Xad USdUSee fdS[fe

>AF '* p ;D ?E >G5=K 357 J#''

CALF EPD'S: (available Sale Day)

IR MS TIME ZONE X189

>AF '+

B4 E? 5AI

ASA #:

$(%%"") BIRTH DATE +!#%!$"#"

>AF (# TATTOO:

J#*+

$')"'+" BIRTH DATE *!$'!$""+

5@E 6D73? A@ >#*( :FB EH8 ;@ 67I F;?7 >DE F;?7 LA@7 $*G

:FB EH8 :A@7K67I >DE B3K435= %'B

>DE ?E B3K435= (#)E

>DE ?E 4778 +$#<

9I >G5=K A@7 (*(=

9I >G5=K EFD;=7 #&)9

;D ?E >G5=K A@7 E+$( 9E ?;EE 7> I3>>K CALF SIRE ;D ?E 8GFGD7 F3D97F B*' F@F A@ F3D97F <+& 9I BD767EF;@76 )"#F CALF SEX ;D ?E 4A>6 8GFGD7 7'$*

CALF TAG CALF BREED(S) %!& E? #!& 3@ CALF BIRTH DATE 6gW #"!$%!$"#$ CALF BIRTH WT

ASA #:

EXPECTED PROGENY DIFFERENCES-SIMMENTAL MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC '& &' )% #"# + #+ '' $# " % CW YG MAR BF REA SHR API TI $) & " %# " #) " "' " +& " $( ##& () J#*+ ZSV S ##& II dSf[a 6WeUW`V[`Y Xda_ agd #+$) 8ag`VSf[a` ^[`W

$(%%""' BIRTH DATE +!$$!$"#"

IR MS VIENNA X164 TATTOO:

J#(&

9 3 D BD767EF;@76

CALF BREED(S)

9 3 D 7JF &$"( 9I >G5=K EFD;=7 #&)9

ASA #:

9I ?;EE >G5=K EFD;=7 %(%=3BB7E ?AE7E <$#% 9 3 D D7F3;> BDA6G5F ;D ?E D7F3;> BDA6 E+%% CALF SIRE ;D ?E @A <A=7 ?))( :AA=E E:73D 8AD57 CALF SEX

Tg^^ CALF TAG CALF BREED(S)

9 3 D BD75;E;A@ #(*"

;D ?E H;7@@3 :('*

%!& E? #!& 3@ CALF BIRTH DATE *!$%!$"#$ CALF BIRTH WT (% CALF EPD'S: (available Sale Day)

STAY DOC #% API TI #'% *&

9I ?;EE (""G +(&< >DE D76 D73>;FK %%<

;D ?E D73>;FK ?)))

;D ?E 4A>6F;?7 8''*

9I >G5=K A@7 (*(=

9I >G5=K EFD;=7 #&)9 9E ?;EE 7> I3>>K >DE BD787DD76 EFA5= %)"5 ;D ?E 87@7>>3 8''+

EXPECTED PROGENY DIFFERENCES-SIMMENTAL MAT MAT MAT CE BW WW YW CE MILK WW STAY DOC +) $) )' ##' #' $* (' #) ' #) CW YG MAR BF REA SHR API TI %% * " $+ " $( " ") " )* " %* #$& )' DWV Uai i[fZ S` SffdSUf[hW T^SU] TS^V[W ZW[XWd US^X Sf e[VW

IR MS TRAILBLAZER X207

%!& E? #!& 3@ 5AI

5@E 6D73? A@ >#*( =3BB7E FD3;>4>3L7D E'#(

5@E E:77L3 6D73? =#")I BH8 BD787DD76 7697 )#)9 =3BB7E EFAB >;9:F <%' 9 3 D BD75;E;A@ #(*"

CALF SIRE ;D F7FA@ J&+) CALF SEX

;D ?E H;7@@3 E+&$

ZW[XWd CALF TAG

EXPECTED PROGENY DIFFERENCES-SIMMENTAL MAT MAT MAT CE BW WW YW CE MILK WW #" & " # () #"' + $* (# CW YG MAR BF REA SHR $% * " $$ " &" " "% " )* " %+

CALF BREED(S)

J$")

TATTOO: @;5:A>E >7935K 9#'#

9 3 D D7F3;> BDA6G5F

BH848 48$( 4>35= <A=7D

EXPECTED PROGENY DIFFERENCES-SIMMENTAL MAT MAT MAT CE BW WW YW CE MILK WW #% # $ " ($ #"& #$ %$ (% CW YG MAR BF REA SHR $" ( " $' " (% " "# " +& " $' DWV Tg^^ US^X Sf e[VW

9I >G5=K ?3@ (&&@ ;D 47>>I7F:7D F%""

=3BB7E E36;7 ?#((

9 3 D 7JF &+$)

I"*&

TATTOO: 9I >G5=K 5:3D? (('=

%!& E? #!& 3@ CALF BIRTH DATE *!$)!$"#$ CALF BIRTH WT +$ CALF EPD'S: (available Sale Day)

$(%$+*$ BIRTH DATE +!#!$"#"

4!D @7I 67E;9@ "%( 9I BD767EF;@76 )"#F

ZW[XWd CALF TAG

>AF ($

#!$ E? #!$ 3@ 5AI

IR MS VALIOSA W084

B4 E? 5AI

;D ?E H3>;AE3 F""* CALF SIRE ;D ?E H3>;AE3 >)&+ F< E:3DB7D ;?397 CALF SEX

CALF EPD'S: (available Sale Day)

>AF ("

ASA #:

;D ?E @A <A=7 ?))(

9 3 D 7JF &+$) BH848 48$( 4>35= <A=7D ;D ?E H;7@@3 :('*

%!& E? #!& 3@ CALF BIRTH DATE +!$"!$"#$ CALF BIRTH WT )" CALF EPD'S: (available Sale Day)

STAY DOC # API TI #%% )*

FZS`] kag Xad \a[`[`Y ge IW e[`UWdW^k SbbdWU[SfW kag Ua_[`Y


2012 Scrapbook 2012

For More Information: John G. Irvine (785) 313-7473 Email: johngirvine@sbcglobal.net Paul B. Irvine (785) 556-6885 P. Bernard Irvine II (785) 564-3872 Ranch Headquarters: 3370 Casement Road, Manhattan, KS 66502

www.IrvineRanchGenetics.com


IRVINE IRVINE RANCH RANCH

ADDRESS SERVI CE REQUESTED

3370 Casement Road 3370 Road 3370 Casement Casement Road Manhattan, KS 66502

Manhattan, Manhattan, KS KS 66502 66502

Since 1927

www.IrvineRanchGenetics.com

PRESORTED FIRST CLASS U.S. Postage PAID Permit No. 580 Manhattan, KS

Irvine Ranch Annual Production Sale  

Simmental - Simangus Saturday, Nov. 3, 2012 • 1:00pm At the Ranch

Read more
Read more
Similar to
Popular now
Just for you