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Synchronization of estrus in suckled beef cows for detected estrus and artificial insemination and timed artificial insemination using gonadotropin-releasing hormone, prostaglandin F₂, and progesterone¹

J. E. Larson^*, G. C. Lamb^*,2, J. S. Stevenson, S. K. Johnson^,2, M. L. Day, T. W. Geary, D. J. Kesler^#, J. M. DeJarnette^||, F. N. Schrick^¶, A. DiCostanzo^** and J. D. Arseneau

^* North Central Research and Outreach Center, University of Minnesota, Grand Rapids 55744; and Department of Animal Sciences and Industry, Kansas State University, Manhattan 66506-0201; and Department of Animal Science, The Ohio State University, Columbus 43201; and USDA-ARS Fort Keogh Livestock and Range Research Laboratory, Miles City, MT 59301; and ^# Department of Animal Sciences, University of Illinois, Urbana 61801; and ^|| Select Sires, Inc., Plain City, OH, 43064; and ^¶ Department of Animal Science, University of Tennessee, Knoxville 37996; and ^** Department of Animal Science, University of Minnesota, St. Paul 55108; and and Department of Animal Science, Purdue University, West Lafayette 47907

² Corresponding author: clamb{at}umn.edu

We determined whether a fixed-time AI (TAI) protocol could yield pregnancy rates similar to a protocol requiring detection of estrus, or estrous detection plus TAI, and whether adding a controlled internal device release (CIDR) to GnRH-based protocols would enhance fertility. Estrus was synchronized in 2,598 suckled beef cows at 14 locations, and AI was preceded by 1 of 5 treatments: 1) a CIDR for 7 d with 25 mg of PG F₂ (PGF) at CIDR removal, followed by detection of estrus and AI during the 84 h after PGF; cows not detected in estrus by 84 h received 100 µg of GnRH and TAI at 84 h (control; n = 506); 2) GnRH administration, followed in 7 d with PGF, followed in 60 h by a second injection of GnRH and TAI (CO-Synch; n = 548); 3) CO-Synch plus a CIDR during the 7 d between the first injection of GnRH and PGF (CO-Synch + CIDR; n = 539); 4) GnRH administration, followed in 7 d with PGF, followed by detection of estrus and AI during the 84 h after PGF; cows not detected in estrus by 84 h received GnRH and TAI at 84 h (Select Synch & TAI; n = 507); and 5) Select Synch & TAI plus a CIDR during the 7 d between the first injection of GnRH and PGF (Select Synch + CIDR & TAI; n = 498). Blood samples were collected (d –17 and –7, relative to PGF) to determine estrous cycle status. For the control, Select Synch & TAI, and Select Synch + CIDR & TAI treatments, a minimum of twice daily observations for estrus began on d 0 and continued for at least 72 h. Inseminations were performed using the AM/PM rule. Pregnancy was diagnosed by transrectal ultrasonography. Percentage of cows cycling at the initiation of treatments was 66%. Pregnancy rates (proportion of cows pregnant to AI of all cows synchronized during the synchronization period) among locations across treatments ranged from 37% to 67%. Pregnancy rates were greater (P < 0.05) for the Select Synch + CIDR & TAI (58%), CO-Synch + CIDR (54%), Select Synch & TAI (53%), or control (53%) treatments than the CO-Synch (44%) treatment. Among the 3 protocols in which estrus was detected, conception rates (proportion of cows that became pregnant to AI of those exhibiting estrus during the synchronization period) were greater (P < 0.05) for Select Synch & TAI (70%; 217 of 309) and Select Synch + CIDR & TAI (67%; 230 of 345) cows than for control cows (61%; 197 of 325). We conclude that the CO-Synch + CIDR protocol yielded similar pregnancy rates to estrous detection protocols and is a reliable TAI protocol that eliminates detection of estrus when inseminating beef cows.

Key Words: beef cow • synchronization • timed artificial insemination

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