Influence of age, body weight and body condition score before mating start date on the pubertal rate of maiden Holstein–Friesian heifers and implications for subsequent cow performance and profitability

Archbold, H; Shalloo, L.; Kennedy, E.; Pierce, K.M.; Buckley, F.

doi:10.1017/s1751731111002692

Cited by 42 publications

(37 citation statements)

References 39 publications

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“…Although not validated against estrus or pregnancy outcomes during the breeding period following examination, Archbold et al [6] estimated the sensitivity of ultrasonography to determine pubertal status to be reduced during pro-estrus and metestrus, due to the relatively poor ability to visualise the regressing corpus albicans and the corpus haemoragicum respectively. We therefore assume that the reason why the absence of a follicle ≥13 mm remained an independent predictor in our models was either that some heifers that were pubertal at the time of examination had their first estrus in the few days after the examination, or that in postpubertal heifers a CL was not detected due to stage of the estrus cycle.…”

Section: Individual Independent Predictors Of Reproductive Outcomesmentioning

confidence: 99%

“…Reproductive tract score (RTS) predicts anestrus and pregnancy failure in heifers independently of age, body weight (BW) and body condition score (BCS), and is a valid selection tool to enhance reproductive performance of herds [3][4][5][6][7]. However, estrus cycle stage and proportion of heifers in anestrus affect the accuracy of RTS, the complexity of the RTS system affects its repeatability, and other tests with potential to improve RTS are available [5,[7][8][9].…”

Section: Introductionmentioning

confidence: 99%

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Ultrasonographic reproductive tract measures and pelvis measures as predictors of pregnancy failure and anestrus in restricted bred beef heifers

et al. 2016

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Previous reports have shown that reproductive tract score (RTS) can predict reproduction outcomes in seasonally bred beef heifers, although the accuracy can vary.Some ultrasonographic measures of the female reproductive tract and pelvis area have also been associated with reproductive outcome in young heifers. The objectives of this study were to determine which transrectal ultrasound or pelvis measures taken at a single examination are independent predictors of reproductive failure, and if the RTS system can be optimised with this information. In this observational study 488 year-old beef heifers in 2 birth cohorts were followed from prior to first breeding until confirmation of pregnancy. A single pre-breeding examination included BCS, RTS, ultrasound measures 2 of the reproductive tract (length and diameter of the left and right ovaries, presence and diameter of a CL, largest follicle diameter and left uterus horn diameter) and transverse and vertical diameters of the pelvis. Additional farm records including dam parity, sire, birth weight and birth date, weaning weight, weaning date, pre-breeding BW, AI dates and semen used were available. Breeding consisted of 50 d of AI, followed 5 to 7 d later by a 42 d bull breeding period. Pregnancy failure was defined as the failure to become pregnant after the AI and bull breeding periods while anestrus was defined as the failure to be detected in estrus during the 50 d AI period. From the pre-breeding data and farm records independent predictors of pregnancy failure and anestrus were identified using step-wise reduction in multiple logistic regression models. Age at the onset of breeding was the only consistent independent predictor of pregnancy failure and anestrus in both cohorts of this study (P < 0.05). BCS, uterus horn diameter, absence of a CL, largest follicle of less than 13 mm and pelvis area (PA) were the pre-breeding examination variables that remained in prognostic models (P < 0.1). Combining either the model based on the three remaining ultrasound measures or RTS with PA provided more accurate prognostic models for pregnancy failure and anestrus than using RTS alone (P < 0.05). It is concluded that ultrasound measures have prognostic value for pregnancy failure in restricted bred yearling heifers as a result of their association with anestrus, and that smaller pelvis area has additional prognostic value for poor performing heifers.

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Section: Individual Independent Predictors Of Reproductive Outcomesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Ultrasonographic reproductive tract measures and pelvis measures as predictors of pregnancy failure and anestrus in restricted bred beef heifers

et al. 2016

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“…An efficient heifer rearing system is essential to meet these targets and ensure that replacement heifers maximise their potential as lactating animals. Archbold et al (2012) demonstrated that larger, well grown heifers had greater pubertal rates at mating start date (MSD), and were more profitable over their lifetime due to superior milk production and greater longevity.…”

Section: Improved Biosecuritymentioning

confidence: 99%

“…These heifer calves will be closely grouped in terms of age, and it would therefore be easier to manage them as one group to meet the optimal target of 60% of mature BW at MSD (Archbold et al, 2012).…”

Section: Improved Biosecuritymentioning

confidence: 99%

Applications and cost benefits of sexed semen in pasture-based dairy production systems

Butler

Hutchinson

Cromie

et al. 2014

Animal

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Sexed semen technology is now commercially available in many countries around the world, and is primarily used in dairy cattle breeding. Sperm are sorted by flow cytometry on the basis of a 4% difference in DNA content between sperm containing X and Y chromosomes. Despite reliably producing a 90% gender bias, the fertility of the sexed semen product is compromised compared with conventional semen. The negative implications of the reduced fertility of sexed semen are amplified in seasonal systems of dairy production, as the importance of fertility is greater in these systems compared with year-round calving systems. A review of the literature indicates that conception rates (CR) to 1st service with frozen-thawed sexed semen are~75% to 80% of those achieved with conventional frozen-thawed semen. Preliminary results from a large-scale field trial carried out in Ireland in 2013 suggest that significant improvements in the performance of sexed semen have been made, with CR of 87% of those achieved with conventional semen. The improved fertility of a sexed semen product that delivers a 90% gender bias has considerable implications for the future of breeding management in pasture-based dairy production systems. Sexed semen may facilitate faster, more profitable dairy herd expansion by increasing the number of dairy heifer replacements born. Biosecurity can be improved by maintaining a closed herd during the period of herd expansion. In a non-expansion scenario, sexed semen may be used to increase the value of beef output from the dairy herd. The replacement heifer requirements for a herd could be met by using sexed semen in the 1st 3 weeks of the breeding season, with the remaining animals bred to beef sires, increasing the sale value over that of a dairy bull calf. Alternatively, very short gestation sires could be used to shorten the calving interval. Market prices have a considerable effect on the economics of sexed semen use, and widespread use of sexed semen should be restricted to well managed herds that already achieve acceptable herd fertility performance.

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“…The effects of inadequate nutrition in cattle include delayed puberty Archbold et al, 2012), prolonged postpartum anovulation (Rhodes et al, 2003), reduced body condition score (BCS) , and poor submission and conception rates (Buckley et al, 2003). Dairy production systems based on grazed pasture are primarily located in countries where environmental conditions support long growing seasons.…”

Section: Introductionmentioning

confidence: 99%

Nutritional management to optimize fertility of dairy cows in pasture-based systems

Butler

2014

Animal

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The efficiency of milk production in pasture-based systems is heavily influenced by calving pattern, necessitating excellent reproductive performance in a short-breeding season. Where grazed pasture is the major component of the diet, cows are underfed relative to their intake potential. The cow responds by reducing milk output, but fertility is generally better than high intake confinement systems that achieve greater milk production per cow. A number of studies have identified body condition score (BCS) measurements that are related to likelihood of both submission and conception. Blood metabolites and metabolic hormones linked to fertility outcomes are now well characterized. In general, fertility variables have favourable associations with circulating concentrations of glucose, insulin and IGF-1 and unfavourable associations with non-esterified fatty acids, β-hydroxybutyrate and endogenous growth hormone. Nutritional strategies to impact these metabolic indicators have been utilized, but effects on herd fertility are inconsistent. Simply supplementing cows with additional energy in the form of standard concentrates does not appear to have a pronounced effect on fertility. Energy from additional concentrates fed during lactation is preferentially partitioned towards extra milk production rather than BCS repletion. The higher the genetic merit for milk production, the greater the partitioning of additional nutrients to the mammary gland. This review outlines the unique nutritional challenges of pasture-based systems, the role of specific metabolic hormones and metabolites in regulating reproductive function, and nutritional strategies to improve herd fertility.Keywords: Nutrition, fertility, dairy cow, pasture ImplicationsAchieving the appropriate body condition score (BCS) at parturition and minimizing BCS loss are the overarching goals of nutritional management in pasture-based system. A large number of systems studies have demonstrated that simply adding more concentrate will not result in improved fertility. Future research needs to identify specific micro-and macro-nutrients that can stimulate components of the reproductive axis. IntroductionThe effects of inadequate nutrition in cattle include delayed puberty Archbold et al., 2012), prolonged postpartum anovulation (Rhodes et al., 2003), reduced body condition score (BCS) , and poor submission and conception rates (Buckley et al., 2003). Dairy production systems based on grazed pasture are primarily located in countries where environmental conditions support long growing seasons. The nutritional management of dairy cows in pasture-based systems is most heavily influenced by the stocking rate on the farm (McCarthy et al., 2011). As stocking rate increases, an individual cow is less likely to be able to reach her dry matter intake (DMI) potential, simply as a consequence of more cows trying to graze a finite amount of available grass. The cow responds by reducing milk yield, but the total milk produced on the farm increases because more cows are being milk...

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Influence of age, body weight and body condition score before mating start date on the pubertal rate of maiden Holstein–Friesian heifers and implications for subsequent cow performance and profitability

Cited by 42 publications

References 39 publications

Ultrasonographic reproductive tract measures and pelvis measures as predictors of pregnancy failure and anestrus in restricted bred beef heifers

Ultrasonographic reproductive tract measures and pelvis measures as predictors of pregnancy failure and anestrus in restricted bred beef heifers

Applications and cost benefits of sexed semen in pasture-based dairy production systems

Nutritional management to optimize fertility of dairy cows in pasture-based systems

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