Effects of conventional or low bull to female ratio and utilization of reproductive tract scores in extensively-managed, natural mating breeding groups

Rathmann, Ryan James

25 April 2007

The current study involved two experiments which were conducted at the Texas A&M Agricultural Research and Extension Center in Uvalde (semi-arid environment) from 2002 to 2004. In experiment one, Bonsmara bulls (n = 19; 20-24 mo of age) were joined with multiparous, crossbred females (n =586) for 90 d in 2003 and 2004. Bulls were allotted by selected physical traits, seminal traits, social rank, and serving capacity to one of two bull to female ratio (BFR) treatments: Conventional (1:21-1:29; n = 6 pastures) or Low (1:47-1:52; n = 2 pastures) BFR. Pregnancy rate (P = 0.33), calving rate (P = 0.26), and calving date (P = 0.22) did not differ between Conventional and Low BFR treatments. Post-breeding evaluation of bulls in 2002 (n = 16) indicated that social rank, but not seminal traits, was significantly correlated with pre-breeding values (P < 0.05). The current study demonstrates that Low BFR can be utilized in single- and multisire, 90-d breeding pastures of up to 2,090 ha without adversely affecting reproductive performance. In experiment two, yearling, one-half or three-quarter Bonsmara heifers (n = 106; 11-14 mo of age) were palpated per rectum and assigned a reproductive tract score (RTS) immediately prior to the beginning of the breeding season. Reproductive performance was measured in their two subsequent breeding years in order to estimate the value of the RTS system in extensively-managed, natural mating, 90-d breeding season programs. RTS was positively correlated (p < 0.01) with frame score (r = 0.25), age (r = 0.31), weaning weight (r = 0.47), and the weight of the heifer on the day of RTS exam (r = 0.56). The RTS means by dam parity also differed (P < 0.03). A lower (P < 0.01) percentage of females conceived during each of their first two breeding seasons for heifers of RTS 1 and 2 (65.2%) than for heifers of RTS 3, 4, and 5 (91.2%). Females with a RTS of 1 had a lower pregnancy rate over each of their first two breeding seasons, conceived later during their first breeding season, weaned lighter first calves, and remained lighter each year for fall body weight and body condition score than did heifers with RTS of 2 to 5 (P < 0.05). Collectively, the results of the current study indicate that heifers with a RTS of 1 immediately prior to a 90-d breeding season should be culled. Consideration should also be given to eliminating RTS 2 heifers, but further studies will be needed to confirm the potential economic advantage of this practice.

Bull to Female Ratio

Reproductive Tract Score

Early determination of the reproductive potential of beef heifers using reproductive tract scoring, pelvimetry and transrectal ultrasonography

Holm, D.E. (Dietmar Erik)

January 2013

A series of 4 observational studies was performed on a Bovelder herd at Johannesburg Water’s Northern Farm. The heifer and cow breeding seasons started on 15 October and 1 November every year, and consisted of 50 d and 60 d of oestrus observation respectively, with once daily artificial insemination (AI). Five to 7 days after the AI period bulls were added in multi-sire groups for a period of 42 d. Pregnancy diagnoses were performed between 23 March and 26 April every year. The farming system had been in place for >25 years, with few deviations. In the first study, reproductive tract scoring (RTS) by transrectal palpation on a 5- point scale was performed 1 day before the start of breeding on a group of heifers (n = 272) born in 2002. Heifers with RTS 1 or 2 were estimated to be pre-pubertal, those with RTS 3 pubertal and those with RTS 4 or 5 post-pubertal. Pre-breeding body weight (BW) and body condition score (BCS) were recorded, and Kleiber ratio (KR) was calculated (average daily gain/end weight0.75). Heifers were followed until they weaned their first calves. The objectives of this study were to determine if RTS is a valid tool to predict reproduction and production performance in limited bred beef heifers, and to compare its predictive value with that of BW, BCS, age and KR. After adjustment for BW and age, RTS was positively associated with pregnancy rate to the 50 day AI season (P < 0.01), calf weaning weight (P < 0.01) and pregnancy rate to the subsequent breeding season (P < 0.01), and negatively associated with days to calving (P < 0.01). RTS was a better predictor of fertility than was vi KR, and similar in its prediction of calf weaning weight. It was concluded that RTS is a predictor of heifer fertility and compares well with other traits used as a predictor of production outcomes. It was further hypothesised that RTS may predict long-term reproductive performance due to its association with pregnancy outcome and days to calving after first breeding, combined with reports that heifers calving early tend to calve early in subsequent seasons and have increased lifetime production. In study 2, a 7-year longitudinal study, 292 beef cows in two age cohorts were observed from 1-2 d before their first breeding season (day of RTS), until they had weaned up to 5 calves. Years to reproductive failure was defined as the number of years until a cow failed to become pregnant during the AI season. Animals with RTS 1 or 2 were at increased risk of early reproductive failure compared to those with RTS 4 or 5 (HR = 1.4, 95% CI 1.0, 1.9) despite the fact that RTS was not associated with calving rate or days to calving after the second calving season. The predictive value of RTS was lower in the age cohort with a higher prevalence of anoestrus. Most animals with RTS 1 or 2 that were subsequently detected in oestrus were in early to mid di-oestrus at the time of scoring. It was concluded that RTS is a valid culling tool to improve long-term reproductive success in a seasonal breeding system, by excluding poor performing animals. It was further concluded that the predictive value of RTS decreases with increasing prevalence of anoestrus and at certain stages of the oestrous cycle. Apart from failure to calve, dystocia as a result of foeto-maternal disproportion is the cause of significant production loss in beef heifers. Internal pelvis area (PA) can be calculated as the product of vertical and horizontal diameter of the pelvis measured transrectally using a calliper device. In study 3, the effects of five culling strategies using prebreeding PA data on calving and dystocia rates and on pre-breeding and calf birth weight (BWT) were compared in 484 heifers. Multiple regression analyses were used to determine independent predictors of PA, calf BWT and dystocia. Hypothetical culling of 10 or 20% of heifers was applied within age cohort after ranking by each of the following: unadjusted PA (PA); PA adjusted to 365 d of age (APA); PA:BW ratio (PA:BW); PA adjusted to the median BW of the group by the regression coefficient of PA on BW(BWPA) and PA similarly adjusted to the median lean BW (LBWPA). Dam parity, calf BWT and either BWPA or LBWPA were the only independent predictors of dystocia (P < 0.05), whereas the effect of PA tended to be significant only after adjusting for calf BWT (P = 0.08). After culling by PA or APA, retained heifers were heavier, had a higher calving rate and calves tended to be heavier at birth compared to culled heifers, but dystocia rates were not different. Although culling by PA:BW resulted in lower dystocia rate, it resulted in lower pre-breeding BW in retained than in culled heifers. Culling by BWPA and LBWPA had better sensitivity and specificity for dystocia than PA, and resulted in higher calving- and lower dystocia rates in the retained heifers, without affecting the pre-breeding BW or calf BWT. It was concluded that pelvimetry is a useful culling tool to aid in the management of dystocia in yearling heifers, and that adjustment of PA to median BW within age group improves its accuracy and avoids the undesirable side-effects of using unadjusted PA. The strong association of PA with calving rate resulted in the hypothesis for study 4, namely that PA can add prognostic value to RTS as a predictor of reproductive failure in beef heifers. Transrectal ultrasound (US) examination of the reproductive tract was also investigated in this study (n = 488) with the objective of identifying which ultrasonographic measures taken at a single point in time before the onset of breeding were independently associated with reproductive outcomes. In this study pregnancy failure was defined as the failure to become pregnant after the AI and bull breeding periods while anoestrus was defined as the failure to be detected in oestrus during the entire 50 d AI period. BCS, uterus horn diameter, absence of a CL, largest follicle of less than 13mm and PA were the pre-breeding examination variables that remained in prognostic models (P < 0.1). Combining either the model based on the three remaining US measures or RTS with PA provided more accurate prognostic models for pregnancy failure and anoestrus than using RTS alone (P < 0.05). It was concluded that US measures have prognostic value for pregnancy failure in restricted bred yearling heifers as a result of their association with anoestrus, and that smaller PA has additional value to identify poor performing heifers. In conclusion, pre-breeding examination is useful to identify beef cows with lower potential to reproduce successfully over the long term in a restricted breeding system. It is recommended that PA should always be included in such examination, either unadjusted or adjusted by BW, in herds with a low and high incidence of dystocia respectively, in combination with ultrasonography of the reproductive tract. When ultrasonography is not available, the accuracy of RTS by transrectal palpation can likely be improved by repeating it in low scoring animals after 7 days. / Thesis (PhD)--University of Pretoria, 2013. / gm2014 / Production Animal Studies / unrestricted

Beef heifers

Reproductive tract score

UCTD

RTS

The economic effects of an oestrus synchronisation protocol using prostaglandin and reproductive tract scoring in beef heifers in South Africa

Holm, D.E. (Dietmar Erik)

04 May 2007

In this study 272 beef heifers were studied from just prior to their first breeding season (15 October 2003), through their second breeding season and until just after they had weaned their first calves in March 2005. The study consisted of two main parts: in the first part, heifers were randomly allocated to either a synchronised TEST group or an unsynchronised CONTROL group. The TEST group received artificial insemination (AI) for 6 days followed by prostaglandin F2á (PGF) treatment on day 6 (PGF/6) and further AI for a total of 50 days, which was followed after a 6 day break by a 42 day bull breeding season. The CONTROL group were bred for the same period without PGF treatment. Synchronisation resulted in a reduction in days to first insemination (P < 0.01) and days to calving (P = 0.04). No significant difference could be demonstrated in pregnancy rate to the 50 day AI season (60.0% vs. 51.8%, TEST and CONTROL groups respectively, P = 0.18), final pregnancy rate (82.2% vs. 83.2%, P = 0.87) or pregnancy rate to the subsequent breeding season (96.0% vs. 95.0%, P = 1.00). A significant increase in mean weaning mass of the calves due to synchronisation could not be demonstrated (207.0 kg vs. 201.4 kg, TEST and CONTROL groups respectively, P = 0.32). However, data from this study were used to calculate the benefit:cost ratio, and a value of 2.8 was reached, representing the return on investment for the synchronisation protocol under these circumstances. It was concluded from this study that a PGF/6 protocol may lead to a change in the total mass of calves weaned by changing days to calving and thus weaning mass, birth mass of calves, weaning rate and/or the ratio of male:female calves born. It was further concluded that a practical way to predict the cost effectiveness of an oestrus synchronisation protocol is to determine the ratio between the total cost of the programme and the price of weaner calves per kg live mass. This ratio represents the minimum increase in mean weaning mass that has to be achieved for the programme to be cost effective if no increase in weaning rate is achieved. In the second part of this study, reproductive tract scoring (RTS) was performed on the same group of heifers one day before the onset of their first breeding season. The effect of RTS on several reproduction and production outcomes was tested, and the association of RTS with the outcomes was compared to the associations of other input variables such as mass, age, body condition score (BCS) and Kleiber ratio using multiple or univariable linear or logistic regression. RTS was associated with pregnancy rate to the 50 day AI season (P < 0.01), days to calving (r = 0.28, P < 0.01), calf weaning mass (r = 0.22, P < 0.01) and pregnancy rate to the subsequent breeding season (P < 0.01). These associations were mostly independent of associations with mass, age and BCS before the onset of the first breeding season. RTS was a better predictor of fertility than was Kleiber ratio, and similar in its prediction of calf weaning mass. It was concluded from this study that RTS is a unique predictor of heifer fertility, compares well with (but is independent of) other traits used as a predictor of production outcomes and is likely to be a good predictor of life production of the cow. / Dissertation (MSc (Veterinary Sciences))--University of Pretoria, 2006. / Production Animal Studies / unrestricted

Oestrus synchronisation

Prostaglandin

Reproductive tract score

Beef

South Africa

Heifers

Economic effects

UCTD

RTS

Crescimento e desenvolvimento reprodutivo de bezerras de corte para acasalamento aos 14 meses / Growth and development of reproductive beef heifers for breeding to 14 months

Fonseca Neto, álvaro Moraes da

25 February 2013

Conselho Nacional de Desenvolvimento Científico e Tecnológico / The experiment was conducted to evaluate the growth and reproductive development of beef heifers from 10 to 14 months of age in three food systems. Ryegrass pasture exclusively (Lolium multiflorum Lam.) or on pasture and receiving rice bran (0.8% of body weight) with or without ionophore. The experimental design was a completely randomized design with repeated measures, three food systems and nine replications, each animal considered an experimental unit. Body weight gain, body condition score and weight:height ratio (kg:cm) of heifers that received more ionophore rice bran were higher than those observed for heifers exclusively on ryegrass or receiving rice bran without ionophore. Regardless of the food system had hip height and pelvic area similar. Heifers that received rice bran with or without ionophore had higher reproductive tract score (RTS) that heifers exclusively on ryegrass. Heifers that received rice bran as a supplement with or without ionophore, the initial body weight of heifers was that best explained the variation in RTS, while the average daily gain of heifers on ryegrass exclusively explained the variation in RTS. / O experimento foi conduzido com o objetivo de avaliar o crescimento e o desenvolvimento reprodutivo de bezerras de corte dos 10 aos 14 meses em três sistemas alimentares, exclusivamente em pastagem de azevém (Lolium multiflorum Lam.) ou em pastagem e recebendo farelo de arroz integral (FAI) com ou sem adição de ionóforo. A quantidade diária de FAI correspondeu a 0,8% do peso corporal. O delineamento experimental foi o inteiramente casualizado, com medidas repetidas no tempo, três sistemas alimentares e nove repetições, sendo cada animal considerado uma unidade experimental. O peso corporal, ganho de escore de condição corporal e de relação peso:altura (kg:cm) de bezerras que receberam FAI mais ionóforo foram superiores aos observados por bezerras exclusivamente em azevém ou recebendo FAI sem adição de ionóforo. Independente do sistema alimentar as bezerras apresentaram altura de garupa e área pélvica similar. Bezerras que receberam FAI com ou sem ionóforo apresentaram maior escore de trato reprodutivo (ETR) que bezerras exclusivamente em azevém. Para bezerras que receberam FAI como suplemento com ou sem adição de ionóforo, o peso corporal inicial foi que melhor explicou a variação em ETR, enquanto o ganho médio diário das bezerras exclusivamente em azevém explicou a variação em ETR.

Angus

Sscore de trato reprodutivo

Farelo de arroz integral

Ionóforo

Angus

Reproductive tract score

Rice bran

Ionophore

CNPQ::CIENCIAS AGRARIAS::ZOOTECNIA

Crescimento e desempenho reprodutivo de novilhas Hereford aos 14/15 meses de idade / Growth and reproductive performance of 14- to 15-month-old hereford heifers

Landarin, Carolini Machado

January 2014

Com o objetivo de acasalar novilhas aos 14/15 meses de idade, cem bezerras Hereford foram submetidas a dois sistemas de alimentação (SA) de 20/06 a 20/08: a) PN=50 bezerras em pastagem natural; b) PNs=50 bezerras em pastagem natural suplementadas (14% PB; 72% NDT) a 1%/dia do peso corporal (PC). Em 20/08/2012, em lote único, pastejaram azevém (PA). Quinze dias antes do final deste periodo (18/10), metade das novilhas de cada SA passaram a receber a suplementação do PNs, estendendo-se por quinze dias no retorno à PN (03/11), constituindo novos SA: c) PNs-PAs: suplementadas em PN e por 15 dias em PA + 15 dias em PN; d) PNs-PA: suplementadas em PN; e) PN-PAs: suplementadas por 15 dias em PA + 15 dias em PN; f) PN-PA: sem suplementação. O período reprodutivo (PR) foi em PN. O escore de trato reprodutivo (ETR-US) e a área pélvica (APR) foram determinados aos 365 dias de idade. De 20/06 a 20/08, o ganho diário médio (GDM) e o peso corporal (PC) das bezerras do PNs foram 67,71% e 9,95% e 6,19% e 15,46% superiores, respectivamente, às do PN. O PNs também apresentou área do músculo longissimus (AOLUS) superior em 8,48%, 22,91% e 21,82%, respectivamente, ao PN. A suplementação proporcionou maior espessura de gordura subcutânea (EGSUS), 95,12% superior em relação ao PN. Em pastagem de azevém, na primeira pesagem, o PNs apresentou 5% de GDM superior às do PN. Bezerras do PNs apresentaram PC 13,36% superior ao PN e 18,20% e 13,33% de AOLUS superiores, respectivamente, aos valores do PN. O PNs obteve maior EGSUS, 1,43±0,67 e 0,89±0,75 mm, superando as do PN. Com o objetivo de acasalar novilhas aos 14/15 meses de idade, cem bezerras Hereford foram submetidas a dois sistemas de alimentação (SA) de 20/06 a 20/08: a) PN=50 bezerras em pastagem natural; b) PNs=50 bezerras em pastagem natural suplementadas (14% PB; 72% NDT) a 1%/dia do peso corporal (PC). Em 20/08/2012, em lote único, pastejaram azevém (PA). Quinze dias antes do final deste periodo (18/10), metade das novilhas de cada SA passaram a receber a suplementação do PNs, estendendo-se por quinze dias no retorno à PN (03/11), constituindo novos SA: c) PNs-PAs: suplementadas em PN e por 15 dias em PA + 15 dias em PN; d) PNs-PA: suplementadas em PN; e) PN-PAs: suplementadas por 15 dias em PA + 15 dias em PN; f) PN-PA: sem suplementação. O período reprodutivo (PR) foi em PN. O escore de trato reprodutivo (ETR-US) e a área pélvica (APR) foram determinados aos 365 dias de idade. De 20/06 a 20/08, o ganho diário médio (GDM) e o peso corporal (PC) das bezerras do PNs foram 67,71% e 9,95% e 6,19% e 15,46% superiores, respectivamente, às do PN. O PNs também apresentou área do músculo longissimus (AOLUS) superior em 8,48%, 22,91% e 21,82%, respectivamente, ao PN. A suplementação proporcionou maior espessura de gordura subcutânea (EGSUS), 95,12% superior em relação ao PN. Em pastagem de azevém, na primeira pesagem, o PNs apresentou 5% de GDM superior às do PN. Bezerras do PNs apresentaram PC 13,36% superior ao PN e 18,20% e 13,33% de AOLUS superiores, respectivamente, aos valores do PN. O PNs obteve maior EGSUS, 1,43±0,67 e 0,89±0,75 mm, superando as do PN. / Aiming at breeding heifers with 14-15 months of age, 100 Hereford calves were submitted to two feeding systems (FS) between 06/20 and 08/20: a) NP=50 calves grazing on natural pasture and b) NPs=50 calves grazing on natural pasture and fed a supplement (14% CP; 72% TDN) at 1% body weight (BW)/day. On 08/20, heifers were transferred as single group to a ryegrass (RG) pasture. During the last 15 days of ryegrass grazing (10/18) and the first 15 days upon returning to NP (11/03), half of the heifers in each previous FS were fed the supplement, thereby establishing new FS: c) NPs-RGs: previously supplemented on NP and supplemented for 15 days on RG + 15 days on NP; NPs-RG: previously supplemented on NP; e) NP-RGs: supplemented only for 15 days on RG + 15 days on NP; and f) NP-RG: not supplemented in either period. During the breeding season (BS), heifers grazed on NP. Reproductive tract score (TRS) and relative pelvic area (RPA) were determined at 365 days of age. On 07/20 and 08/20, NPs heifers presented 67.71% and 9.95% and 6.19% and 15.46% higher daily weight gain (DWG) and BW than NP heifers, as well as 22.91% and 21.82% larger loin eye area (UREA) and 95.12% average thicker backfat (UFT). At the end of the grazing period, NPs heifers were, on average, 13.36% heavier, and presented higher average UFT than NP (1.43±0.67 vs. 0.89±0.75). Between 10/18 and 11/18, NPs-RGs and NP-RGs heifers presented higher DWG and the highest UFT values were obtained in NPs-RGs heifers. At the start of the BS, NPs-RGs had higher BCS and BW. RPA of NPs-RGs (106.41±11.92 cm²) was only different from NP-RGs (93.74±11.76 cm²). The highest percentage of puberty was determined in NPs-RG (34.3%). The presence of CL was detected in 17.8% of the heifers. Pregnancy rates of 47%, 22%, 18%, and 13% were obtained in NPs-RGs, NPs-RG, NP-RGs, and NP-RG heifers, respectively. Pregnant heifers presented higher DWG between 10/18 and 11/18, and higher RPA, BW, and BCS at the start and end of the BS. Higher pasture DM content and higher supplement levels than those evaluated in the present study are required to achieve better calf development and better reproduction indices when aiming at breeding heifers at 14-15 months of age.

Produção animal

Pastagem natural

Melhoramento vegetal

Performance

Reprodução animal

Novilho

Gado hereford

Gado de corte

Longissimus muscle area

Pelvic area

Reproductive tract score

Backfat thickness

Natural pasture

Supplementation

Crescimento e desempenho reprodutivo de novilhas Hereford aos 14/15 meses de idade / Growth and reproductive performance of 14- to 15-month-old hereford heifers

Landarin, Carolini Machado

January 2014

Com o objetivo de acasalar novilhas aos 14/15 meses de idade, cem bezerras Hereford foram submetidas a dois sistemas de alimentação (SA) de 20/06 a 20/08: a) PN=50 bezerras em pastagem natural; b) PNs=50 bezerras em pastagem natural suplementadas (14% PB; 72% NDT) a 1%/dia do peso corporal (PC). Em 20/08/2012, em lote único, pastejaram azevém (PA). Quinze dias antes do final deste periodo (18/10), metade das novilhas de cada SA passaram a receber a suplementação do PNs, estendendo-se por quinze dias no retorno à PN (03/11), constituindo novos SA: c) PNs-PAs: suplementadas em PN e por 15 dias em PA + 15 dias em PN; d) PNs-PA: suplementadas em PN; e) PN-PAs: suplementadas por 15 dias em PA + 15 dias em PN; f) PN-PA: sem suplementação. O período reprodutivo (PR) foi em PN. O escore de trato reprodutivo (ETR-US) e a área pélvica (APR) foram determinados aos 365 dias de idade. De 20/06 a 20/08, o ganho diário médio (GDM) e o peso corporal (PC) das bezerras do PNs foram 67,71% e 9,95% e 6,19% e 15,46% superiores, respectivamente, às do PN. O PNs também apresentou área do músculo longissimus (AOLUS) superior em 8,48%, 22,91% e 21,82%, respectivamente, ao PN. A suplementação proporcionou maior espessura de gordura subcutânea (EGSUS), 95,12% superior em relação ao PN. Em pastagem de azevém, na primeira pesagem, o PNs apresentou 5% de GDM superior às do PN. Bezerras do PNs apresentaram PC 13,36% superior ao PN e 18,20% e 13,33% de AOLUS superiores, respectivamente, aos valores do PN. O PNs obteve maior EGSUS, 1,43±0,67 e 0,89±0,75 mm, superando as do PN. Com o objetivo de acasalar novilhas aos 14/15 meses de idade, cem bezerras Hereford foram submetidas a dois sistemas de alimentação (SA) de 20/06 a 20/08: a) PN=50 bezerras em pastagem natural; b) PNs=50 bezerras em pastagem natural suplementadas (14% PB; 72% NDT) a 1%/dia do peso corporal (PC). Em 20/08/2012, em lote único, pastejaram azevém (PA). Quinze dias antes do final deste periodo (18/10), metade das novilhas de cada SA passaram a receber a suplementação do PNs, estendendo-se por quinze dias no retorno à PN (03/11), constituindo novos SA: c) PNs-PAs: suplementadas em PN e por 15 dias em PA + 15 dias em PN; d) PNs-PA: suplementadas em PN; e) PN-PAs: suplementadas por 15 dias em PA + 15 dias em PN; f) PN-PA: sem suplementação. O período reprodutivo (PR) foi em PN. O escore de trato reprodutivo (ETR-US) e a área pélvica (APR) foram determinados aos 365 dias de idade. De 20/06 a 20/08, o ganho diário médio (GDM) e o peso corporal (PC) das bezerras do PNs foram 67,71% e 9,95% e 6,19% e 15,46% superiores, respectivamente, às do PN. O PNs também apresentou área do músculo longissimus (AOLUS) superior em 8,48%, 22,91% e 21,82%, respectivamente, ao PN. A suplementação proporcionou maior espessura de gordura subcutânea (EGSUS), 95,12% superior em relação ao PN. Em pastagem de azevém, na primeira pesagem, o PNs apresentou 5% de GDM superior às do PN. Bezerras do PNs apresentaram PC 13,36% superior ao PN e 18,20% e 13,33% de AOLUS superiores, respectivamente, aos valores do PN. O PNs obteve maior EGSUS, 1,43±0,67 e 0,89±0,75 mm, superando as do PN. / Aiming at breeding heifers with 14-15 months of age, 100 Hereford calves were submitted to two feeding systems (FS) between 06/20 and 08/20: a) NP=50 calves grazing on natural pasture and b) NPs=50 calves grazing on natural pasture and fed a supplement (14% CP; 72% TDN) at 1% body weight (BW)/day. On 08/20, heifers were transferred as single group to a ryegrass (RG) pasture. During the last 15 days of ryegrass grazing (10/18) and the first 15 days upon returning to NP (11/03), half of the heifers in each previous FS were fed the supplement, thereby establishing new FS: c) NPs-RGs: previously supplemented on NP and supplemented for 15 days on RG + 15 days on NP; NPs-RG: previously supplemented on NP; e) NP-RGs: supplemented only for 15 days on RG + 15 days on NP; and f) NP-RG: not supplemented in either period. During the breeding season (BS), heifers grazed on NP. Reproductive tract score (TRS) and relative pelvic area (RPA) were determined at 365 days of age. On 07/20 and 08/20, NPs heifers presented 67.71% and 9.95% and 6.19% and 15.46% higher daily weight gain (DWG) and BW than NP heifers, as well as 22.91% and 21.82% larger loin eye area (UREA) and 95.12% average thicker backfat (UFT). At the end of the grazing period, NPs heifers were, on average, 13.36% heavier, and presented higher average UFT than NP (1.43±0.67 vs. 0.89±0.75). Between 10/18 and 11/18, NPs-RGs and NP-RGs heifers presented higher DWG and the highest UFT values were obtained in NPs-RGs heifers. At the start of the BS, NPs-RGs had higher BCS and BW. RPA of NPs-RGs (106.41±11.92 cm²) was only different from NP-RGs (93.74±11.76 cm²). The highest percentage of puberty was determined in NPs-RG (34.3%). The presence of CL was detected in 17.8% of the heifers. Pregnancy rates of 47%, 22%, 18%, and 13% were obtained in NPs-RGs, NPs-RG, NP-RGs, and NP-RG heifers, respectively. Pregnant heifers presented higher DWG between 10/18 and 11/18, and higher RPA, BW, and BCS at the start and end of the BS. Higher pasture DM content and higher supplement levels than those evaluated in the present study are required to achieve better calf development and better reproduction indices when aiming at breeding heifers at 14-15 months of age.

Produção animal

Pastagem natural

Melhoramento vegetal

Performance

Reprodução animal

Novilho

Gado hereford

Gado de corte

Longissimus muscle area

Pelvic area

Reproductive tract score

Backfat thickness

Natural pasture

Supplementation

Crescimento e desempenho reprodutivo de novilhas Hereford aos 14/15 meses de idade / Growth and reproductive performance of 14- to 15-month-old hereford heifers

Landarin, Carolini Machado

January 2014

Com o objetivo de acasalar novilhas aos 14/15 meses de idade, cem bezerras Hereford foram submetidas a dois sistemas de alimentação (SA) de 20/06 a 20/08: a) PN=50 bezerras em pastagem natural; b) PNs=50 bezerras em pastagem natural suplementadas (14% PB; 72% NDT) a 1%/dia do peso corporal (PC). Em 20/08/2012, em lote único, pastejaram azevém (PA). Quinze dias antes do final deste periodo (18/10), metade das novilhas de cada SA passaram a receber a suplementação do PNs, estendendo-se por quinze dias no retorno à PN (03/11), constituindo novos SA: c) PNs-PAs: suplementadas em PN e por 15 dias em PA + 15 dias em PN; d) PNs-PA: suplementadas em PN; e) PN-PAs: suplementadas por 15 dias em PA + 15 dias em PN; f) PN-PA: sem suplementação. O período reprodutivo (PR) foi em PN. O escore de trato reprodutivo (ETR-US) e a área pélvica (APR) foram determinados aos 365 dias de idade. De 20/06 a 20/08, o ganho diário médio (GDM) e o peso corporal (PC) das bezerras do PNs foram 67,71% e 9,95% e 6,19% e 15,46% superiores, respectivamente, às do PN. O PNs também apresentou área do músculo longissimus (AOLUS) superior em 8,48%, 22,91% e 21,82%, respectivamente, ao PN. A suplementação proporcionou maior espessura de gordura subcutânea (EGSUS), 95,12% superior em relação ao PN. Em pastagem de azevém, na primeira pesagem, o PNs apresentou 5% de GDM superior às do PN. Bezerras do PNs apresentaram PC 13,36% superior ao PN e 18,20% e 13,33% de AOLUS superiores, respectivamente, aos valores do PN. O PNs obteve maior EGSUS, 1,43±0,67 e 0,89±0,75 mm, superando as do PN. Com o objetivo de acasalar novilhas aos 14/15 meses de idade, cem bezerras Hereford foram submetidas a dois sistemas de alimentação (SA) de 20/06 a 20/08: a) PN=50 bezerras em pastagem natural; b) PNs=50 bezerras em pastagem natural suplementadas (14% PB; 72% NDT) a 1%/dia do peso corporal (PC). Em 20/08/2012, em lote único, pastejaram azevém (PA). Quinze dias antes do final deste periodo (18/10), metade das novilhas de cada SA passaram a receber a suplementação do PNs, estendendo-se por quinze dias no retorno à PN (03/11), constituindo novos SA: c) PNs-PAs: suplementadas em PN e por 15 dias em PA + 15 dias em PN; d) PNs-PA: suplementadas em PN; e) PN-PAs: suplementadas por 15 dias em PA + 15 dias em PN; f) PN-PA: sem suplementação. O período reprodutivo (PR) foi em PN. O escore de trato reprodutivo (ETR-US) e a área pélvica (APR) foram determinados aos 365 dias de idade. De 20/06 a 20/08, o ganho diário médio (GDM) e o peso corporal (PC) das bezerras do PNs foram 67,71% e 9,95% e 6,19% e 15,46% superiores, respectivamente, às do PN. O PNs também apresentou área do músculo longissimus (AOLUS) superior em 8,48%, 22,91% e 21,82%, respectivamente, ao PN. A suplementação proporcionou maior espessura de gordura subcutânea (EGSUS), 95,12% superior em relação ao PN. Em pastagem de azevém, na primeira pesagem, o PNs apresentou 5% de GDM superior às do PN. Bezerras do PNs apresentaram PC 13,36% superior ao PN e 18,20% e 13,33% de AOLUS superiores, respectivamente, aos valores do PN. O PNs obteve maior EGSUS, 1,43±0,67 e 0,89±0,75 mm, superando as do PN. / Aiming at breeding heifers with 14-15 months of age, 100 Hereford calves were submitted to two feeding systems (FS) between 06/20 and 08/20: a) NP=50 calves grazing on natural pasture and b) NPs=50 calves grazing on natural pasture and fed a supplement (14% CP; 72% TDN) at 1% body weight (BW)/day. On 08/20, heifers were transferred as single group to a ryegrass (RG) pasture. During the last 15 days of ryegrass grazing (10/18) and the first 15 days upon returning to NP (11/03), half of the heifers in each previous FS were fed the supplement, thereby establishing new FS: c) NPs-RGs: previously supplemented on NP and supplemented for 15 days on RG + 15 days on NP; NPs-RG: previously supplemented on NP; e) NP-RGs: supplemented only for 15 days on RG + 15 days on NP; and f) NP-RG: not supplemented in either period. During the breeding season (BS), heifers grazed on NP. Reproductive tract score (TRS) and relative pelvic area (RPA) were determined at 365 days of age. On 07/20 and 08/20, NPs heifers presented 67.71% and 9.95% and 6.19% and 15.46% higher daily weight gain (DWG) and BW than NP heifers, as well as 22.91% and 21.82% larger loin eye area (UREA) and 95.12% average thicker backfat (UFT). At the end of the grazing period, NPs heifers were, on average, 13.36% heavier, and presented higher average UFT than NP (1.43±0.67 vs. 0.89±0.75). Between 10/18 and 11/18, NPs-RGs and NP-RGs heifers presented higher DWG and the highest UFT values were obtained in NPs-RGs heifers. At the start of the BS, NPs-RGs had higher BCS and BW. RPA of NPs-RGs (106.41±11.92 cm²) was only different from NP-RGs (93.74±11.76 cm²). The highest percentage of puberty was determined in NPs-RG (34.3%). The presence of CL was detected in 17.8% of the heifers. Pregnancy rates of 47%, 22%, 18%, and 13% were obtained in NPs-RGs, NPs-RG, NP-RGs, and NP-RG heifers, respectively. Pregnant heifers presented higher DWG between 10/18 and 11/18, and higher RPA, BW, and BCS at the start and end of the BS. Higher pasture DM content and higher supplement levels than those evaluated in the present study are required to achieve better calf development and better reproduction indices when aiming at breeding heifers at 14-15 months of age.

Produção animal

Pastagem natural

Melhoramento vegetal

Performance

Reprodução animal

Novilho

Gado hereford

Gado de corte

Longissimus muscle area

Pelvic area

Reproductive tract score

Backfat thickness

Natural pasture

Supplementation