Genetics of early and lifetime annual reproductive performance in cows of two tropical beef genotypes in northern Australia
D. J. Johnston A B G , S. A. Barwick A B , G. Fordyce A C , R. G. Holroyd A D , P. J. Williams A E , N. J. Corbet A E and T. Grant A FA Cooperative Research Centre for Beef Genetic Technologies.
B Animal Genetics and Breeding Unit1, University of New England, Armidale, NSW 2351, Australia.
C Queensland Department of Agriculture, Fisheries and Forestry, Charters Towers, Qld 4820, Australia.
D Queensland Department of Agriculture, Fisheries and Forestry, Rockhampton, Qld 4700, Australia.
E CSIRO Livestock Industries, Rockhampton, Qld 4700, Australia.
F Queensland Department of Agriculture, Fisheries and Forestry, Gayndah, Qld 4625, Australia.
G Corresponding author. Email: djohnsto@une.edu.au
Animal Production Science 54(1) 1-15 https://doi.org/10.1071/AN13043
Submitted: 1 February 2013 Accepted: 11 April 2013 Published: 20 August 2013
Abstract
Reproduction records from 2137 cows first mated at 2 years of age and recorded through to 8.5 years of age were used to study the genetics of early and lifetime reproductive performance from two genotypes (1020 Brahman and 1117 Tropical Composite) in tropical Australian production systems. Regular ultrasound scanning of the reproductive tract, coupled with full recording of mating, calving and weaning histories, allowed a comprehensive evaluation of a range of reproductive traits. Results showed components traits of early reproductive performance had moderate to high heritabilities, especially in Brahmans. The heritability of lactation anoestrous interval in 3-year-old cows was 0.51 ± 0.18 and 0.26 ± 0.11 for Brahman and Tropical Composite, respectively. Heritabilities of binary reproductive output traits (conception rate, pregnancy rate, calving rate and weaning rate) from first and second matings were generally moderate to high on the underlying scale. Estimates ranged from 0.15 to 0.69 in Brahman and 0.15 to 0.34 in Tropical Composite, but were considerably lower when expressed on the observed scale, particularly for those traits with high mean levels. Heritabilities of lifetime reproduction traits were low, with estimates of 0.11 ± 0.06 and 0.07 ± 0.06 for lifetime annual weaning rate in Brahman and Tropical Composite, respectively. Significant differences in mean reproductive performance were observed between the two genotypes, especially for traits associated with anoestrus in first-lactation cows. Genetic correlations between early-in-life reproductive measures and lifetime reproduction traits were moderate to high. Genetic correlations between lactation anoestrous interval and lifetime annual weaning rate were –0.62 ± 0.24 in Brahman and –0.87 ± 0.32 in Tropical Composite. The results emphasise the substantial opportunity that exists to genetically improve weaning rates in tropical beef cattle breeds by focusing recording and selection on early-in-life female reproduction traits, particularly in Brahman for traits associated with lactation anoestrus.
Additional keywords: heritability, lactation anoestrus.
References
Abeygunawardena H, Demarawewa CMB (2004) Pre-pubertal and postpartum anoestrus in tropical Zebu cattle. Animal Reproduction Science 82–83, 373–387.| Pre-pubertal and postpartum anoestrus in tropical Zebu cattle.Crossref | GoogleScholarGoogle Scholar | 15271467PubMed |
Baker AA (1968) Oestrus and ovarian activity in lactating Sahiwal-Shorthorn beef cows in south-eastern Queensland. Proceedings of Australian Society of Animal Production 7, 172–176.
Baker AA (1969) Post partum anoestrus in cattle. Australian Veterinary Journal 45, 180–183.
| Post partum anoestrus in cattle.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DyaF1M7osFOquw%3D%3D&md5=5d05348494a2a56e14397b88b0a55af3CAS | 5814105PubMed |
Balieiro JCC, Fler JP, Ferraz JBS, Mattos EC, Balieiro CC (2008) Genetic parameters for productive life traits and reproductive efficiency traits at 6 years in Nellore cattle. Genetics and Molecular Research 7, 1312–1318.
| Genetic parameters for productive life traits and reproductive efficiency traits at 6 years in Nellore cattle.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DC%2BD1cjps1GltQ%3D%3D&md5=c9db42b186e83e10ead11a8cda090633CAS |
Bamber RL, Shook GE, Wiltbank MC, Santos JEP, Fricke PM (2009) Genetic parameters for anovulation and pregnancy loss in dairy cattle Journal of Dairy Science 92, 5739–5753.
| Genetic parameters for anovulation and pregnancy loss in dairy cattleCrossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD1MXhtlKns7%2FP&md5=02a91c48d3680ef11d418c4a06554ac0CAS | 19841234PubMed |
Barwick SA, Wolcott ML, Johnston DJ, Burrow HM, Sullivan M (2009a) Genetics of steer daily feed intake and residual feed intake in tropical beef genotypes and relations among intake, body composition, growth and other post weaning measures. Animal Production Science 49, 351–366.
| Genetics of steer daily feed intake and residual feed intake in tropical beef genotypes and relations among intake, body composition, growth and other post weaning measures.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD1MXotFOgtrc%3D&md5=d8bc7838d05e31202598bec42ed148d7CAS |
Barwick SA, Johnston DJ, Burrow HM, Holroyd RG, Fordyce G, Wolcott ML, Sim W, Sullivan M (2009b) Genetics of heifer performance in ‘wet’ and ‘dry’ seasons and their relationships with steer performance in two tropical beef genotypes. Animal Production Science 49, 367–382.
| Genetics of heifer performance in ‘wet’ and ‘dry’ seasons and their relationships with steer performance in two tropical beef genotypes.Crossref | GoogleScholarGoogle Scholar |
Buddenberg BJ, Brown CJ, Johnston ZB, Dunn JE, Peterson HP (1989) Heritability estimates of pregnancy rate in beef cows under natural mating. Journal of Animal Science 67, 2589–2594.
Burns BM, Corbet NJ, Corbet DH, Crisp JM, Venus BK, Johnston DJ, Li Y, McGowan MR, Holroyd RG (2013) Male traits and herd reproductive capability in tropical beef cattle. 1. Experimental design and animal measures. Animal Production Science 53, 87–100.
| Male traits and herd reproductive capability in tropical beef cattle. 1. Experimental design and animal measures.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3sXns12jsA%3D%3D&md5=6d8a17ed159f91476b0507b7376925ceCAS |
Burrow HM (2001) Variances and covariances between productive and adaptive traits and temperament in a composite breed of tropical beef cattle Livestock Production Science 70, 213–233.
| Variances and covariances between productive and adaptive traits and temperament in a composite breed of tropical beef cattleCrossref | GoogleScholarGoogle Scholar |
Burrow HM, Johnston DJ, Barwick SA, Holroyd RG, Barendse W, Thompson JM, Griffith GR, Sullivan M (2003) Relationships between carcass and beef quality and components of herd profitability in northern Australia. Proceedings for the Association for the Advancement of Animal Breeding and Genetics 15, 359–362.
Cammack KM, Thomas MG, Enns RM (2009) Review: reproductive traits and their heritabilities in beef cattle. The Professional Animal Scientist 25, 517–528.
Corbet NJ, Burns BM, Johnston DJ, Wolcott ML, Corbet DH, Venus BK, Li Y, McGowan MR, Holroyd RG (2013) Male traits and herd reproductive capability in tropical beef cattle. 2. Genetic parameters of bull traits. Animal Production Science 53, 101–113.
| Male traits and herd reproductive capability in tropical beef cattle. 2. Genetic parameters of bull traits.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3sXns12jtg%3D%3D&md5=d016b4a07f03cf3c3c9f05c5154f32feCAS |
Davis GP (1993) Genetic parameters for tropical beef cattle in northern Australia: a review. Australian Journal of Agricultural Research 44, 179–198.
| Genetic parameters for tropical beef cattle in northern Australia: a review.Crossref | GoogleScholarGoogle Scholar |
Davis GP, Corbet NJ, Mackinnon MJ, Hetzel DJS, Entwistle KW, Dixon R (1993) Response in female fertility and calf growth to selection for pregnancy rate in tropical beef cattle. Australian Journal of Agricultural Research 44, 1509–1521.
| Response in female fertility and calf growth to selection for pregnancy rate in tropical beef cattle.Crossref | GoogleScholarGoogle Scholar |
Entwistle KW (1983) Factors influencing reproduction in beef cattle in Australia. Australian Meat Research Committee Review 43, 1–30.
Entwistle KW, Fordyce G (2003) ‘Evaluating and reporting bull fertility.’ (Australian Cattle Veterinarians: Eight Mile Plains, Qld)
Fordyce G, Cooper NJ, Kendall IE, O’Leary BM, de Faveri J (1996) Creep feeding and pre-partum supplementation effects on growth and fertility of Brahman cross cattle in the dry tropics. Australian Journal of Experimental Agriculture 36, 389–395.
| Creep feeding and pre-partum supplementation effects on growth and fertility of Brahman cross cattle in the dry tropics.Crossref | GoogleScholarGoogle Scholar |
Fordyce G, Fitzpatrick LA, Mullins TJ, Cooper NJ, Reid DJ, Entwistle KW (1997) Pre-partum supplementation effects on growth and fertility in Bos indicus cross cows. Australian Journal of Experimental Agriculture 37, 141–149.
| Pre-partum supplementation effects on growth and fertility in Bos indicus cross cows.Crossref | GoogleScholarGoogle Scholar |
Fordyce G, Entwistle K, Norman S, Perry V, Gardiner B, Fordyce P (2006) Standardising bull breeding soundness evaluations and reporting in Australia. Theriogenology 66, 1140–1148.
| Standardising bull breeding soundness evaluations and reporting in Australia.Crossref | GoogleScholarGoogle Scholar | 16620941PubMed |
Frisch JE, Munro RK, O’Neill CJ (1987) Some factors related to calf crops of Brahman, Brahman crossbred and Hereford × Shorthorn cows in a stress tropical environment. Animal Reproduction Science 15, 1–26.
| Some factors related to calf crops of Brahman, Brahman crossbred and Hereford × Shorthorn cows in a stress tropical environment.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaL1cXpt1WlsQ%3D%3D&md5=11ff768f6b4740525544c653bedd57a7CAS |
Gilmour AR, Cullis BR, Welham SJ, Gogel B, Thompson R (2004) An efficient computing strategy for prediction in linear mixed models. Computational Statistics & Data Analysis 44, 571–586.
| An efficient computing strategy for prediction in linear mixed models.Crossref | GoogleScholarGoogle Scholar |
Gilmour AR, Gogel BJ, Cullis BR, Thompson R (2009) ‘ASRemL user guide. Release 3.0.’ (VSN International: Hemel Hempstead, UK)
Graser H-U, Tier B, Johnston DJ, Barwick SA (2005) Genetic evaluation for the beef industry in Australia. Australian Journal of Experimental Agriculture 45, 913–921.
| Genetic evaluation for the beef industry in Australia.Crossref | GoogleScholarGoogle Scholar |
Hetzel DJS, Mackinnon MJ, Dixon R, Entwistle KW (1989) Fertility in a tropical beef herd divergently selected for pregnancy rate. Animal Production 49, 73–81.
| Fertility in a tropical beef herd divergently selected for pregnancy rate.Crossref | GoogleScholarGoogle Scholar |
Holroyd RG, James TA, Anderson VJ, Fordyce G, Tyler R, O’Rourke PK (1990) The performance of Brahman-Shorthorn and Sahiwal-Shorthorn beef cattle in the dry tropics of northern Queensland. 2. Reproductive rates and liveweight of F2 et seq. females. Australian Journal of Experimental Agriculture 30, 727–733.
| The performance of Brahman-Shorthorn and Sahiwal-Shorthorn beef cattle in the dry tropics of northern Queensland. 2. Reproductive rates and liveweight of F2 et seq. females.Crossref | GoogleScholarGoogle Scholar |
Johnston DJ, Bunter KL (1996) Days to calving in Angus cattle: genetic and environmental effects and covariances with other traits. Livestock Production Science 45, 13–22.
| Days to calving in Angus cattle: genetic and environmental effects and covariances with other traits.Crossref | GoogleScholarGoogle Scholar |
Johnston DJ, Barwick SA, Corbet NJ, Fordyce G, Holroyd RG, Williams PJ, Burrow HM (2009) Genetics of heifer puberty in two tropical beef genotypes in northern Australia and associations with heifer- and steer-production traits. Animal Production Science 49, 399–412.
| Genetics of heifer puberty in two tropical beef genotypes in northern Australia and associations with heifer- and steer-production traits.Crossref | GoogleScholarGoogle Scholar |
Koots KR, Gibson JP, Smith C, Wilton JW (1995) Analyses of published genetic parameter estimates for beef production traits. 1. Heritability. Animal Breeding Abstracts 62, 309–338.
Mackinnon MJ, Hetzel DJS, Taylor JF (1989) Genetic environment effects on the fertility of beef cattle in a tropical environment. Australian Journal of Agricultural Research 40, 1085–1097.
Mackinnon MJ, Taylor JF, Hetzel DJS (1990) Genetic variation and covariation in beef cow and bull fertility. Journal of Animal Science 68, 1208–1214.
Martinez GE, Koch RM, Cundiff LV, Gregory KE, Van Vleck LD (2004) Number of calves born, number calves weaned, and cumulative weaning weight as measures of lifetime production for Hereford cows. Journal of Animal Science 82, 1903–1911.
McSweeney CS, Kennedy PM, D’Occhio MJ, Fitzpatrick LA, Reid D, Entwistle KW (1993) Reducing part-partum anoestrous interval in first-calf Bos indicus crossbred beef heifers. II. Response to weaning and supplementation. Australian Journal of Agricultural Research 44, 1079–1092.
| Reducing part-partum anoestrous interval in first-calf Bos indicus crossbred beef heifers. II. Response to weaning and supplementation.Crossref | GoogleScholarGoogle Scholar |
Meyer K, Hammond K, Parnell PF, Mackinnon MJ, Sivarajasingam S (1990) Estimates of heritabilities and repeatabilities for reproductive traits in Australian beef cattle. Livestock Production Science 25, 15–30.
| Estimates of heritabilities and repeatabilities for reproductive traits in Australian beef cattle.Crossref | GoogleScholarGoogle Scholar |
Mialon M-M, Renand G, Krauss D, Menissier F (2000) Genetic variability of the length of postpartum anoestrus in Charolais cows and its relationship with age at puberty. Genetics, Selection, Evolution. 32, 403–414.
| Genetic variability of the length of postpartum anoestrus in Charolais cows and its relationship with age at puberty.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DC%2BD2c%2Fms1Ojsw%3D%3D&md5=1e97f91af011c27a284e343fcd060fafCAS | 14736386PubMed |
Minick Bormann J, Totir LR, Kachman SD, Fernando RL, Wilson DE (2006) Pregnancy rate and first-service conception rate in Angus heifers. Journal of Animal Science 84, 2022–2025.
| Pregnancy rate and first-service conception rate in Angus heifers.Crossref | GoogleScholarGoogle Scholar |
Montiel F, Ahuja C (2005) Body composition and suckling as factors influencing the duration of postpartum anestrus in cattle: a review. Animal Reproduction Science 85, 1–26.
| Body composition and suckling as factors influencing the duration of postpartum anestrus in cattle: a review.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DC%2BD2crot12ltA%3D%3D&md5=41218c7de9ec253b64470871671f79d3CAS | 15556305PubMed |
Morris CA, Cullen NG (1994) A note on genetic correlations between pubertal traits of males or females and lifetime pregnancy rate in beef cattle. Livestock Production Science 39, 291–297.
| A note on genetic correlations between pubertal traits of males or females and lifetime pregnancy rate in beef cattle.Crossref | GoogleScholarGoogle Scholar |
Morris CA, Wilson JA, Bennett GL, Cullen NG, Hickey SM, Hunter JC (2000) Genetic parameters for growth, puberty, and beef cow reproductive traits in a puberty selection experiment. New Zealand Journal of Agricultural Research 43, 83–91.
| Genetic parameters for growth, puberty, and beef cow reproductive traits in a puberty selection experiment.Crossref | GoogleScholarGoogle Scholar |
O’Rourke PK, Doogan VJ, Robertson DJ, Cooke D (1991) Prediction of conception rate in extensive beef herds in north-western Australia. 2. Continuous mating and minimal management. Australian Journal of Experimental Agriculture 31, 9–14.
| Prediction of conception rate in extensive beef herds in north-western Australia. 2. Continuous mating and minimal management.Crossref | GoogleScholarGoogle Scholar |
O’Rourke PK, Fordyce G, Holroyd RG, Loxton ID (1995) Mortality, wastage and lifetime productivity of Bos indicus cows under extensive grazing in northern Australia. 1. Seasonal mating in the speargrass region. Australian Journal of Experimental Agriculture 35, 285–295.
| Mortality, wastage and lifetime productivity of Bos indicus cows under extensive grazing in northern Australia. 1. Seasonal mating in the speargrass region.Crossref | GoogleScholarGoogle Scholar |
Petersson K-J, Berglund B, Strandberg E, Gustafsson H, Flint APF, Woolliams JA, Royal MD (2007) Genetic analysis of postpartum measures of luteal activity in dairy cows. Journal of Dairy Science 90, 427–434.
| Genetic analysis of postpartum measures of luteal activity in dairy cows.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD2sXmsFSksg%3D%3D&md5=e99e081cb17227a3a5a47c8734afcc88CAS | 17183111PubMed |
Prayaga KC (2004) Evaluation of beef cattle genotypes and estimation of direct and maternal genetic effects in a tropical environment. 3. Fertility and calf survival traits. Australian Journal of Agricultural Research 55, 811–824.
| Evaluation of beef cattle genotypes and estimation of direct and maternal genetic effects in a tropical environment. 3. Fertility and calf survival traits.Crossref | GoogleScholarGoogle Scholar |
Prayaga KC, Corbet NJ, Johnston DJ, Wolcott ML, Fordyce G, Burrow HM (2009) Genetics of adaptive traits in heifers and their relationship to growth, pubertal and carcass traits in two tropical beef cattle genotypes. Animal Production Science 49, 413–425.
| Genetics of adaptive traits in heifers and their relationship to growth, pubertal and carcass traits in two tropical beef cattle genotypes.Crossref | GoogleScholarGoogle Scholar |
Randel RD (1990) Nutrition and postpartum rebreeding in cattle. Journal of Animal Science 68, 853–862.
Schatz TJ, Hearnden MN (2008) Heifer fertility on commercial cattle properties in the Northern Territory. Australian Journal of Experimental Agriculture 48, 940–944.
| Heifer fertility on commercial cattle properties in the Northern Territory.Crossref | GoogleScholarGoogle Scholar |
Schatz TJ, Jayawardhana GA, Golding R, Hearnden MN (2010) Selection for fertility traits in Brahmans increases heifer pregnancy rates from yearling mating. Animal Production Science 50, 345–348.
| Selection for fertility traits in Brahmans increases heifer pregnancy rates from yearling mating.Crossref | GoogleScholarGoogle Scholar |
Short RE, Bellows RA, Staigmiller RB, Berardinelli JG, Custer EE (1990) Physiological mechanisms controlling anestrus and infertility in postpartum beef cattle. Journal of Animal Science 68, 799–816.
Wall E, Brotherstone S, Woolliams JA, Banos G, Coffey MP (2003) Genetic evaluation of fertility using direct and correlated traits. Journal of Dairy Science 86, 4093–4102.
| Genetic evaluation of fertility using direct and correlated traits.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD3sXhtVWgsL7J&md5=0a275dd705dce3ef1d5f8d8d1a30651dCAS | 14740850PubMed |
Williams GL, Amstalden M (2010) Understanding postpartum anestrus and puberty in the beef female. In ‘Proceedings of applied reproductive strategies in beef cattle. San Antonio, TX’. pp. 55–71. Available at http://www.appliedreprostrategies.com/2010/January/newsroom.html [Verified 3 May 2013]
Wolcott ML, Johnston DJ, Barwick SA, Corbet NJ, Williams PJ (2014) The genetics of cow growth and body composition at first calving in two tropical beef genotypes. Animal Production Science 54, 37–49.
| The genetics of cow growth and body composition at first calving in two tropical beef genotypes.Crossref | GoogleScholarGoogle Scholar |