Genetic Prediction Models and Heritability Estimates for Functional Longevity in Dairy Cattle

Imbayarwo-Chikosi, V. E.; Dzama, K.; Halimani, T. E.; Wyk, J.B. van; Maiwashe, A.; Banga, C.B.

doi:10.4314/sajas.v45i2.1

Cited by 17 publications

(8 citation statements)

References 89 publications

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“…The different trait definitions (e.g. total lifetime, true productive life, functional productive life, number of parities, lifetime days in milk, survival to fixed age) and the different methods used in genetic evaluation of longevity doi: 10.17221/87/2016-CJAS based on linear, random regression, threshold, or proportional hazards (PH) models produce a wide range of heritability estimates (0.01-0.22); linear models yield lower estimates (0.01-0.10) (Sasaki 2013;Imbayarwo-Chikosi et al 2015). Survival analysis, which provides a better description of longevity data than other models do, leads to more complete extraction of genetic variance and thus higher heritability estimates (Vukasinovic et al 1999).…”

Section: Discussionmentioning

confidence: 99%

Genetic evaluation for functional longevity in Polish Simmental cattle

Morek-Kopeć¹,

Zarnecki²

2017

CZECH J ANIM SCI

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Morek-Kopeć M., Zarnecki A. (2017): Genetic evaluation for functional longevity in Polish Simmental cattle. Czech J. Anim. Sci., 62, 276-286.The Weibull proportional hazards model was applied for genetic evaluation of functional longevity in Polish Simmentals. Data consisted of production and disposal records for 12 527 Simmental cows, daughters of 294 sires, calving for the first time from 1995 to 2014 in 286 herds. Length of productive life of cows was calculated as number of days from the first calving to culling or censoring. Average length of productive life of 4462 cows with complete (uncensored) survival records was 1198 days (39.3 months); mean censoring time for the remaining 8065 cows was 1093 days (35.8 months). Functional longevity was defined as length of productive life corrected for production. The model included time-independent fixed effect of age at first calving, time-dependent fixed effects of year-season, parity-stage of lactation, annual change in herd size, relative fat yield and protein yield, and random herd-year-season and sire effects. Likelihood ratio tests showed a highly significant impact of all fixed effects on longevity, except for relative fat yield. Estimated sire variance was 0.069, resulting in the equivalent (accounting for censoring level) heritability of 0.09. Standardized relative breeding values (RBV) ranged from 71 to 139 (mean 101.4, SD 9.12). Average reliability of RBVs was 0.47. Moderate heritability supports the possibility of effective selection for functional longevity, which will be included in the total selection index for Polish Simmentals.

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Section: Discussionmentioning

confidence: 99%

Genetic evaluation for functional longevity in Polish Simmental cattle

Morek-Kopeć¹,

Zarnecki²

2017

CZECH J ANIM SCI

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“…Typically, these models include linear models ( Allaire, 1976 ), threshold models ( Boettcher et al, 1999 ), random regression models ( Pelt et al, 2015 ), sire models ( Brotherstone et al, 1997 ), and survival analysis ( Buenger et al, 2001 ). Linear models, threshold models, and random regression models can process multiple traits simultaneously; thereby directly estimate the genetic correlation between longevity and other traits with a relatively fast calculation speed ( Imbayarwo-Chikosi et al, 2015 ). Survival analysis can appropriately accommodate censored data, consider time-dependent environmental impact, and manage the skewed distribution of longevity characteristics ( Imbayarwo-Chikosi et al, 2016 ).…”

Section: Genetic Evaluation and Heritabilitymentioning

confidence: 99%

Analysis of Longevity Traits in Holstein Cattle: A Review

et al. 2021

Front. Genet.

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Dairy cow longevity is an essential economic trait that can supplement the breeding value of production traits, which is related to the herd time and lifetime milk yield of dairy cows. However, longevity is a relatively difficult trait to select for dairy cow breeding due to low heritability and numerous influence factors of the longevity in dairy cows. Longevity trait has been used as an important breeding target of a comprehensive selection index in many dairy developed countries; however, it has not been included in performance index in many developing countries. At present, cows in these countries are still in the primary stage of “large quantity, low quality, high cost, and low yield.” The average parity of dairy cows is less than 2.7, which is difficult to maintain the production efficiency to meet the demands of the dairy industry. Therefore, there is an urgent need to select and breed for the longevity of dairy cows. The various definitions and models (including linear, threshold, random regression, sire, and survival analysis) of longevity were reviewed and standardized. Survival analysis is the optimal model to evaluate longevity, and the longevity heritability is 0.01–0.30 by using different definitions and models. Additionally, the relationship between longevity and other traits was summarized, and found that longevity was regulated by multiple factors, and there were low or medium genetic correlations between them. Conformation traits, milk production traits, reproductive traits, and health traits may be used as indicators to select and breed the longevity of dairy cows. The genetic assessment methods, heritability, influencing factors, importance, breeding, and genetics of longevity were reviewed in the manuscript, which could provide a valuable reference for the selective breeding to extend the productive life of Holstein cattle.

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“…Due to its high economic value, longevity is an important part of dairy cattle breeding goals in many countries. Imbayarwo-Chikosi et al [ 21 ] attribute the high economic value of longevity to the herd trait dynamics that depend on the degree of voluntary and involuntary selection. Reducing involuntary culling increases the chances of voluntary culling and keeping high-yielding cows for longer [ 21 ].…”

Section: Genetic Evaluation Of Longevitymentioning

confidence: 99%

Assessment of Genetic and Health Management of Tunisian Holstein Dairy Herds with a Focus on Longevity

Sdiri

Souf

Salem³

et al. 2023

Genes

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In Tunisia, the recognition of the possibility of including longevity and disease resistance in dairy cattle selection objectives has been hypothesized as a useful strategy by both researchers and producers. However, in this paper, the state of the art, with a focus on health and longevity, is reviewed. Along the same lines, the heritability for the milk traits, fertility traits, and longevity of Tunisian Holstein dairy cows complies with the literature. Therefore, the influence of genetics on some diseases of the dairy cow was investigated. In addition, a decreasing efficiency in cow fertility has been observed over the last few years. The results showed that the risk of culling increased with common diseases. When analyzed with the Weibull model, functional lifespan was strongly influenced by milk yield; therefore, the risk increased with a reduced milk yield. In her first three lactations, the relative risk of selection increased gradually with lactation. Thus, the risk of thinning is highest at the beginning and end of the first feeding and the end of her second feeding. In conclusion, the risk of culling was reduced in parity. The factors that influence the life of the herd, such as health, husbandry, environmental conditions, and management, are often ignored when evaluating longevity.

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Genetic Prediction Models and Heritability Estimates for Functional Longevity in Dairy Cattle

Cited by 17 publications

References 89 publications

Genetic evaluation for functional longevity in Polish Simmental cattle

Genetic evaluation for functional longevity in Polish Simmental cattle

Analysis of Longevity Traits in Holstein Cattle: A Review

Assessment of Genetic and Health Management of Tunisian Holstein Dairy Herds with a Focus on Longevity

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