Your search keyword '"Lutz Bünger"' showing total 5 results

1. The effects of different farm environments on the performance of Texel sheep

Author

NR Lambe, S. Brotherstone, Lutz Bünger, A McLaren, Raphael Mrode, and Joanne Conington

Subjects

Male, sheep, environmental sensitivity, Genotype, biology.animal_breed, Population, reaction norms, Environment, SF1-1100, Animal science, genotype×environment interactions, Animals, Genetic variability, education, education.field_of_study, biology, Sire, Body Weight, Agriculture, Heritability, United Kingdom, Animal culture, Phenotype, Genetic gain, Animal Science and Zoology, Texel sheep, Female, Gene-Environment Interaction, Flock, Texel

Abstract

In order to assess the extent of genotype by environment interactions (G×E) and environmental sensitivity in sheep farm systems, environmental factors must be identified and quantified, after which the relationship with the traits(s) of interest can be investigated. The objectives of this study were to develop a farm environment (FE) scale, using a canonical correlation analysis, which could then be used in linear reaction norm models. Fine-scale farm survey data, collected from a sample of 39 Texel flocks across the United Kingdom, was combined with information available at the national level. The farm survey data included information on flock size and concentrate feed use. National data included flock performance averages for 21-week-old weight (21WT), ultrasound back-fat (UFD) and muscle (UMD) depths, as well as regional climatic data. The FE scale developed was then combined with 181 555 (21WT), 175 399 (UMD) and 175 279 (UFD) records from lambs born between 1990 and 2011, on 494 different Texel flocks, to predict reaction norms for sires used within the population. A range of sire sensitivities estimated across the FE scale confirmed the presence of genetic variability as both ‘plastic’ and ‘robust’ genotypes were observed. Variations in heritability estimates were also observed indicating that the rate genetic progress was dependent on the environment. Overall, the techniques and approaches used in this study have proven to be useful in defining sheep FEs. The results observed for 21WT, UMD and UFD, using the reaction norm models, indicate that in order to improve genetic gain and flock efficiency, future genetic evaluations would benefit by accounting for the G×E observed.

Published

2015

2. Effect and mode of action of the Texel muscling QTL (TM-QTL) on carcass traits in purebred Texel lambs

Author

NR Lambe, Lutz Bünger, P. L. Johnson, Stephen Bishop, B. T. Wolf, Oswald Matika, J. M. Macfarlane, and W. Haresign

Subjects

Veterinary medicine, sheep, Genotype, QTL, biology.animal_breed, Quantitative Trait Loci, Quantitative trait locus, Loin, SF1-1100, Animal science, Animals, genetics, muscling, Muscle, Skeletal, biology, Sire, Chromosome Mapping, food and beverages, Animal culture, Polar overdominance, Gene Expression Regulation, Chromosomal region, Body Composition, Texel, Animal Science and Zoology, Texel sheep, Purebred

Abstract

TM-QTL is a quantitative trait locus (QTL) on ovine chromosome 18 (OAR18) known to affect loin muscling in Texel sheep. Previous work suggested that its mode of inheritance is consistent with paternal polar overdominance, but this has yet to be formally demonstrated. This study used purebred Texel sheep segregating for TM-QTL to confirm its presence in the chromosomal region in which it was first reported and to determine its pattern of inheritance. To do so, this study used the first available data from a Texel flock, which included homozygote TM-QTL carriers (TM/TM; n=34) in addition to homozygote non-carriers (+/+; n=40 and, heterozygote TM-QTL-carriers inheriting TM-QTL from their sire (TM/+; n=53) or their dam (+/TM; n=17). Phenotypes included a wide range of loin muscling, carcass composition and tissue distribution traits. The presence of a QTL affecting ultrasound muscle depth on OAR18 was confirmed with a paternal QTL effect ranging from +0.54 to +2.82 mm UMD (s.e. 0.37 to 0.57 mm) across the sires segregating for TM-QTL. Loin muscle width, depth and area, loin muscle volume and dissected M. longissimus lumborum weight were significantly greater for TM/+ than +/+ lambs (+2.9% to +7.9%; P

Published

2014

3. Development and validation of on-farm behavioural scoring systems to assess birth assistance and lamb vigour

Author

Sarah H. Ison, Cathy M. Dwyer, K. McIlvaney, M. C. Jack, Lutz Bünger, SM Matheson, and J. A. Rooke

Subjects

medicine.medical_specialty, phenotyping, Scoring system, animal diseases, media_common.quotation_subject, SF1-1100, Crossbreed, Intervention level, lamb vigour, stomatognathic system, parasitic diseases, medicine, Udder, media_common, Lamb mortality, business.industry, dystocia, scoring system, Scottish Blackface, respiratory system, behaviour, Animal culture, Surgery, medicine.anatomical_structure, Economic issue, Animal Science and Zoology, business, Welfare, Demography

Abstract

Lamb mortality remains a significant welfare and economic issue for sheep production. Lamb survival is to a degree dependent upon an easy delivery and the expression of appropriate behaviours from both mother and offspring, such as rapid standing, udder seeking and sucking by the lamb. Genetic solutions have the potential to improve birth assistance and lamb behaviour but large amounts of data are needed. Therefore, to achieve this objective, simple, proxy methods (scoring systems) were developed to quantify the level of birth difficulties and lamb vigour on farm. In the first study, detailed historical behavioural data from 1156 lambs (Scottish Blackface and Suffolk (S)) were analysed to develop criteria for 3 scores: birth assistance, lamb vigour and sucking assistance. The birth assistance score was developed by analysing the relationships between birth presentation and intervention levels, and intervention level and labour length. Lambs with abnormal birth positions required more assistance than normally presented lambs and lambs with long labours required more and greater assistance than those with short labours. Lamb vigour score was developed by analysing the latencies for the lamb to first perform specific behaviours; more vigorous lambs reach landmark behaviours faster than low vigour lambs. The sucking assistance score was developed from the relationship between the latency to suck successfully and assistance level, where lambs that were slow to suck required more assistance than lambs that were quick to suck. In the second study, the behaviour scoring systems (5-point categorical scales) were validated using a commercial flock of 80 twin-bearing crossbred ewes mated with either Texel (T) or S sires by simultaneously recording scores and the latency to perform specific landmark behaviours (i.e. to stand, seek the udder and suck). The vigour scores (recorded at 5 min of age) were compared with the latency from birth to standing and showed that lambs with lower (better) vigour scores were faster to stand after birth than those with higher scores. The sucking assistance scores were compared with the latency from birth to sucking, and showed that lambs with lower sucking assistance scores are quicker to suck than those with high scores. These results showed that the scoring systems could provide a practical and reliable assessment of birth assistance and lamb behaviour on farm and were sufficiently sensitive to discriminate vigour levels between lambs sired by either S or T rams.

Published

2011

4. Effects of the Texel muscling quantitative trait locus on carcass traits in crossbred lambs

Author

B. T. Wolf, E. Rius-Vilarrasa, Lutz Bünger, Oswald Matika, J. M. Macfarlane, K. A. McLean, Stephen Bishop, N. R. Lambe, William Haresign, and R. J. McLaren

Subjects

sheep, Sheep, QTL, biology.animal_breed, Carcass, food and beverages, Scottish Blackface, Biology, Heritability, Loin, SF1-1100, Crossbreed, Animal culture, Animal science, Texel, Animal Science and Zoology, Texel sheep, muscling, Flock, Purebred, carcass

Abstract

Texel muscling quantitative trait locus (TM-QTL) is a QTL on chromosome 18, originally identified in purebred UK Texel sheep, which was reported to increase ultrasonically measured muscle depth at the third lumbar vertebra by around 4% to 7%. The objective of the present study was to comprehensively evaluate the TM-QTL and to determine whether it could provide benefits to the UK sheep industry through increased carcass meat yield in crossbred slaughter lambs. Effects of this QTL on a range of carcass traits, including those measured in vivo and by dissection, were evaluated in heterozygous carrier and non-carrier lambs produced by crossing heterozygous carrier Texel rams with non-carrier Mule (Bluetaced Leicester x Scottish Blackface) ewes from a lowland flock. The TM-QTL was found to increase loin muscling in crossbred lambs at a given live weight or carcass weight as measured by ultrasound, X-ray computed tomography (CT) and carcass dissection. Depth of M. longissimus lumborum (MLL) was greater in TM-QTL carrier lambs compared to non-carriers as measured by both ultrasound at the third lumbar vertebra (+43%, P = 0.033) and CT scanning at the fifth lumbar vertebra (+6.7%; P = 0.004). Width and area of MLL measured using CT were also greater in TM-QTL carrier lambs compared to non-carriers (+3.09%; P = 0.013 and + 5.1%; P = 0.047, respectively). Loin muscle volume measured using CT was greater in TM-QTL carriers than in non-carriers (+5.9916; P = 0.005) and the dissected weight of the MLL was + 7.1% greater in TM-QTL carriers compared to non-carriers (P < 0.001). The proportion of the total carcass lean meat yield (LMY) that was contained within the loin region was slightly higher in TM-QTL carriers than in non-carriers (0.154 v. 0.145; P = 0.006). However, TM-QTL was found to have no significant effect on the total weight or proportion of LMY or of saleable meat yield in the carcass measured by dissection, or on muscling in the hind leg measured by CT or dissection. This work has verified that the inheritance of TM-QTL is associated with increased loin muscling in crossbred lambs, as has previously been reported for purebred Texel lambs.

Published

2009

5. The effects of selection indices for sustainable hill sheep production on carcass composition and muscularity of lambs, measured using X-ray computed tomography

Author

Lutz Bünger, Joanne Conington, Stephen Bishop, Geoff Simm, and N. R. Lambe

Subjects

body composition, sheep, Veterinary medicine, Sheep, Index (economics), medicine.diagnostic_test, Restricted maximum likelihood, animal diseases, computed tomography, Context (language use), Computed tomography, Biology, SF1-1100, Animal culture, Animal science, Control line, Body Composition, medicine, Weaning, Animal Science and Zoology, Carcass composition, Selection (genetic algorithm)

Abstract

A multi-trait selection index designed to improve the overall economic performance of hill sheep, inducting both maternal and lamb traits, has been developed and tested in a selection experiment over 7 years. Two versions of the index were tested, with different economic weights applied to the traits, on two different hill farms: one version including maternal and growth traits; the other version with additional breeding goals of carcass weight, fatness and conformation scores. Responses to selection, using both versions of the index, suggest that improvements are being made in overall index score and lamb growth. This study investigated the indirect effects of these selection indices on lamb carcass composition and muscularity traits, as measured using X-ray computed tomography (CT) scanning. A total of 499 lambs from the two hill farms were CT scanned at weaning (approximately 120 days of age). Approximately half of the lambs from each farm were from the selection line (S, animals with highest index scores selected for breeding), while the other half were from a control line (C, animals with average index scores selected). Composition and muscularity traits were estimated on each lamb from CT data and differences between genetic lines investigated within farm, using restricted maximum likelihood analyses, adjusting for either live weight or age. Results showed that the selection index without carcass traits produced lambs with carcass composition that was not significantly different to control lambs at a given live weight or age. Including carcass traits in the index resulted in lambs with no compositional differences (except for a slight increase in bone) at a set age compared with controls. At a given live weight however, selection lambs had less fat and lower carcass weights and killing-out percentage. Muscularity (3-D muscle shape) and muscle area shape (2-D) were not improved as a result of selection on either version of the index (including carcass weight and grades in the breeding goals or not) and, at a fixed live weight, muscularity in hind leg and lumbar regions tended to be higher in the C line. To accelerate changes in carcass composition and muscularity within the context of a multi-trait selection index for hill sheep, consideration should therefore be given to including objective CT-derived carcass traits in the index in addition to the Meat and Livestock Commission (MLC) carcass grades or ultrasound measurements.

Published

2008