Selection for Disease Resistance Gert Pedersen Aamand Nordic Cattle Genetic Evaluation.
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Transcript of Selection for Disease Resistance Gert Pedersen Aamand Nordic Cattle Genetic Evaluation.
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Selection for Disease Resistance
Gert Pedersen AamandNordic Cattle Genetic Evaluation
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Why breeding for resistance?
• Low heritability• Expensive recording system
However:• Large genetic variability• Reasonable reliability (large daughter groups, genomic
selection)
Breeding is a strong tool!
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Selection for Disease Resistance
1. Introduction2. Data collection3. Genetic evaluation4. Breeding goal5. Genetic progress6. Final remarks and conclusion
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Disease - health
• Reduce animal welfare• Economic losses for farmers extra costs:
• Veterinarian treatments• Labour• Decreased production• Discarded milk• Involuntary culling
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Disease - health
An improvement of health is desirable: • From a general ethical point of view• As it leads to increase consumer acceptance• It is of economic importance to the farmer
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Disease - health
An improvement of health can be reached by:– Managementand– Genetic
A good recording system is essential for both management and genetic improvements
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Frequencies of udder diseases, Denmark
Breed 1st lactDay 0-50
1st lactDay 51-305
3rd lact
RDC 14.3 10.4 22.2Holstein 12.1 11.9 25.9Jersey 18.4 9.2 27.3
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Frequencies of claw diseases, Denmark
Breed 1st lact 3rd lact
RDC 37.2 45.5Holstein 52.2 56.0Jersey 25.7 29.7
Holstein has room for genetic improvement
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Disease recording
• Recording – User friendly systems are important– Transfer from invoicing systems or by use of
electronic data processing software (DiskTop, PDA, Smartphone)
– Data check so double entries are avoided
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Systematic disease recordingin general
• Started before 1985 in Norway, Sweden and Finland
• Started in Denmark in 1990 in cooperation between Danish Cattle Federation and the Danish Veterinary Society
• After 2006 recording has started in e.g. Austria, Canada, France, Canada, UK…..
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Claw disease recording
• Denmark, Sweden, Finland and Norway– Joint definition of claw disease traits– Joint recording system (touch screen, ready in 2010)– Data stored on four national databases
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Building a disease recording system
• Recording can improve management today and ensure accuracy of selection for tomorrow
• Made possible by ongoing farmers’ participation
• Nordic claw recording is a nice example – started in 2010 – today 40% of all Danish herds participate
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Disease recording
• Recordings can be made by– Herd managers– Veterinarians– Claw trimmers
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Cow data -base
Calvings , Purchase / Culling /Slaughter
Milkrecording ,production
Milk -analysis
AI-serviceMatings ,
Fertility service
ET Slaughterdata
Disease reportsby vets
Disease reportsby farmers
Linearassessment
BreedingEvaluation
Basis forManagementDairy Farm
Health , basis for- Preventive measure
- Package of measures
Feeding plans
Basis forManagement
Milkproduction
Breeding plans- Population
- Herd
Identity- Pedigree
Cow database
R&DCow data -base
Calvings , Purchase / Culling /Slaughter
Milkrecording ,production
Milk -analysis
AI-serviceMatings ,
Fertility service
ET Slaughterdata
Disease reportsby vets
Disease reportsby farmers
Linearassessment
BreedingEvaluation
Basis forManagementDairy Farm
Health , basis for- Preventive measure
- Package of measures
Feeding plans
Basis forManagement
Milkproduction
Breeding plans- Population
- Herd
Identity- Pedigree
Cow database
R&D
Data flow in relation to central database
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Disease recording system
• More than 80 different disease codes are used to describe the diagnoses
• For breeding purposes the codes are pooled within four categories: – Udder diseases– Reproductive diseases– Digestive and metabolic diseases– Feet and leg diseases
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Traits used in EBV udder health• Udder health breeding goal traits:
– Clinical mastitis day -15 to 50 1st lact– Clinical mastitis day 50 to 305 1st lact– Clinical mastitis day -15 to 150 2nd lact– Clinical mastitis day -15 to 150 3rd lact
• Udder health indicator traits– TestDay SCC 1-3 lactation– UA (Fore udder attachment)– UD (Udder depth)
EBV udder health
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Udder healthGenetic parameters
• Clinical mastitis show a substantial genetic variation
• Heritabilities– Clinical mastitis (CM) 4%– SCC 13%– Udder conformation 25%
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Udder health Genetic parameters
• Genetic correlations:– CM different lactations 0.70-0.95– CM-SCC 0.60 – CM-udder conformation 0.35-0.50
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Udder health Reliability (rIA
2)
• Udder health in theory– Based on CM - max 100%– Based on SCC – max 36% (rg
2)
• Udder health in practice (Nordic countries)– 40% first proof same time as production– 65-75% based on 1st lact daughters
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Percentage of daughters with mastitis
Grouped sires after EBV for udder health 1st parity 3rd parity
TOP5 (poorest) 21.7% 28.9%
TOP4 18.3% 26.0%
TOP3 (mean) 15.3% 23.8%
TOP2 13.9% 21.0%
TOP1 (best) 10.7% 17.0%
Effect of EBV for udder health
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Other health traitsDiagnoses
• Reproductive diseases • Metabolic and digestive diseases• Feet and leg diseases (vet treatments)
1-3 lactation used in EBV
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• Heritabilities 1-3%• Moderate positive correlations among disease traits• Based on 1st batch daughters rIA
2 55-65%
Other health traits Genetic parameters/reliabilities
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Claw diseasesInfection related
– Dermatitis – Heel Horn Erosion– Skin Proliferation
Metabolic related – Sole Haemorrhage– Sole Ulcer – White line separation+ double sole
Malformation– Cork screw claws
Heritabilities 4-6%
Heritabilities 2-6%
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Between Range
Infection related traits 0.3-0.9
Feed related traits 0.2-0.9
Between Range
Same trait in different lactations 0.80-0.99
Between Range
Infection related and feed related traits -0.2 to 0.3
Genetic correlations
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Claw trait definition and EBV
• 7 traits per lactation• 3 lactations
Economic weights used to calculate EBV for Claw health
21 traits
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Correlations between EBVs for health
Claw health ResistanceOther diseases
Udder health 0.20 0.29Claw health - 0.25
Positive correlations between health traits!
Birth year 2005-07
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Total Merit Index (NTM)
• Economically important traits should be included to ensure maximum progress (and balanced progress)
• More efficient to strive for progress in many traits simultaneously – compared to large gains in few traits with other negative consequences
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Correlation between NTM and single traits Yield 0.62
Growth 0.12Fertility 0.42Birth index 0.34Calving index 0.25Udder health 0.48Other diseases 0.46Claw health 0.34Feet and legs 0.23Mammary system 0.19
Milk ability 0.04Temperament 0.03Longevity 0.68
1.00 = selection for yield
only
Positive response all
traits
Birth year 2005-2007
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Holstein Correlation+25 NTM units response single
traitsYield 0.62 15.5 index unitsGrowth 0.12 3.0
Fertility 0.42 6.3
Birth index 0.34 3.0
Calving index 0.25 8.5
Udder health 0.48 12.0
Other diseases 0.46 11.5
Claw health 0.34 8.5
Feet and legs 0.23 5.8
Mammary system 0.19 4.8
Milk ability 0.04 1.0
Temperament 0.03 0.8
Longevity 0.68 17.0
+25 NTM - Genetic
progress per traits
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10 years efficient cattle breeding
Trait Kg
Milk, kg 496
Fat, kg 26.7
Protein, kg 18.9
+25 NTM units give
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10 years efficient cattle breeding
Trait Mastitis cases Other disease, cases
1st lact - 5.8day0-50
- 3.4day50-305
-6.2
2nd lact - 8.0 -6.2
3rd lact - 9.2 -8.2
Without NTM – frequency of mastitis and other diseases will increase!!!
+25 NTM units give
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Does NTM fit all farms?
• Economic values have to be the best guess on future production circumstances (5-10 years ahead)
• A breeding goal has to be jointly for the population/breed
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Does NTM fit all farms?
• The production circumstances might vary a little among farms – different management level and production circumstances
• NTM will ensure a balanced genetic progress - the functional/health traits have effect in all herds!
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Effect of NTM selection in practice on health traits
Within herd comparisons •60 large Danish herds
– Cows born 2006-2007– Split in 2 groups according to NTM in 2008
I NTM under herd mean II NTM over herd mean
– Looked at differences in performance in 2009-2011
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NTM selection has positive effect on health traits
Difference NTM group over average versus NTM group below average within herd. Total 60 Danish herds
Trait 1st lact, kg 2nd lact, kg
Protein +13 kg +12 kg
First to last insemination
- 5 day - 3 days
Longevity + 5% + 8%
Mastitis - 2% - 2%
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Health traits and genomic selection
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Genomic selection and breeding goal
• The economic values are the same with and without genomic selection
• But the response we get in the different traits will be different
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Reliabilities EBV/GEBV
• Traditional– Bulls: protein >> health traits– Females: protein >>> health traits
• Genomic Selection– Bulls: protein > health traits– Females: protein > health traits
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Relative genetic progress
Breeding scheme Total response
Response protein
Functional traits
Progeny test 100 100 100
GS + Progeny test 129 113 161
GS 201 169 273
Buch et al 2011
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Reliability GEBV for health traits• Key factors
– A good recording system– A lot of reference animals with information– A young recording system require genotyped
females to be effective• E.g. Nordic countries have 2,000 reference bulls for
claw health but >20,000 for production traits
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Conclusion - health traits • Economically important• Large genetic variation• Positive genetic correlation
between health traits• Including in breeding goal,
important to maximize genetic progress - balanced genetic progress
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Conclusion - health traits • Genomic selection can give a
more balanced genetic progress
• The underlying “gold” is the farmers own accurate recording of health traits – a good recording system is essential