Dr. Laura Greiner - Putting it all together - Improving Sow Lifetime Productivity
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Transcript of Dr. Laura Greiner - Putting it all together - Improving Sow Lifetime Productivity
Putting It All Together
Laura L. GreinerInnovative Swine Solutions, LLC
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Overview
• As the world population grows and resources become limited, it is imperative that the swine industry continues to maximize productivity and efficiency.
• One area that allows for improvement in productivity is maximizing the reproductive performance of the sow.
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Overview
• As outlined earlier this year by the National Pork Board, an initiative has been set forth to maximize the number of quality pigs a sow produces in her lifetime with the goal to increase productivity by 30% in the next seven years.
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What We Learned Today
• Dr. Pollmann has outlined critical areas to evaluate to help define the opportunities for each system.
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Reasons (%) for culling sows from commercial herds
Reproductive failureFailure to conceive 24.6No oestrus 9.1Total 33.6
Low productivityOld age 8.7Small litters 14.1
Health/physical damage 3.1Mothering ability 4.9Lameness/leg weakness 13.2Death 7.4Aborted -Misc 15.0
Lucia et al., 2000
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Implications of Sow Productivity
• According to an article in Feedstuffs1, Dr. Sundberg notes that if US sow herds can increase the number of litters produced by a sow by one additional litter in her lifetime, the pork industry could receive an increase in $250 million in net value.
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Courtesy of Juan Carlos Pinilla
8Courtesy of Juan Carlos Pinilla
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What We Learned Today
• Dr. Flowers discussed the physiological test for sow longevity.
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Sow Lifetime Productivity
• A sow’s lifetime performance is impacted by:– Age of breeding– Offspring pre-wean mortality– Wean to estrus– Gestation and lactation length– Offspring wean to finish mortality– Total born and born alive– Feed utilization and cost– Housing– Lifetime economic productivity
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Maternal Influence
• Gluckman et al, 2005– Good summary of research that discusses the role
of maternal environment on offspring performance
• Periods of nutritional deficiency can impact offspring growth
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Maternal Influence
• Ibanez et al, 2000– Demonstrated that girls defined as being small for
gestation age:• Higher FSH levels indicating ovarian hyporesponsivenes• Small uterus• Reduced ovarian volume
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What We Learned Today
• As discussed by both Drs. Ross and Cassady, sow productivity does not start at the time that a sow is first bred, but rather early in the life of a sow.
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Nutrition Health
Production practices
Housing environment
Maternal influence
Genetics
Heat Detection
Gilt acclimation
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Improving Replacement Gilt Retention
• Published literature and conference proceedings released in the last ten years demonstrate that selection and production methods need to start at an early age before the gilt is first bred.
• Facility spacing/housing, average daily gain, structure selection, health, and nutrition in gilt developer units can all influence sow lifetime performance.
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Nutritional Opportunities for the Reproductive Female
• What is our goal?– Increase number of pigs weaned by parity– Improve sow retention
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130-150 151-170 171-200
Breeding weight (kg)
Ret
entio
n by
3 p
ariti
es (%
)
Effect of Breeding Weight on Retention Rate to 3rd Parity
Source: Amaral Filha, unpublished data (2008)
AI @211 d143 kg
AI @219 d160 kg
AI @225 d177 kg
0
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4
6
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130-150 151-170 171-200
Breeding weight (kg)
Cul
ling
Rea
son
(%)
Locomotion Reproductive Other
a
b
c
31.1
32.3
33.132.832.8
29.0
30.0
31.0
32.0
33.0
34.0
<135 135-148 148-159 159-170 >170
Weight at first breeding
Tot
al b
orn
over
3 p
arit
ies
Total born over 3 parities according to breeding weight
Source: Williams et al, 2005
ADFI Variations on multiparous sows performance
RANGE OF ADFI N TB WEI WT VAR
< 4.5 kg 36 12.61 5.36 -5.93
4.5-4.7 28 13.11 5.32 -4.69
4.7-5.0 48 13.38 5.40 -3.17
5.0-5.2 71 13.42 5.14 -2.58
5.2-5.4 170 13.56 5.47 -2.66
5.4-5.7 71 13.85 4.77 -3.46
Evaluation of over 400 sows
Effect of Feed Restriction on PerformanceEarly LactationZak et al. 1997
Late LactationZak et al., 1997
Late Lactation, Vinsky et al., 2006
Late Lactation,Foxcroft, unpublished
Wean to Estrus Interval (hr)
Control 88.7 ± 11.2* 88.7 ± 11.2* 127.2 ± 7.2 160.3 ± 3.65
Treated 134.7 ± 8.7* 122.3 ± 9.8* 129.6 ± 7.2 167.35 ± 3.72
Ovulation Rate at d30
Control 19.8 ± 1.6* 19.8 ± 1.6* 18.3 ± 0.7 18.57 ± 0.52*
Treated 15.4 ± 1.9* 15.4 ± 2.3* 18.2 ± 0.6 16.72 ± 0.47*
Embryo Survival at d30
Control 87.5 ± 6.4* 87.5 ± 6.4* 79.2 ± 4.0* 64.00 ± 4.08
Treated 86.5 ± 7.6* 64.4 ± 6.1* 67.9 ± 3.9* 69.03 ± 3.81
Courtesy of Dr Foxcroft
Calculated Sow Daily Mineral Intake During Lactation, mg/d/kg BW
0.0
0.2
0.4
0.6
0.8
1.0
1.2
1.4
1.6
P1 P2 P3 P4 P5 P6
Min
eral
in
take
, m
g/d
/kg
BW
Cu
Zn
Mn
Se
Peters and Mahan, 2008
Effect of TM on Reproductive Performance
OTM NRC OTM IND ITM NRC ITM IND SEM
Total born a,b 12.40 12.66 11.97 11.14 0.18
Born alive a 11.08 11.79 11.14 10.44 0.46
Still born a 1.02 0.55 0.45 0.60 0.18
Weaned 10.28 10.10 10.06 10.38 0.35
Piglet ADG, g a 277 275 267 267 5
Peters and Mahan, 2008a, source responseb, level response
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Parity
Retention Rates, % P-value
OTM ITM
2 90.0 88.7 0.06
3 82.2 77.7 <0.01
4 72.1 63.5 <0.01
Improved Sow Retention Rates with OTM Supplementation
Novus International and ISS, Feedstuffs, 2012
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Variable
OTM ITM P-value
Weaned 36.39 34.64 .08
Total born 44.10 40.76 .02
Live born 41.61 38.89 .04
Improved Sow Reproduction with OTM Supplementation
Novus International and ISS, Feedstuffs, 2012
Well-being Results
Stall D3-7 Mix D13-17 Mix D35 Mix Pooled SE P value
Lameness 0.03a 0.1b 0.1b 0.1b 0.006 <0.0001
Leg Inflammation 0.03a 0.06b 0.02ac 0.01d 0.004 <0.0001
Head Lesions 0.8a 1.3b 1.3c 1.2d 0.011 <0.0001
Body Lesions 0.6a 1.2b 1.2bc 1.1d 0.010 <0.0001
Vulva Lesions 0.02a 0.2b 0.1c 0.1c 0.008 <0.0001
BCS 2.88a 2.81b 2.86c 2.94d 0.004 <0.0001
Lameness: 0 or 1 LI: 0 or 1 HL: 0, 1, 2, 3BL: 0,1, 2, 3VL: 0, 1, 2BCS: 0-5
Hopgood et al., 2012
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Method for Improving Sow Lifetime Productivity
• Improving sow lifetime productivity is a complex goal that requires all facets of pork production
• A systematic approach that addresses each area at various points before and during a sow’s reproductive career must be taken to determine how to maximize her performance.
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Thank you to our Speakers
• Dr. Pollmann• Dr. Flowers• Dr. Ross• Dr. Cassady
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Thank you for your attendance!