She is weaned! Now what? Fernando Soberon, PhD Technical Service Manager Shur-Gain U.S.A.

Similar documents
Transcription:

She is weaned! Now what? Fernando Soberon, PhD Technical Service Manager Shur-Gain U.S.A.

Where did I come from? 2

3

4

5

2.3 services per conception $40.00 per straw of semen 50% female pregnancies 6

4.6 * $40.00 = $184.00 7

8

I heard the message!!! 4 liters of colostrum within the first 2 hours Disinfect the nipple 2 more liters of colostrum within 12 hours Cost = labor that had to be done anyway 9

What can I expect? 2 L colostrum 4 L colostrum 2 L 4 L n 37 31 ADG, kg 0.64 1.03 * Age at conception, (months) 14.0 13.5 ns Survival through 2nd lact., (%) 75.7 87.1 * Milk yield through 2nd lact., (kg) 16,015 17,042 * *P<0.05; ns P>0.1 (Faber et al., 2005) 10

I heard the message!!! Double birth weight by weaning ADG > 0.8 kg Mortality < 5% Morbidity < 20% Investment = $180 in milk or milk replacer 11

What can I expect? Study Milk yield difference, kg Foldager and Krohn, 1991 1405** Foldager et al., 1997 519* Bar-Peled et al., 1998 453* Ballard et al., 2005 700** Shamay et al., 2005 981** Drackley et al., 2007 835** Raith-Knight et al., 2009 718ns Terre et al., 2009 624ns Morrison et al., 2009 0ns Moallem et al., 2010 732** Davis-Rincker et al., 2011 461ns Soberon et al., 2012 552** **P<0.05 *P<0.1 ns P>0.1 12

Good sire selection = 135 kg more milk 4 liters of colostrum = 1,000 kg more milk 0.8 kg ADG during first 53 days = 700 kg more milk New generation to produce 1,800 kg more milk 13

I m set, ready for the harvest! 14

I don t believe it 15

What about the next 18 months? 16

What do we want to accomplish? Uneventful calving Healthy lactating cow No metabolic problems No mastitis High milk production Breeds back within 2 to 3 months Healthy calf 17

What do we know of BW and calving Impact of insufficient BW at calving incidence of calving problems DMI, milk yield, morbidity, mortality Excessive BW at calving can be detrimental if it is associated with over conditioning incidence of calving problems DMI, milk yield, morbidity, mortality 18

How do we want our heifers to grow? Need to be systematic, need to consider: Age at First Calving Facilities and management Herd growth needs/wants Age at first calving is a conscious management decision Should be made in early life Should be based on optimum performance under herd management conditions Younger is more profitable on a lifetime basis Growth rates should reflect AFC goals 19

AFC and milk production 35 000 30 000 Average 305 Milk for first lactation by AFC y = -459,06x + 29257 Lb of 305 milk 25 000 20 000 15 000 10 000 5 000-19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 AFC, months Source: NYS DHI records 11,000 animals 20

Which heifer do you prefer to calve? 21

Early Research, 1960 Journal of Dairy Science March 1960 Volume 43, Issue 3, Pages 377 387 22

What do we know about calving fat cattle? Garnsworthy and Topps, 1982 Ingvartsen and Andersen, 2000 Douglas et al., 2006 Allen et al., 2009 Overton, 2011 They all concluded that increased BCS at calving has a negative effect on DMI and milk production 23

The effects of rapid growth pre-puberty 24

Let s redefine some concepts Growing fast is not the same as fattening ADG pre-weaning does not have the same effect as ADG during pregnancy A 300 lb calf is not the same as a 300 lb calf Pre-calving factors that affect milk production of multiparous cows also affect freshening heifers 25

Understanding Mature Body Weight At a given weight do you believe they have the same requirements for growth? 26

How are their nutrient requirements different? Similar composition similar % of mature size 1,800 lb mature weight 1,400 lb mature weight Same weight different % of mature size Composition of Animal 27

We are talking about Holsteins Have used ~ 570 kg post partum as a Rule of Thumb for post calving weight Should be a function of the herd mature body weight: Is a herd or region specific variable due to breeding and management decisions Unofficial measured range in NY state for Holsteins: 625 to 820 kg mature body weight 28

To better understand this We know how to calculate the composition of the gain according to: Stage of growth Rate of growth Mature size Dairy NRC, 2001 Van Amburgh and Drackley, 2005 Fox, et al., 1999 Beef NRC, 1996 ((F%*EBW)+(((0.122*((0.0635*((Mean EBW*(478/MSBW))^0.75)*(EBG^1.097))/EWG))-0.146)*EBWG))/FEBW 29

Remember these three heifers? Mature body weight, kg ADG from 90 to 350 kg, kg/d Calculated body fat, % Calculated body protein, % 700 0.4 18.5% 18.0% 700 0.6 19.5% 17.7% 700 0.8 20.8% 17.4% 550 0.4 22.2% 16.9% 550 0.6 23.6% 16.5% 550 0.8 25.3% 16.1% 30

Let s quantify the value of increased fat % Considering there is a 3% body fat difference, the calculated BCS difference is 0.75 units (e.g. 3.75 vs. 4.5) Post-partum intake differences? Post-partum risk for sub-clinical ketosis? Milk yield effects of additional BCS at calving? Cattle grown at 0.8 kg/d with estimated body fat of 25% produced ~2.0 kg/d less milk (250 d) Would 0.75 points of BCS explain 2 kg/d of milk? 31

Your goals will determine the growth targets and expected AFC Pre-pubertal ADG AFC Body fat % 0.7 kg 26 mo 23% 17% 0.8 kg 24 mo 23% 17% 1.0 kg 22 mo 23% 17% Body protein % Mature BW = 750 kg; weaning weight 85 kg; breeding weight 412 kg (55%); calving weight 615 kg (82%) 32

You invested in them pre-weaning, develop your investment Moallem et al., 2010 L-C L-P H-C H-P Milk, kg/d 30.4 b 29.4 b 30.7 b 33.9 a 0.001 Fat, % 3.56 ab 3.61 a 3.61 a 3.44 b 0.04 Protein, % 3.06 b 3.18 a 3.14 a 2.95 c 0.007 Fat, kg/d 1.11 b 1.10 b 1.17 a 1.20 a 0.03 Protein, kg/d 0.96 b 0.97 b 1.02 a 1.03 a 0.015 FCM 4%, kg/d 28.5 bc 27.6 c 29.1 b 31.0 a 0.005

To prepare a heifer diet, let s consider: Breeding and calving goals AFC (22-24) Mature size of the herd (625kg 820kg) Housing facility Stocking density (<125%) Bunk space Age and size differences among pen-mates Feeding management Ingredients available Pasture (0.55 to 0.65 Mcal/lb; 11 to 23% CP) Corn silage (0.65 to 0.83 Mcal/lb; 7% CP) Haylage (0.55 to 0.65 Mcal/lb; 11 to 23% CP) Dry hay (0.55 to 0.65 Mcal/lb; 11 to 23% CP) Straw 34

Balancing energy and protein 35

In short 1. Provide 4 liters of colostrum within 2 hours of birth 2. At least double their birth weight by weaning For a 40 kg calf it means to grow at 0.8 kg/d for 50 d 3. Breed at 55 to 60% of mature body weight (MBW) You need to know the MBW of the herd. Holstein herds can vary from 625 to 820 kg If proper size is achieved, heifers can be successfully bred as early as 10 months, specially smaller breeds 4. First calving at 82 to 85% of MBW, post calving Prevent heifers from becoming over-conditioned 36

In conclusion Colostrum contains a lot more goodies than just IgG s (leptin, insulin, growth hormone, relaxin, IGF-I, etc) The long term effect of feeding colostrum suggests there is a switch in the metabolism of the calves Nutrient intake prior to weaning has a positive influence on milk yield (Soberon and Van Amburgh, 2012) The overall goal of heifer rearing is to provide the management and nutrition that allows for optimum milk yield in the first and subsequent lactations 37

In conclusion Attention to composition of the gain and BCS at calving are crucial in heifer raising (BCS 3.5 to 3.75) Any difference in body composition of heifers at puberty or pregnancy will most likely be maintained or enhanced since under most conditions the animals remain in positive energy balance from puberty to calving Dairy cattle that calve at higher than desired body condition scores (BCS > 4.0) have decreased dry matter intake and milk yield; post-partum health is usually at greater risk of being compromised Body composition can explain differences among studies evaluating pre-pubertal growth 38

Remember Phenotype = Genotype + Environment 39

Questions? 40