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Animal Science 400
Nutrition Management Decision-making: An Intensification Strategy for Beef Cattle Systems in Tizimín, Yucatán, México
May 2006
Kotaro Baba
www.elca.org
Issue and problem, México, USA and beef production
• Migration and population increase
• Demand for animal product (Delgado et al.,1999)
• NAFTA
• Cow-calf production
www.realestateyucatan.com
Cow-calf production system
Target audiences of our project
• 1. The owners of the beef reproduction ranches in the study site
• 2.Local professionals
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Rain
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Temperature
Rainfall
• Source Magaña UADY
•The end of June,
•the early rainy season
The end of October, The early dry season
d
The end of March, the late dry season
The forage growing cycle of the year Source, Magaña, UADY
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DM
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Irrigation
Pumps from under ground
The cost of irrigation is expensive.
Forage quality
Tropical forage contains a lot of cell walls (Van Soest., 1994)
-High temperature, the length of the day
-High NDF, lignin, low CP
Season is known to have a large effect on NDF, lignin, CP(Licitra et al., 1998)
Reproduction, Calving Interval (CI)
• Brahman in Texas (Browing Jr ,1995)
-one calf per year (12-13 mo)
• Brahman in our study site
-14 month for mature cows
-15-17 mo for 1 st lactation cows
(Magaña et al., 2002)
Problem statement
• seasonal variation in the supply and quality of forage is a primary constraint affecting beef cattle productivity in Tizimín herds.
• Extended Calving interval, economic losses.
Body Condition scoring
• Beef cattle scale 1(Thin)-9(Fat)• Use body reserve for early lactation (high energy
requirement) and when the feed supply is inadequate
• Restore reserve after the energy supply is improved
• These should be included in nutritional management, (Reynoso-Campos., 2003), the amount of the energy for these, is not small in our case and many cases.
Body Condition scoring (continued)
• Strong link between BCS and reproductive performance
• At least the cows need a BCS 5, and 6 for breeding heifers for next calving (Herd et al., 1995)
Source Virginia State University and Virginia cooperative extension
• This cow’s BCS is five. www.ext.vt.edu
What is her BCS?
Problem-solving approach
• The energy intake is low• The postpartum intervals from parturition to the n
adir of negative energy balance were correlated with the number of days from parturition to first ovulation (Canfield and Butler 1989,1990, Beam and Butler, 1997)
• effective reproductive management requires analysis of energy balance and dietary supplementation strategies to replenish catabolized tissue reserves and to shorten CI.
• indicate which season is best for calving, and which season should be avoided for calving.
Distribution of calving of Zebu and crossbred cows bymonth in YucatanSource, Magaña
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ing
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Objectives of our project
• Determine nutrient requirements and appropriate dietary supplementation strategies throughout the year for key management groups of females to efficiently achieve productivity and reproductive goals
• Management goals include prompt recovery from the postpartum energy balance nadir to allow ovulation and conception to occur, and to assure adequate body tissue reserves over the reproductive cycle to minimize the calving interval
What information is needed?Energy balance throughout the CI
• How can we know the energy balance throughout the calving interval?
• Use the CNCPS as a tool.
(Rueda et al., 2003, Reynoso-Campos et al., 2004, Nherera 2005) in the tropics
Procedures
• Use panel of experts to describe current situation– Describe each group in the beef herd– Describe forage composition available during each
season of the year
• Predict nutrient balances for each group in the herd when consuming forages available during each forage growth season
ProceduresManagement group for the simulation
Physiological stage
-Early lactation stage
(first 90 d)
-Mid late lactation
stage(150 d)
-Early dry
-Late dry (last 90 d)
• Parity
- 1st lactation cows
-2nd lactation cows
-Mature cows
-Breeding heifers
Seasons
• Season 1(calving on June 1 , the early rainy season)
• Season 2(calving on August 1, the late dry season)
• Season 3(calving on October 1, the early dry season)
• Season 4(calving on February 1, the late dry season)
.Forage composition for the CNCPS simulation Yucatán assumptions
Season CP(%) NDF (%)
Lignin % in DM
Ash%in DM
NDF rate %
/hour
Ether extract % in DM
Season 1 9 67 6 12.7 8.6 3
Season 2 8 72 7 12 7.2 2.6
Season 3 7 74 8 11.5 7.2 2.2
Season 4 5 77 9 11 5.1 1.6
Forage composition for the CNCPS simulation assumptions the average values of Juarez et al, and Rueda et al
Season CP(%) NDF (%)
Lignin % in DM
Ash%in DM
NDF rate %
/hour
Ether extract % in DM
Season 1 9 67 5.5 12.7 8.6 3
Season 2 8 70 6 12 7.2 2.6
Season 3 8 71 6.5 11.5 7.2 2.2
Season 4 7 73 7 11 5.1 1.6
Inputs for the CNCPS, Magaña et al. 2002, 2006 and assumptions by the Yucatán panel of experts.
Item1st lactation
cows2nd lactation
cows Mature cows
Body weight, kg 400 460 500
Mature weight, kg 500 500 500
Calf body weight, kg 31.5 31.5 31.5
Calving interval, d 460(rainy)
500(dry) 420 420
Milk production early lactation, kg 4 (6.4) 4.5(7.2) 5(8)
Milk production mid-late lactation, kg 3(4.8) 3.3(5.3) 3.7(6)
BCS change
• The next slide will be BCS change in each season.
• the CNCPS inputs
• Based on Delgado 2000 with our assumptions.
Table 6
Season 1(Calvingon June 1, the beginning of the rainy season)Season 2 (Calving on August 1 at the middle of the rainy season)
1st 4.5 4 4 4.5 51st 5.5 4.5 4 5 6
2nd 4.5 4 4.5 5 5.52nd 6 5 4 5 6
Mature 4.5 4 4.5 5 5.5mature
6 5 5 6 6
Season 3( Calving on October 1, the beginning of the dry season)
Season 4 (Calving on Feb 1 the middle of the dry season, the data is originally BCS change for the dry season)
ParityCalving( 1 day)
Early lactation(1-90 days after calving)
Mid-late lactation(90-240 days after calving)
Early dry Late dry ParityCalving( 1 day)
Early lactation(1-90 days after calving)
Mid-late lactation(90-240 days after calving)
Early dry
Late dry
1st 6 5 4.5 4.5 51st 5 3.5 3.5 4 5
2nd 6 5 4.5 4.5 5.52nd 5 4 3 4 6
mature6 5 4.5 4.5 5.5 Mature 6 5 4 4.5 6
Analytical framework and preliminary results
The results of the simulation (EB) are combinations of
Energy requirements -Lactation (High especially in the early stage) -Pregnancy( low, but higher in the late stage) -BW or parity (growth rate, and maintenance)
Energy supply -Grass (Season 1 is the best, and Season 4 is the worst)
BCS change -Body tissue mobilization -Body tissue repletion
Simulation 1
• Compare energy balance with and without body tissue contribution (with and without BCS change in each physiological stage)
Season 4 mature cows milk 5 kg with and without BCS with feed component Brazil and Veracruz
-8
-6
-4
-2
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4
6
Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec Jan Feb Mar
month
Mca
l/day
Without BCS change
With BCS changeEarly lactation 3 mo in S4S4 G=100% T sup 17.72
-Btis(6-5)2.21 T req 22.43
-.Maint- 16.72 -Lac - 5.714
EB- Mius 4.72, The 2.21 Mcal helps the cow
Mid-late lactation-1 mo in S4-2 mo in S1-2 mo in S2
G4:G1:G2=1:2:2T sup 19.99
From BT(BCS5-4) -1.22 T req 19.32
Maint- 15.05 Lac - 4.23 Pre - 0.04 EB - (0.67)
Early dry -3 mo in S3
G3=100 % T sup 19.59
T req 17.34 Maint-15.14 Pre - 0.79
to BT- 1.09 BCS(4-4.5)
EB- (2.56)
Late dry -1 mo in S3
-2 mo in S4 G3:G4=1:2
T sup 18.428T req 22.89
- Maint-15.28 - Pre - 4.3 to BT- 3.35BCS(4.5-6)
EB= (-4.46)
Simulation 2, Which season is good for calving,
and which season should be avoided?
I do not know exactly yet. More simulations are needed.
To have a calf per year, cows must get pregnant at 75 days after calving (The Brahman’s pregnant period in our study site is 290 d)
Energy Balance -Energy supply is different in seasons -Energy requirement is different in physiological stages
BCS 5, at least needed at calving Prompt recovery is necessary from the postpartum energy balance nadir to allow
ovulation and conception to occur
Feed Yucatan milk 5 kg Season 1
-20
-15
-10
-5
0
5
Jun Jul Aug Sep Oct Nov Dec Jan Feb Mar Apr May Jun Jul Aug Sep Oct
month
Mcal
1 st
2nd
Mature
Season 1, 1 st, 2nd Mature cows, with Brazil and Veracruz
-20
-15
-10
-5
0
5
Jun Jul Aug Sep Oct Nov Dec Jan Feb Mar Apr May Jun Jul Aug Sep
month
Mcal
1 st
2 nd
Mature
• E-Lac• - 2 mo in S1• - 1 mo in S2 G1:G2=2:1• Mi- lac• -1 mo in S2• - 4 mo in S3 G2:G3=1:4• E-Dry• - 3 mo in S4 G4=100%• L-Dry • -1 mo in S4 • -2 mo in S1 G4:G1=1:2
Simulation 3, with Molasses (M) and Poultry Manure
• Some farmers feed 1 kg of M and PM for cows in the lactation stage, and some cows in the dry season , I am asking Fernando Duarte.
Both are by-product feeds - Molasses CP 4% , Fat 4.2%, Sugar 70% DM -Poultry Manure CP 15.8 %, Fat 0.5%, and Sugar 1.9 % DM (Tedeschi et al., 2002)
M & PM are added for the entire CI to see the difference with and without M & PM
Season 1,mature cows, feed Yucatan assumption with and without molasses and poultrymanure
-20
-15
-10
-5
0
5
Jun Jul Aug Sep Oct Nov Dec Jan Feb Mar Apr May Jun Jul Aug
month
Mca
l
with molasses and poultry manure
without molasses and poultry manure
Conclusion of simulation 1, 2 and 3
• The CNCPS predicts the energy balance included the fluxes of the body tissue
• Supplementation strategies would be needed for all the seasons to achieve a 12 mo CI. I can not still indicate the best season for the calving
• Calving Season 4 looks not very good to achieve the 12 mo CI
• Season 4 grass (High NDF and lignin content forage) constraints feed intake.
• In our simulation, molasses and poultry manure help cows in the dry season, but 1 kg of M and PM is insufficient.
Goals for shortening the CI
• Reach nadir as soon as possible after calving.
• Have cows in optimum BCS at calving.
• Need to achieve zero energy balance over the reproductive cycle.
Thank you