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GOALS WHEN FEEDING FINISHING CATTLE
• Maintain animal health• Produce a desirable carcass
– Choice grade (5.0 to 8.5% intramuscular fat, 28% body fat)• Body weight will vary with genetics, growth rate, and implants
– Yield grade 3 or less– Acceptable maturity (< 30 months)– White fat and bright red muscle– Carcass weight between 650 and 875 lbs
• Minimize production costs– Feed– Non-feed costs (Facility depreciation, Interest etc)
• Minimize environmental impacts– Maximize feed efficiency
TRADITIONAL SYSTEM OF FEEDLOT FINISHING OF BEEF CATTLE
Feeder calf or yearling (600-900 lb)
Feed high grain diet (80-90% grain) with ionophore
Implanted with estrogen w/ or w/o Trenbolone acetate
Gain 3-4 lb/dayFeed/gain 6-7
Harvested at 1200 –1400 lbproducing a carcass with achoice quality grade and ayield grade of 2 or 3
Season prices:High in March and AprilLow in July
FEED INTAKE OF FEEDLOT CATTLE
• Normal intake is 2 to 3% of body weight• Factors
– Degree of finish as affected by body weight, cattle type, implants etc.
– Feeding after a period of restricted gain (backgrounding or grazing)• Part of compensatory gain
– Diet• Ionophores• Forage concentration• Fat concentration • Nutritional imbalance
– Potassium deficiency– Environmental
• Temperature (base is 15 to 25 C)– Decreases by 10 to 35% if temperature increases to 35C– Increases by 15% is temperature decreases to -5 to -15C
• Mud – Decreases by 15% if mud depth is 4 to 8 inches
• Maintenance energy requirement of finishing beef cattle– NEm, Mcal/day = .077BW.75
– Modified by a large number of factors
– Maintenance ModifiersModifier Modification Change in NEm reqt.
Breed Beef breed Base
Dairy breed Increase by 20%
Brahman breed Decrease by 10%
Sex Bull Increase by 15%
Previous nutrition
BCS<5 Decrease by 5%/BCS unit ( Another part of
compensatory gain)
BCS>5 Increase by 5%/BCS unit
Environmental stress
Cold temp, dry coat, BCS 5
Increase by 15%
(Include temp, wind, BCS, hide & coat thickness, coat cover and heat increment)
Cold temp, dry coat, BCS 4
Increase by 20%
Cold temp, snowy coat, BCS 5
Increase by 96%
Heat stress Increase by 11 to 25%
EFFECTS OF BODYWEIGHT ON THE NEm and NEg REQUIREMENT TO GAIN 3.5 lb/day FOR STEERS AT EITHER AT FINISHED WEIGHT OF 1200 OR 1400 LB
ENERGY SOURCES FOR FEEDLOT DIETS• Grains
– Traditionally fed at levels up to 95% of the diet– Usually are processed
• Grinding, cracking or rolling• High moisture corn• Steam-flaking
– Cattle must be properly adapted to diet– Limits
Grain Maximum fed, % of DM Consideration
Corn grain 92
Milo 92
Wheat 50 Highly fermentable starch
Oats 25 High fiber, low energy
Ground ear corn
95(If no forage fed)
High fiber
• Grain processing byproducts
• Alkali-treated corn stalks– Used at levels up to 20% of DM
Grain byproduct Maximum fed, % of DM Consideration
Distillers dried grains w/ solubles (DDGS)
40 High sulfur, High fat
Corn gluten feed 20-30 High fiber
Distillers solubles 20 (If DDGS not in diet)
High sulfur, high fat
Soy hulls 25 High fiber
• Fat supplements (Tallow, Vegetable-Animal Fat)– Increase energy concentration– Reduce dustiness– Limit to 5% of DM
• Molasses– Increase energy concentration– Reduce dustiness– Increase palatability– Increase binding of pellets– Limit to 5% of DM
ADAPTATION TO HIGH GRAIN DIETS
• Rumen microbial population must be slowly adapted to high grain diets to prevent:– Lactic acidosis– Founder– Polioencephalomalacia– Bloat
• Systems– Hand feeding
• Cattle fed forage for 4 to 7 days• Start feeding grain at 0.5% BW • Amount of grain increased at 1 lb/day to 1% of BW• Amount of grain increased at 1/2 lb/day to full feed• Decrease forage as grain increased• Feed bunks must be monitored to ensure feed
consumption– If intake decreases or ceases, slow rate of increase
– Self-feeding a mixed ration
– Supplementing Vitamin A at 30,000 to 50,000 IU/hd/day and Vitamin E at 400 to 800 IU/hd/day can assist in managing stress
Days Roughage:Concentrate
1-4 100% hay
5-8 50:50
9-13 40:60
14-17 30:70
18-21 20:80
22-25 15:85
26 10:90
MEETING THE FIBER REQUIREMENTS OF FEEDLOT CATTLE
• Need for fiber in ruminant diets– Stimulate rumination and saliva secretion– Prevents
• Parakeratosis of rumen wall• Liver absess• Acidosis• Bloat
• Requirement is for effective NDF (eNDF)– Includes fiber content and physical form of fiber– NDF that remains on top of a 1.18 mm screen
• Requirements– 8% eNDF if:
• Good bunk management, ionophore fed– 20% eNDF if:
• Variable bunk management, no ionophore
• eNDF concentrations of common feeds in feedlot diets– Feed eNDF, % of DM
Ground corn stalks 65
Ground hay 51
Corn silage 33
Soy hulls 22
Corn gluten feed 13
Whole corn grain 10
Cracked corn 8
Ground corn 5
Distillers dried grains w/solubles 4
Soybean meal 3
• Metabolizable protein supply dependent on:– Ruminally undegraded protein – Microbial protein synthesis
FACTORS AFFECTING THE PROTEIN REQUIREMENTS OF GROWING BEEF CATTLE
• Animal age and weight• Compensatory gain • Use of hormone implants• Feed intake
PRACTICAL IMPLICATIONS OF MP REQTS. OF FINISHING BEEF CATTLE
• Cattle at light weights relative to finishing weight will benefit from sources of rumen undegradable protein– Distillers grains w/solubles– Corn gluten meal– Expeller processed soybean meal– Blood meal
• Cattle at moderate weights only need to be supplemented with rumen degradable protein sources– NPN
• Recall rules for safe use of NPN• Cattle near finishing weights obtain adequate
metabolizable protein from a corn-corn silage diet with no protein supplementation
• If DDGS are fed at 20 to 40% of the DM at any time during feeding, no protein supplementation is necessary
MINERAL NUTRITION OF FEEDLOT CATTLE
• Salt (NaCl)– Should be supplied at 0.25% of diet DM
• Calcium and phosphorus– Feeds commonly used for feedlot diets contain low amounts of
CA and adequate to high amounts of P
– Add limestone to maintain Ca:P ratio of 2:1• Prevents urinary calculi
• Potassium– Borderline on high grain and corn silage diets– Monitor and supplement if:
• Low feed intake• Heat stress
Ca, % of DM P, % of DM
Reqt 0.4 – 0.6 0.24 – 0.30
Corn grain 0.03 0.32
Corn silage 0.25 0.22
DDGS 0.26 1.0
• Sulfur– Toxic is fed at greater than 0.4% of diet
• Causes polioencephalomalacia• Occurs at lower dietary levels of S if S content of water
is high– May be a problem in diets containing high levels of Distillers
dried grain w/ solubles• DDGS contain as much as 1.0% S
– Management• Do not feed > 40% DDGS in cattle diets• Increase forage content of diet (15%)• Delay addition of high levels of DDGS until cattle
adapted to grain• Use DDGS from plants that contain consistent levels of
S• Supplement cattle fed DDGS with 150 – 200 mg
thiamine/day• Trace minerals
– Cu, Zn, Fe, Mn, Co, and I should be supplemented in a premix
VITAMIN NUTRITION OF FEEDLOT CATTLE
• Vitamin A– Supplement at 30,000 – 50,000 IU/d during adjustment– Supplement at 20,000 – 30,000 IU/d after adjustment
• Vitamin E– Supplement at 400 – 800 IU/d for first 30 days in feedlot– Supplement at 500 IU/d during last 100 days in feedlot will
improve product shelf life
• Vitamin D – No need for supplementation if exposed to sunlight
• B vitamins– Thiamin supplementation at 150 – 200 mg/d may reduce the
risk of polioencephalomalacia in cattle fed DDGS– Other B vitamins not needed
FEED ADDITIVES AND IMPLANTS FOR FEEDLOT CATTLE(Take care to follow all dosage and use instructions)
Class Products EffectsFeed
additivesIonophores Monensin,
Lasalocid, Salinomycin
Increase propionic acid and decrease methane production in
rumen, decrease feed intake, increase feed efficiency, increase
ADG in cattle on high forage diets
Progestogen Melengesterol acetate (MGA)
Prevents estrus in heifers, increase ADG and feed
efficiency
B-agonist Ractopamine (Optiflex), Zilpaterol (Zilmax)
Fed during last 28 – 42 days in feedlot. Increases ADG, feed efficiency, ribeye size
and retail meat yield
Hormones Tylosin Reduces liver abscesses
Implants Estrogen Estradiol Increase rate of gain, feed efficiency, and protein gainProgestogen Progesterone
Androgens Trenbolone acetate
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