Post on 12-Feb-2016
description
Nutritional Considerations
for the Cow Herd
(based on calving season)
What do they need?
When do they need it?
Energy• Result of CHO and Lipid metabolism
(eg. Converting hay to VFA)
• Requires the majority of feed intake
• Most commonly deficient nutrient for the brood cow
Estimated Net Energy Requirementsfor 2-, 3-, and 5-year old Cows
Oct Nov Dec Jan Feb Mar Apr May June July Aug Sept02468
1012141618 2-year old
3-year old5-year old
Calving
Months Since Calving1996 Beef NRC
Breeding Season
Wean
Mca
l/d
Protein• Cattle have 2 protein requirements
– N needs of rumen bacteria– Amino acids of the animal
• Degradable Intake Protein (DIP)– Breakdown in rumen and supply N to
bacteria• Undegradable Intake Protein (UIP)
– Escape rumen, digested in gut, supply AA
Protein Needs for Cows
02468
101214
1 2 3 4 5 6 7 8 9 10 11 12
Month Since Calving
Cru
de P
rote
in, %
30 lb peak milk production
Macro & Micro MineralsMacro• Salt (NaCl)• Calcium (Ca)• Phosphorous (P)• Magnesium (Mg)• Potassium (K)• Sulfur (S)
Micro• Copper (Cu)• Selenium (Se)• Zinc (Zn)• Manganese (Mn)• Cobalt (Co)• Iron (Fe)• Chromium (Cr)• Molybdenum (Mo)• Iodine (I)• Nickel (Ni)
Mineral Content of Forages
• Grasses are low in P, Mg, Se, Cu, Zn, Mn and others
• Grasses are high in Ca and K
• Grains are low in Ca, K, and many TM
Vitamins• Fat Soluble
– A, D, E and K
• Water Soluble– B complex and C
• For the cow, A is the only vitamin deficient under normal circumstances
Water• Factors affecting water intake
–Temperature–Feed moisture –Body size–Production status
Objective
Meet the nutritional needs of the cow herd as
economically as possible….
…generally on fescue-based pasture systems which minimize the need for stored (hay, silage) or
purchased (supplements) feeds.
Feb. 15 M A M J J A S O N D J
Critical Critical
Goals(Spring Calving Cows)
• Feed a least-cost, balanced ration
• Have healthy, vigorous calves and a good milk supply
• Cycle early and rebreed before extreme heat (in July)
Requirements of Spring Calving Cows
Fescue Production vs. Spring Calvers
Goals(Fall Calving Cows)
• Feed a least-cost, balanced ration
• Rebreed in December/January
• Extra feed for calves during February 15 to April 15 (creep graze or feed)
Requirements of Fall Calving Cows
Fescue Production vs. Fall Calvers
How do you make up the deficiency from pastures?
Allocation of Hay to Various Classes of Cattle Based on Quality
Quality of HayHigh
Low
Classes of Cattle• Young Calves• Weaned Calves• Replacements• Yearlings• Bred Heifers• 2-year old Cows• Lactating Cows• Mature Cows, last 1/3 of
gestation• Mature Bulls• Mature Pregnant Cows, first
2/3 of gestation
How much hay does a cow have to have daily?
Cow and Calf Performance, Feed Intake, lbs
Control Rumensin
Precalving Hay 26.8 23.2
Postcalving Hay 30.5 26.2
SBH 3.5 3.0
Or use your forage analysis to estimate dry matter intake…
120 / NDF (%) = DMI (% BW)
Approximate forage intake by beef cattle
Forage TDN % DMI (%BW)
Well-eared silage 60-70 2.5 to 3.3
Actively growing pasture 70 2.0 to 2.5
Legume hay, good 55-60 2.5 to 3.0
Grass hay, good 50-55 2.0 to 2.5
Mature grass hay 45-50 1.5 to 2.0
Grass hay, poor 40-45 1.0 to 1.5
Straw 35-40 1.0 or less
Find out how much hay the cow will consume
and make up a deficiency with energy or protein supplement
Balance the ration for needed nutrients
Sort Cows and Increase Feed After Calving
Energy Deficiencies Affect
• Cow Rebreeding
• Calf Health/Survival
• Calf Growth Rate
Timing of Deficiency Influences Effect
• Pre-calving deficiency days of post partum interval
• Post-calving deficiency % conception
How do you monitor the nutrition adequacy of
your feeding program?
Beef Cattle Body Condition Scoring
• Reflects adequacy of feeding program
• BCS is a visual assessment of body fat
• Scoring range of 1 to 9, 1=thin, 9=obese
• A score = 4 to 5% empty body fat and 65 to 85 lbs of body weight
Body Condition Score (BCS)in Beef Cows
• Highly related to reproductive efficiency
• Calving time BCS very important
• Thin cows at calving have days return to heat and pregnancy rate
Putting it all together
Forage System 1 (Control)
Fescue-N
Fescue-NBermuda
grass/Cereal Grain
Fescue/Clover
Fescue-N Fescue-N Fescue/Clover
Forage System 2 (High)
= creep gate
Fescue-NBermuda
grass/Cereal Grain
Fescue/Clover
Fescue-N Fescue-N Fescue/Clover
Forage System 3 (Low)
= creep gate
Fescue-NBermuda
grass/Cereal Grain
Fescue/Clover
Fescue-N Fescue-N Fescue/Clover
Forage System 4 (High)
= creep gate
Fescue/Clover
Fescue/Clover
Fescue/Clover
Fescue-N Fescue-N Fescue-N
Forage System 5 (High)
= creep feeder (soyhulls)
Performance of cattle on different forage/management systems (1.6 acres/cow) , 3 years.
Forage Management System
Item SCH SRH SRL FRH FRHCr
Wt. @ breeding, lbs 1,320 1,283 1,287 1,326 1,276
Timed A.I. preg. Rate, %
50.9 60.1 49.7 62.5 71.4
Overall pregnancy rate, %
82.4 88.8 93.6 88.6 95.3
Calving loss, % 8.9 11.1 6.7 4.4 8.9
Performance of cattle on different forage/management systems (1.6 acres/cow), 3 years.
Forage Management System
SCH SRH SRL FRH FRHCr
Averages
Birthdate Mar. 6 Mar. 6 Mar. 11 Sept. 30 Sept. 24
Birth Wt., lb 85.6 89.7 88.1 80.2 79.4
Weaning date Sept. 6 Oct. 17 Oct. 17 June 1 June 1
ADG, lb 2.30 2.18 2.29 2.16 2.27
Adj. 205 day wt, lb 573.1 555.4 572.2 536.8 560.5
Actual wean wt, lb 575.7 580.3 590.2 608.5 650.3
Creep feed (soyhulls), lb, hd
- - - - 821
Differing costs and income per year for different forage/management systems (15 cows on 24 acres)
Forage Management System
Item SCH SRH SRL FRH FRHCr
Income minus differing cost
$4,963.60 $5,482.83 $5,949.08 $5,474.93 $6,071.60
Advantage over unimproved
system, $
- $519.83 $985.48 $511.33 $1,108.00
(Per cow) - $34.62 $65.70 $34.09 $73.87
Latest Research in Mineral Supplementation
Parameter Evaluated Affects Animals Mineral Requirement
Immunity > Fertility > Growth > Maintenance
Factors influencing mineral intake from forage
• Forage mineral content
• Forage mineral availability
• Antagonists
• Dry matter intake
Organic vs. Inorganic Minerals
• Absorbed by a different system
• Use in presence of antagonists
• Better at immune stimulation
Situation:
Selenium (a trace mineral) is presently supplied as sodium selenite at 3X NRC recommended
level, yet deficiencies seem to appear (impaired immunity, etc.) FDA max. daily allowable is 3mg/hd/da in supplement
Effect of Dietary Selenium (Se) Supplementation on Tissue Se Concentration
Item Control NaSe Sel-Plex P Value
Red Blood Cells, mg/ml
0.26 (a) 0.34 (b) 0.42 (c) <.0001
Liver, mg/g 0.26 (a) 0.34 (b) 0.47 (c) <.0001
Flow chart of experimental approaches and molecular bio-techniques used
Tissue collection
Animal trial
RNA extractionSe analysis of blood & liver tissues
cDNA cRNA
Microarray hybridization
Bioinformatic analysis
(By Dr. Mahan’s laboratory)
Liver
Genes Altered by Se Supplementation:Identification of a Common Effect Between Treatments
30 (17,13) regulated dually by
Fisher’s protected LSD (P < 0.05)
125 (P < 0.01)
26 (13,13) regulated by ISe
23 (14,9) regulated by OSe
Implications
• The form of Se supplied in beef cattle mineral mixes matters!
• Therefore, the consequence of recommending inorganic or organic forms of Se to be used in mineral mixes needs to be fully understood from a physiological, and not just economical, perspective.
0 28 56 84 112 140 168 196 2240.000
0.100
0.200
0.300
0.400
0.500
0.600
0.700
ControlISeMixOSe
Live
r Se
(µg/
g)
Days on treatment
Effects of selenium on beef cows and their calves
Testis
• Male Calf Testicles– Gestational source of dietary Se affects
neonatal calf testes- affects spermatogenesis, may affect fertility in males
– Maternal source of Se affect steroidogenic gene expression. Can affect androgenesis and estradiol- 17β.
Effects of Se source on blastocyst development from super ovulated beef cows
• More High quality embryos with mix