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Coping With Alfalfa Winterkill. Randy Shaver, Ph.D. Department of Dairy Science University of Wisconsin - Madison University of Wisconsin - Extension. Coping With Alfalfa Winterkill. Alternative Forages - Oats & Peas Silage - Ryegrass Silage High Corn Silage Diets
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Coping With Alfalfa Winterkill Randy Shaver, Ph.D. Department of Dairy Science University of Wisconsin - Madison University of Wisconsin - Extension
Coping With Alfalfa Winterkill • Alternative Forages - Oats & Peas Silage - Ryegrass Silage • High Corn Silage Diets • Low Forage Diets - Minimum Forage Guidelines - Forage Replacers
Small-Grain Silage vs. Alfalfa SilageDairyland Labs, 2004; >2000 samples of each forage
Small-Grain Silage vs. Alfalfa SilageDairyland Labs, 2004; >2000 samples of each forage
Small-Grain Silage vs. Alfalfa SilageDairyland Labs, 2004; >2000 samples of each forage
Oats vs. Oats & Peas SilageUndersander, 2000;10 oat varieties at Arlington, WI
Small-Grain Silage vs. Alfalfa or Corn SilageUSDFRC,Mertens, 1996
Small-Grain Silage vs. Alfalfa or Corn SilageUSDFRC,Mertens, 1996
Impact of Small-Grain Silage MaturityArieli & Adin, JDS, 1994 11 days between early and late cut
Harvest & Use of Oats & Peas Silage • Harvest at boot stage for milk-cow feed, and milk to soft-dough stage for dry cow/heifer feed • Field wilt to 60%-65% moisture for horizontal silos and 55%-60% moisture for uprights • Chop length similar to that for alfalfa/grass silage • Variable composition depending on proportion of oats vs. peas and maturity at harvest • Test to determine nutrient composition - Wet Chem vs. NIRS? • Balance rations
Annual Ryegrass Maturity vs. QualitySulc et al., Agron. J., 1993 Ryegrass companion crop for alfalfa establishment
Ryegrass Silage vs. AlfalfaSilageHoffman et. al, JDS, 1998 Late bud alfalfa and boot ryegrass
Harvest & Use of Ryegrass Silage • Harvest at boot to early bloom stage • Field wilt to 60% moisture for horizontal silos and 55%-60% moisture for uprights • Chop length similar to that for alfalfa/grass silage • Cutting, blowing, unloading concerns? • Test to determine nutrient composition - Wet Chem vs. NIRS? • Balance rations
High Corn Silage Diets • NDF, NFC, Starch & NEL vary widely in CS- Accurate CS analysis critical for diet formulation • CS suggested maximum- 2/3rds to 3/4ths of forage DM • If 3/4ths or more CS in diet DM, remaining forage as coarse-chop hay or straw for TMR particle size • Minimum NDF-forage of 18% or greater • WCS provides a margin of safety
Dietary Fat • Basal rations usually contain 3% fat (DM basis) • High production rations usually formulated to 5% - 6.5% total fat (DM basis) • Supplemental fat usually a combination of oilseeds, animal fat, and(or) rumen-inert fat • With high-CS diets, reduced milk fat test may occur via effects on trans fatty acids • May need to reduce level of supplemental fat and(or) feed greater proportion of rumen-inert fat
CP • Recommended Dietary Allowances- Early to Mid Lactation - 16.5% to 18.0% (DM basis) - Late Lactation - 13.5% to 15.0% (DM basis)
RDP • Support N needs of rumen microbes - High ruminal digestion of CHO to VFA - High ruminal microbial protein production • RDP should comprise 60% - 65% of CP • RSP should comprise 30% - 33% of CP • With high-CS diets, may need to feed urea (2 to 4 oz.) or raw soybeans (2 – 3 lb.)
RUP & Amino Acids • Meet amino acid needs of high-producing cows • RUP should comprise 35% - 40% of CP or 6.5% of DM • Limit use of CGM, DDG, & BDG in high-CS diets because of their low lysine content • Best RUP sources for high-CS diets are heat-processed soybeans or SBM & blood meal • Among these RUP sources, evaluate QC& cost
Macro-Mineral Content of Corn Silage vs. AlfalfaSource: US-Canadian Feed Tables (1982)
Dietary Buffers • Neutralize diet acidity and ruminal acid production • NaBicarb-Mag Ox (3:1 ratio) recommended at 0.75% - 1.0% of lactation TMR DM • K-Carbonate - Can partially replace Na-Bicarb, K supplement • CaCarb - Post-ruminal buffer, Ca supplement • Free-choice Bicarb? - (Mix 3:1 with salt to limit intake) • Na or K buffers should not be fed to dry or pre-fresh cows, because they will elevate DCAD
Dietary Buffers Based on NRC-01--summary of 41 trials
Bunk Stability • Commercially-available propionic-acid based products usually with some acetic acid or benzoic acid • Buffered products that are non-corrosive • < Growth of yeast and < heating • Used as TMR additive to improve bunk life • Application Rate: 2 - 4 lb. per ton as-fed TMR • Cost: $1.00 per lb. product • Target Use: Unstable TMR; Hot, humid weather
Conclusions--Distiller’s Research Summary • Lactation responses and current economics support the inclusion of DG in diets for lactating dairy cows • 5-15% of diet DM was the most favorable inclusion rate • Reduced DMI & milk fat % may be watch-outs when feeding wet DG • Diet CP & amino acid status and forage base influence the DG responses High fat diets, non-inert fat sources, high corn silage diets, low forage diets, high NFC diets, fine diets, & rumensin can interact to reduce milk fat test
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