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Grazing Arithmetic Dennis Hancock Extension Forage Specialist UGA – Dept. of Crop and Soil Sciences Dennis Hancock Extension Forage Specialist UGA – Dept.

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Presentation on theme: "Grazing Arithmetic Dennis Hancock Extension Forage Specialist UGA – Dept. of Crop and Soil Sciences Dennis Hancock Extension Forage Specialist UGA – Dept."— Presentation transcript:

1 Grazing Arithmetic Dennis Hancock Extension Forage Specialist UGA – Dept. of Crop and Soil Sciences Dennis Hancock Extension Forage Specialist UGA – Dept. of Crop and Soil Sciences 2009 Georgia Grazing School

2 Grazing Pressure Productivity Per Animal vs. Per Acre Product animal Product animal Undergrazing Overgrazing

3 Grazing Pressure Undergrazing Overgrazing Productivity Per Animal vs. Per Acre Product animal Product animal Product acre Product acre Optimum

4 Stocking Rate vs. Density Stocking Rate Animals per acre over all acres and a period of time  (e.g., months, a season, a year) 675 acres 338 cows 2 acres 1 cow

5 Stocking Rate vs. Density 338 cows 22.5 acres 1 acre 15 cows Stocking Density Animals per acre at any one point in time  (e.g., within a given paddock)

6 Basic Grazing Numbers Animal Data  Animal Weight (lbs)  Rate of Dry Matter Intake (DMI, %)  Head Grazing Data  Rest Period (d)  Days in a Given Paddock (d)  Number of Paddocks  Grazing Efficiency (%)  Paddock Size (acres) Production Data  Acres Available (acres)  Available Forage before (lbs/acre)  Available Forage after  Available Forage diff  Stocking Rate  Stocking Density Available Forage Need Logistics

7 Basic Grazing Numbers Animal Data  Animal Weight (lbs)  Rate of Dry Matter Intake (DMI, %)  Head Grazing Data  Rest Period (d)  Days in a Given Paddock (d)  Number of Paddocks  Grazing Efficiency (%)  Paddock Size (acres) Production Data  Acres Available (acres)  Available Forage before (lbs/acre)  Available Forage after  Available Forage diff  Stocking Rate  Stocking Density Available Forage Need Logistics

8 Estimating Forage Need By % of body weight (Table Data): Animal ClassForage Intake Range (DM as a % of b.w.) Dairy cow2.0-4.0 Dairy heifer2.2-2.8 Bull1.5-1.9 Beef, cow (dry)1.7-2.0 Beef, cow (late gest.)1.8-2.1 Beef, cow (early lact.)1.9-2.4 Beef, stocker (steer)2.4-3.2 Beef, stocker (heifer)2.2-2.6 Beef, finishing2.3-2.5 Beef, replacement heifers2.0-2.4 Sheep, ewes (dry)1.5-2.0 Sheep, ewes (late gest.)2.2-3.2 Sheep, ewes (early lact.)3.0-4.8 Horse, Mature (maint.)1.0-2.0 Horse, Mature (late gest.)1.0-2.0 Horse, Mature (early lact.)1.3-2.6 Horse, Weanling (< 600 lbs)2.3-2.8 Horse, Yearling (600-1000 lbs)2.0-2.3 Goat, nanny (dry)1.5-2.0 Goat, nanny (late gest.)2.2-3.2 Goat, nanny (early lact.)2.8-4.8

9 Estimating Forage Need By % of body weight (Table Data): Animal ClassForage Intake Range (DM as a % of b.w.) Dairy cow2.0-4.0 Dairy heifer2.2-2.8 Bull1.5-1.9 Beef, cow (dry)1.7-2.0 Beef, cow (late gest.)1.8-2.1 Beef, cow (early lact.)1.9-2.4 Beef, stocker (steer)2.4-3.2 Beef, stocker (heifer)2.2-2.6 Beef, finishing2.3-2.5 Beef, replacement heifers2.0-2.4 Sheep, ewes (dry)1.5-2.0 Sheep, ewes (late gest.)2.2-3.2 Sheep, ewes (early lact.)3.0-4.8 Horse, Mature (maint.)1.0-2.0 Horse, Mature (late gest.)1.0-2.0 Horse, Mature (early lact.)1.3-2.6 Horse, Weanling (< 600 lbs)2.3-2.8 Horse, Yearling (600-1000 lbs)2.0-2.3 Goat, nanny (dry)1.5-2.0 Goat, nanny (late gest.)2.2-3.2 Goat, nanny (early lact.)2.8-4.8 Beef, cow (dry)1.7-2.0 Animal ClassForage Intake Range (DM as a % of b.w.)

10 Estimating Forage Need By % of body weight (Table Data): Beef, cow (dry)1.7-2.0 Animal ClassForage Intake Range (DM as a % of b.w.) 2400 lbs/d=1200 lb cow 2.0%/hd/d 100 hdxx Daily Forage Need - Calculator

11 Basic Grazing Numbers Animal Data  Animal Weight (lbs)  Rate of Dry Matter Intake (DMI, %)  Head Grazing Data  Rest Period (d)  Days in a Given Paddock (d)  Number of Paddocks  Grazing Efficiency (%)  Paddock Size (acres) Production Data  Acres Available (acres)  Available Forage before (lbs/acre)  Available Forage after  Available Forage diff  Stocking Rate  Stocking Density Available Forage Need Logistics

12 Rest Period and Occupancy depend on the Growth Curve Available Forage (dry mass/unit area)

13 Grazing Rules of Thumb Crop Target Height (inches) Recommended Rest Period (days) Begin GrazingEnd Grazing* Alfalfa (grazing types)10-162-415-30 Annual Ryegrass6-123-47-15 Bahiagrass6-101-210-20 Bermudagrass4-81-27-15 Clover, White6-81-37-15 Clovers, Other8-103-510-20 Orchardgrass8-123-615-30 Pearl millet20-248-1210-20 Small grains8-1247-15 Sorghum/sudan20-248-1210-20 Switchgrass18-228-1230-45 Tall Fescue4-82-315-30 * Height at end of grazing should take into consideration lower quality forage.

14

15 Paddock Number How many paddocks should I use? Ideally, one should first consider the needs of the grass.  How much rest period is needed?  How long should I keep them in a paddock?  i.e., how many days between rotations? Number of Paddocks = Days of Rest Days of Grazing + 1 9 Paddocks = + 1 24 days of rest 3 days of grazing

16 Paddock Size How big should my paddocks be? This is where it all comes together…  But, there’s one element we still need to measure.  We’ll come back to that!  In the meantime, let’s refresh our memory on grazing efficiency. Paddock Size Animal Weight x %DMI x Head x Days in Paddock Available Forage diff x Grazing Efficiency % =

17 Mechanical Hay30-70% Silage60-85% Green Chop70-95% Efficiencies of Grazing and Mechanized Harvest MethodEfficiency Grazing Continuous Stocking30-40% Slow Rotation (3-4 paddocks)50-60% Moderate Rotation (6-8 paddocks)60-70% Well-managed MiG70-80%

18 Basic Grazing Numbers Animal Data  Animal Weight (lbs)  Rate of Dry Matter Intake (DMI, %)  Head Grazing Data  Rest Period (d)  Days in a Given Paddock (d)  Number of Paddocks  Grazing Efficiency (%)  Paddock Size (acres) Production Data  Acres Available (acres)  Available Forage before (lbs/acre)  Available Forage after  Available Forage diff  Stocking Rate  Stocking Density Available Forage Need Logistics

19 The Primary Calculations Paddock Size Animal Weight x %DMI x Head x Days in Paddock Available Forage diff x Grazing Efficiency % = = Days of Rest Days in Paddock + 1 Number of Paddocks Available Acres = x Paddock Size Number of Paddocks Grazier's Arithmetic: A Grazing Calculator

20

21 Tracking Forage Availability Rising plate meter  (falling plate) Rising plate meter  (falling plate)

22 Tracking Forage Availability 11002500

23 Tracking Forage Availability Grazing Stick STAND RATING ForageThinGoodThick --- (dry lbs/acre/inch) --- Bermudagrass80-200200-300300-450 Fescue50-150150-200200-300 Fes. + Clover50-125125-200200-275 Ryegrass100-200200-250250-350 Small grain100-150150-200200-300

24 Grazing “Wedge” – May 15

25 Grazing “Wedge” – Dec. 1 Grazing Wedge Calculator

26 Resources

27 Grass Productivity – Andre Voisin, 1959. On Google Books or available for purchase

28

29 Questions? www.georgiaforages.com

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