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Useful Tables. Soil Fertility and Crop Nutrient Management Goals Manage plant and animal materials to maintain or improve soil organic matter content.

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Presentation on theme: "Useful Tables. Soil Fertility and Crop Nutrient Management Goals Manage plant and animal materials to maintain or improve soil organic matter content."— Presentation transcript:

1 Useful Tables

2 Soil Fertility and Crop Nutrient Management Goals Manage plant and animal materials to maintain or improve soil organic matter content in a manner that does not contribute to contamination of crops, soil, or water by plant nutrients, pathogenic organisms, heavy metals, or residues of prohibited substances. Manage plant and animal materials to maintain or improve soil organic matter content in a manner that does not contribute to contamination of crops, soil, or water by plant nutrients, pathogenic organisms, heavy metals, or residues of prohibited substances.

3 Soil Fertility and Crop Nutrient Management Goals Select and implement tillage and cultivation practices that maintain or improve the physical, chemical, and biological condition of soil and minimize soil erosion. Select and implement tillage and cultivation practices that maintain or improve the physical, chemical, and biological condition of soil and minimize soil erosion. Manage crop nutrients and soil fertility through rotations, cover crops, and the application of plant and animal materials. Manage crop nutrients and soil fertility through rotations, cover crops, and the application of plant and animal materials.

4 Crop Rotation Goals The producer should implement a crop rotation including but not limited to sod, cover crops, green manure crops, and catch crops that provide the following functions: Maintain or improve soil organic matter Maintain or improve soil organic matter Provide for pest management Provide for pest management Manage deficient or excess nutrients Manage deficient or excess nutrients Provide erosion control. Provide erosion control.

5 Planting Dates In the old days, the recommendation was 60 days before frost. In the old days, the recommendation was 60 days before frost. Best to plant by September 30 th. Best to plant by September 30 th. Earlier is better for soil protection, N recycling and fall growth. Earlier is better for soil protection, N recycling and fall growth. Don’t forget to inoculate the legume! Don’t forget to inoculate the legume!

6 Winter Legumes Biomass Biomass- N C:N (tons/ac)(lbs/ac) Hairy vetch 4.5-6.080-20011 Crimson clover 4.0-5.050-14016 Austrian pea 4.0-5.060-18021 Sub clover 3.5-4.560-15014 Crimson/rye6.0-8.080-14026 Hairy vetch/rye 6.0-8.080-18018

7 New Possibilities? Seeding as a biculture with fall veggies? Seeding as a biculture with fall veggies? Seeding into last cultivation of summer row crops? Seeding into last cultivation of summer row crops? Seeding as a biculture with a late-planted summer cover crop? Seeding as a biculture with a late-planted summer cover crop?

8 Winter Grasses BiomassBiomass-NC:N (tons)(lbs) Cereal Rye6.0-8.030-6540 Wheat5.0-6.020-4535

9 Plant Available N-April (lbs/ac) Total No- Till Till Crimson clover 754560 Crimson/ry e 603545 Hairy vetch 1006075 Hairy/rye956070

10 Plant Available N-May (lbs/ac) Total No- Till Till Austrian pea 905065 Crimson clover 1157585 Crimson/ry e 1158085 Hairy vetch 1207590 Hairy/rye13510595

11 Summer Legumes/Mixes Biomass Biomass- N C:N (tons/ac)(lbs/ac) Cowpeas2.5-6.060-9021 Soybean3.0-5.050-10520 Sunnhem p 6.0-8.080-16023 Velvetbea n 1.5-6.020-7021 Soy/millet3.0-5.030-10028 Cow/suda n 7.0-8.065-13533

12 Summer Grasses/Buckwheat Biomass Biomass- N C:N (tons/ac)(lbs/ac) Sorghum sudangra ss 8.0-10.065-10053 Japanese millet 3.0-4.025-4542 Pearl millet 5.0-8.045-9050 Buckwhe at 2.0-3.015-4034

13 Biomass-N 45 Days After Planting in the Piedmont (kg ha -1 ) 6/17/18/1 Sunnhem p 75150219 Cowpea4812489 Indigo448124 Soybean3458108 Guar135972 Lablab234167 Velvetbea n 163768

14 Fertilizer Rates per RYE Crop Suggested N rate Corn (grain) 1.0 to 1.25 lb N/bu Corn (silage) 10.0 to 12.0 lb N/ton Sorghum (grain) 1.5 to 2.0 lb N/cwt Wheat (grain) 1.7 to 2.4 lb N/bu Oats (grain) 1.0 to 1.3 lb N/bu Rye (grain) 1.7 to 2.4 lb N/bu

15 Nutrients in Manure (lbs/ton) Type NH 4 -N Total N P2O5P2O5P2O5P2O5 K2OK2OK2OK2O Poultry10261711 Broiler11727846 Turkey16577240 Stockpil e 8368034 Swine713129 Dairy31069

16 Nutrient Availability in Manures 60% of total N if incorporated 60% of total N if incorporated 50% of total N if left on surface 50% of total N if left on surface 80% of total P 2 O 5 80% of total P 2 O 5 70% of total K 2 O 70% of total K 2 O

17 Calculating Organic N Rates Determine total N. Determine total N. Pick an availability coefficient to determine what percentage of the total N will be available to the crop. Pick an availability coefficient to determine what percentage of the total N will be available to the crop. Multiply the availability coefficient times the total N in the material. Multiply the availability coefficient times the total N in the material. Adjust for the moisture in the material. Adjust for the moisture in the material.

18 Example of N Calculation One ton of wet material that has a 30% moisture content (70% dry content). One ton of wet material that has a 30% moisture content (70% dry content). The material is 1.5% N on a dry weight basis (most labs report nutrients this way). The material is 1.5% N on a dry weight basis (most labs report nutrients this way). Dry weight of one ton of material with 30% moisture is 1400 lbs (2000 X 0.70). Dry weight of one ton of material with 30% moisture is 1400 lbs (2000 X 0.70).

19 Example of N Calculation 1.5% N in 1400 lbs = 1400 X 0.015 = 21 lbs 1.5% N in 1400 lbs = 1400 X 0.015 = 21 lbs There will be 21 lbs of total N in the ton of wet material. There will be 21 lbs of total N in the ton of wet material. If we broadcast that material and leave it on the surface 50% will be available. If we broadcast that material and leave it on the surface 50% will be available. ~10 lbs of N per ton of wet material ~10 lbs of N per ton of wet material

20 Example of N Calculation All of the organic nutrients are usually added before the crop is planted. All of the organic nutrients are usually added before the crop is planted. Most vegetable crops need 100 lbs of N. Most vegetable crops need 100 lbs of N. To provide 100 lbs of N, we will have to add 10 tons of the organic material per acre. To provide 100 lbs of N, we will have to add 10 tons of the organic material per acre. 10 lbs/ton X 10 tons = 100 lbs. 10 lbs/ton X 10 tons = 100 lbs.

21 Compost N Availability N availability may be very low in compost. N availability may be very low in compost. Availability will depend on C:N ratio of the compost and the types of products that were used to make the compost. Availability will depend on C:N ratio of the compost and the types of products that were used to make the compost. Availability may range from 50% (C:N =6) to 5% (C:N ratio = 15) to 1% or less (C:N ratio > 20). Availability may range from 50% (C:N =6) to 5% (C:N ratio = 15) to 1% or less (C:N ratio > 20).

22 Seeding Rates (lbs/ac) for Winter Covers DrilledBroadcast Crimson15-2020-25 Hairy vetch 15-2020-30 Subclover8-1510-20 Austrian pea 60-90NR Small grain 100120-150 Bicultures15/4020/60

23 Seeding Rates (lbs/ac) for Summer Covers DrilledBroadcast Sunnhemp3045 Cowpea40-5075 Velvetbean30NR Soybean6090 Lablab30NR Indigo515


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