Spatial Variability in Precision Agriculture What is it? Precision

Spatial Variability in Precision Agriculture What is it? Precision n. The quality or state of being precise. Used or intended for precise measurement. Made for the least variation from a set standard. (Webster, 1995) Precise adj. Capable of, caused by, or designating an action, performance, or process carried out or successively repeated within close specified limits (Webster, 1995).

Precision Agriculture What is it? Precision in management? Knowing more precisely the size of fields, level of inputs (rates), yields, costs, and returns?

Precision Agriculture What is it? Management of production inputs in relation to more precisely delineated needs (Johnson, 1/18/01). Recognizes spatial variability of production needs within a population of production units, where production units are smaller than they used to be.

Spatial variability among production units. What is the size of a production unit? Depends on the enterprise. Small dairy single dairy animal. Wagoner Ranch, TX 7,000 – 8,000 acre wheat field. Agronomic units “fields” “zones”

Production Unit Size? By Farm?

Production Unit Size? 2-4 acre grids?

Production Unit Size? By plant?

Spatial variability among production units. What causes field delineation. Natural boundaries. Rivers Rock out-crops Political boundaries. Roads Survey units Land ownership Consolidation

Spatial variability among production units. What causes field delineation. Soil productivity appropriate to the crop (e.g. bottom land for alfalfa). Size determined by land use Government acreage restrictions (CRP) Tees, fairways, greens Size that is “convenient” to the operation for administering production inputs. Cultivation Planting Harvesting (mowing) Fertilizing Irrigation Etc.

Spatial variability (macro) for agronomic land use. Inherent (natural). Related to soil productivity and soil forming factors Time Parent material Climate Vegetation Slope

Soil acidity and Oklahoma rainfall Usually not acidic Usually acidic

Spatial variability (macro) for agronomic land use. Acquired (use induced). Influence of historical crop production on soil properties. Alfalfa vs. wheat for acidification and soil organic matter. Fertilizer use and change in soil fertility (Garfield County).

Acquired Acquired spatial spatial variability variability (micro). (micro). “Cow Pocks” in wheat pasture

Acquired Acquired spatial spatial variability variability (micro). (micro). Ave 47; CV 30

1x1 (60-acre cell)

6x4 (2.5 acre/cell)

12x8 (0.625 acre/cell)

25x16 (0.15 acre/cell)

50x32 (0.0375 acre/cell)

100x64 (45 yd2/cell)

200x127 (11 yd2/cell)

472x300 (2 yd2/cell)

Management Zones A C B

Open SST file

Fundamentals of Nutrient Management

Plant Growth and Soil Nutrient Supply Relationships Mitscherlich (1909) “ increase in yield of a crop as a result of increasing a single growth factor is proportional to the decrement from the maximum yield obtainable by increasing the particular growth factor.” dy/dx (A - y) c y22 Yield (y) y11 Law of “diminishing returns” x x11 x x22 Increasing level of growth factor (nutrient, x) A-y for x11 and y11

Plant Growth and Soil Nutrient Supply Relationships Mitscherlich – Soil deficiency levels could be expressed as a “percent sufficiency” 100 % of Maximum Yield or 75 “Yield Possibility” 50 10 40 70 100 Soil Phosphate (P) or Potassium (K) Supply (soil test index)

Plant Growth and Soil Nutrient Supply Relationships Mitscherlich Soil Test Correlation and Calibration Soil Test P Index Percent Sufficiency Fertilizer P2O5 0 10 20 40 65 25 45 80 90 100 80 60 40 20 0

Plant Growth and Soil Nutrient Supply Relationships Bray “ as the mobility of a nutrient in the soil decreases, the amount of that nutrient needed in the soil to produce a maximum yield (the soil nutrient requirement) increases from a value determined by the magnitude of the yield and the optimum percentage composition of the crop, to a constant value.” Bray mobile nutrient 100 % of Maximum Yield or 75 “Yield Possibility” 50 10 40 70 100 Soil Phosphate (P) or Potassium (K) Supply (soil test index)

Plant Growth and Soil Nutrient Supply Relationships Bray For a nutrient that is 100 % mobile in the soil (NO 3-N ?) Soil nutrient supply requirement Yield X % nutrient in tissue (Input requirement harvest output or removal) Idealized situation would be hydroponics nutrient supplying system (no soil-nutrient interaction)

What Happens to Applied Nitrogen Fertilizer? SOIL REACTIONS AMMONIUM FERTILIZERS NITRATE NITROGEN AMMONIUM NITROGEN SOIL M ICROORGANISMS SOIL ORGANIC MATTER

What Happens to Applied Nitrogen Fertilizer? CROP UPTAKE NH33 AMMONIUM AMMONIUM FERTILIZERS FERTILIZERS NITRATE NITROGEN AMMONIUM NITROGEN SOIL REACTIONS SOIL MICROORGANISMS SOIL ORGANIC MATTER

Plant Growth and Soil Nutrient Supply Relationships Wheat response to fertilizer N Bray mobile nutrient

Plant Growth and Soil Nutrient Supply Relationships Bray Soil nutrient supply requirement Yield X % nutrient in tissue Bushel Wheat Requirement (lb/bu) * % N 60 * 2.2 % N (13 % C.P.) 1.33 lb N/bushel Assumes –100 % efficiency in converting soil N to wheat grain N. – relatively constant N content At 70 % efficiency, requirement is 1.33/.70 1.9 lb N/bu

Plant Growth and Soil Nutrient Supply Relationships Bray Bushel Wheat Requirement (lb/bu) * % N 60 * 2.2 % N (13 % C.P.) 1.33 lb N/bushel At 70 % efficiency and 13 % C.P., requirement is 1.33/.70 1.9 lb N/bu At 50 % efficiency and 15 % C.P., requirement is 1.53/.50 3.1 lb N/bu At 100 % efficiency and 11 % C.P., requirement is 1.1/1 1.1 lb N/bu

Fate of Inorganic N in Soils

Nitrogen Nitrogen soil soil availability availability N22O and N22 Source Source and and fate fate of of nitrate nitrate (NO (NO33--).). Rainfall Denitrification - O22 NO NO33-- H NO33-O22 NH44 Leaching NO NO33-- Nitrification

Nitrogen Nitrogen soil soil availability availability N22O and N22 Rainfall Source Source and and fate fate of of ammonium ammonium (NH (NH44 ).). Denitrification - O22 Volatilization NO NO33-- H NO33-- Leaching NH33 H22O NO NO33-- CEC (-) O22 NH44 Soil Organic Matter-N OH-Mineralization

Nitrogen Nitrogen soil soil availability availability N22O and N22 Rainfall Source Source and and fate fate of of ammonium ammonium (NH (NH44 )) Denitrification - O22 Volatilization immobilization NO NO -33 H NO33-- Leaching NH33 H22O NO NO33-- CEC (-) O22 NH NH3434 Soil Organic Matter-N OH-Mineralization

Plant Growth and Soil Nutrient Supply Relationships Bray –Current Oklahoma field practice Estimated yield in bu/acre (YG) * 2 lb N/bu Estimated N requirement Estimated N requirement - soil test NO3-N Fertilizer N requirement. Estimated topdress N est.(Yield * %N) preplant and soil N supplied –sensor based goal Estimated topdress N k sensed yield and sensed % N

Plant Growth and Soil Nutrient Supply Relationships N use efficiency [100 (Nxx - N0) grain N] / Nxx applied