Soil and Leaf Testing – WHY?

1. Soil and Leaf Testing – WHY? NZ Soils • Soil types and behaviour varies widely between regions • BOP: Fertile ash soils with higher OM (15-20%) CEC >25 • Mid-North, South Auckland: Higher clay content soils, a varied OM (10-20%) CEC 20-25 • Far North and EBOP: Lighter, less fertile soils with lower OM (5-10%) CEC <20 as low as 5

2. Soil and Leaf Testing – WHY? Soil test • Greatest value is in : • An important starting point • Lifting soil fertility on new blocks • the opportunity to correcting downward trends on mature blocks • Primarily pH, Base fertility, and phosphate • But also detection of gross deficiency (or excess)

3. Soil and Leaf Testing – WHY? Soil test • Optimal soil levels are useful as a point of reference, • But, avocados produce well under a range of soil types and fertility • Provide “snapshot value” only for the more soluble nutrients eg K

4. Optimal Levels Soil • pH 5.8-6.4 • Phosphate OlsenP(mg/L) >50 • CEC (me/100g) 20+ • Total BS % 70-90 • K BS % 6-10 • Ca BS % 55-65 • Mg BS % 12-15 • Zinc (Mehlich 3) mg/L 5-15 • Boron (Mehlich 3) mg/L 2-6

5. Some Soil Test Specifics Cation Exchange Capacity and Base Saturation • CEC: the capacity of the (negatively charged) soil particles to retain nutrient cations and exchange them in the soil solution • Key Cations are Ca, Mg, K (also consider Ammonium, Boron) • Base Saturation: The extent to which we have utilised those exchange sites

6. Typical Response to Base Application: Productive, young Orchard on Maniatutu Rd (EBOP coastal hills ie. light, low CEC, pumice soils) 2010: K: 2.7% Ca: 44% , Mg:6.3% pH: 5.9 Applied in the winter 2010: 2000kg/ha aglime 250kg/ha MgO, 250kg/ha Gypsum 2011: K: 3.2% Ca: 50% , Mg:12.0% pH: 6.1 Total Base saturation went from 53% to 66% Missed opportunity: No P applied and Olsen P dropped from 47mg/L to 39mg/L

7. Calcium and Phytophthora Calcium is a key component of the fight against P.c. for 2 reasons • Root cell wall structure/strength • A natural fungicide as limits sporangial production and size

8. Soil and Leaf Testing – WHY? Leaf Test • Our most valuable validation tool • Has our nutritional program succeeded in achieving optimal leaf nutrient levels? • Optimum levels are essential to the advisor as a point of reference • Weakness : At a given point with no emphasis on maintenance

9. Optimal Levels Leaf % • Nitrogen2.7-2.9 • Phosphorous 0.16-0.19 • Potassium 1.1-1.2 • Calcium 1.5+ • Magnesium 0.4-0.8 • Iron 50-200 • Manganese (ppm) 150-300 • Zinc (ppm) 35-50 • Boron (ppm) 50-60

10. Leaf Test Specifics • Mg: Magnesium oxide (x1) or Kieserite (x2) is sufficient in meeting magnesium requirement • Mn: Deficiency common in the FN and starting to appear from Auckland South. Easily visually identified and rectified using Manganese sulphate as a soil application along with a buffered foliar product such as Wuxal Manganese or Mantrac both at 1-2 l/ha applied 2-3x during the growing season • Zn: Zinc trunk drench of zinc sulphate heptahydrate or banded ZS monohydrate

11. Winter Fertilisation • N and K are the key nutrients to be applying over the winter • Nitrate (vs Ammonium) is most available to the plant in low soil temperature but also easily leached , so • Little and Often is best • Also recommend a program of monthly foliar boron starting now (Solubor at 80g per 100litres) especially if autumn leaf boron is <30 • And a reputable proprietary foliar seaweed

12. Other Factors • Crop Loading • Tree Health • Pruning

14. Morton Rd Soil 2010 Morton Rd 2010

15. Morton Rd Leaf 2010

16. Morton Rd Soil 2011 Morton Rd 2010 Morton Rd Soil 2011

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18. Morton Rd 2010 Omokoroa Soil 2011

19. Omokoroa Leaf 2011