Succession Soils

SAP Analysis Engine

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Succession Soils

Succession Soils — SAP Analysis Engine

From depletion to succession • Plant Sap Interpretation & Correction Protocol
📖 User Manual
✉ mike@successionsoils.co.za
📲 +27 64 501 6603
🌐 successionsoils.co.za
👥 Team Sign Out

Upload Analysis PDFs

Upload up to three PDF reports to triangulate: what is in the soil, what has accumulated in tissue, and what is currently flowing in sap. The engine cross-verifies all data sources before generating recommendations.

1. Sap Analysis *
🌱

Sap PDF

Soil2Sap / Agresol

2. Soil Analysis
🌎

Soil PDF

SASRI / Cedara / NviroTec / Brookside

3. Leaf Tissue Analysis
🌿

Tissue PDF

SARAI FAS Leaf Summary

Sap PDF is required. Soil and Tissue PDFs are optional — the engine will flag which data points are Verified (cross-confirmed) vs Sap Only (unverified).
Or skip upload and enter values manually.

Step 0 — Configuration

Spray volume per hectare
Max estimated EC per tank load. Defaults to crop-specific ceiling (tree 3.0 / hort 2.0 / blueberries 1.0 mS/cm).
Overrides auto-detected vapour pressure deficit (VPD) for spray-day conditions
Actual tank capacity in litres
Total area to be sprayed
Prescription combines dry products into a single blend per tank
Toggle between raw monohydrate salts and pre-chelated Phloem products

Sample Information

Field Conditions at Sampling

Environmental context at time of sampling. Used to interpret potential root restrictions and nutrient mobility issues.

🌱 15-Indicator Field Assessment

Physical and biological soil assessment. Biology and physics always override chemistry.
Upload a Soil Health Report or enter values manually. Tier 4 (Consultant Metrics) is optional.

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Upload a report or enter values manually

🌱 Field Assessment — Manual Entry

Sampling Conditions

Tier 1 — Physical Gateways

% of soil surface exposed
seconds for 2nd inch to infiltrate

Tier 2 — Soil Structure & Macro-Biology

cm — effective rooting depth
Count of distinct insect groups observed

Tier 3 — Root Zone Quality

Only required if legumes are present

Tier 4 — Consultant Metrics (Consultant — optional)

GIP gateway: <5.0 or >8.5 triggers flag
GIP gateway: >2.0 dS/m triggers flag
GIP gateway: >300 psi triggers flag
Foliar dissolved solids
F:B ratio from lab or microscopy
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Complete fields above to see score

Contact Details * Required

Step 1 — SAP Data

Values highlighted in green were auto-extracted from the PDF. You can edit any value.

NutrientYoung Leaf (YL)Old Leaf (OL)Unit
Succession Soils  |  mike@successionsoils.co.za  |  +27 64 501 6603  |  successionsoils.co.za

Upload Custom FieldLark Norms

Enter the absolute sufficiency ranges for your crop, or import them from a PDF.

📄
Import from PDF
Drag & drop a FieldLark / AEA / lab norms PDF here, or click to browse
NutrientLower NormUpper NormUnit

Add Custom Input Product

Add a new foliar input product. It will appear in the alternatives dropdown for the selected nutrient.

Decimal fraction

👥 Team Members

Add or remove team members who can log in to the SAP Analysis Engine.

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Manage Custom Norms & Products

Saved Crop Norms

No custom norms saved.

Saved Input Products

No custom products saved.

⚠ Mandatory Mixing Sequence — Monohydrate Trace Mineral Blend

Monohydrate salts must be pre-chelated with fulvic acid before contact with fish hydrolysate. Raw metallic sulfates react with hydrolysate phosphates to form insoluble precipitates that destroy the formulation.

Phase 1: Dissolve Monohydrate Salts

STEP 1: Add the monohydrate salts to a separate bucket of clean water. Agitate until fully dissolved (5–10 minutes). Do not add salts directly to fish hydrolysate.

Phase 2: Tank Induction

  1. Fill the main sprayer to 60%–70% capacity with water; engage vigorous mechanical agitation.
  2. Slowly add the dissolved Monohydrate Trace Mineral solution.
  3. Add the Fulvic Acid — agitate for at least 10 minutes to allow complete metal-fulvate chelation.
    ⚠ NEVER skip this step. Fulvic acid must chelate the metals before fish hydrolysate is added.
  4. Only after chelation is complete, slowly add the liquid Fish Hydrolysate.
    Metals are now organically shielded and cannot react with hydrolysate phosphates.
  5. Fill tank to 100% capacity; apply within 24 hours.