Soil Tests

Soil Tests - Basis for Soil Testing - Result Interpretation

Why Carry Out a Soil Test? • Aid in providing the optimum availability of nutrients for turf growth • Identifies nutrient deficiencies and problems which can be addressed before a maintenance program is initiated • Opportunity to create and/or maintain optimal soil chemistry for turf growth

Benefits of Soil Testing • Optimise plant health • Reduce unnecessary maintenance practices and fertiliser applications • Opportunity to save both time and money • Removes guesswork from formulating fertiliser programs

Sampling Procedure • Reliable results depends on correct sampling • Aim to provide a representative sample • Sampling depth important due to profile horizon variation

Sampling Instructions • Approximately 200g of soil necessary for nutrient analysis • Depth of cores should measure 10cm • Small cores more suitable than hole changer- sized cores

Sampling Instructions cont. • Take samples from areas of average growth • Take cores from poorer spots only if they are numerous • Cores should not be taken from recently fertilised areas • Time of year is important for historical analysis

Soil Properties Analysed • Soil pH (water, and CaCl2) • Cation Exchange Capacity (CEC) or Sum of Cations • Total Soluble Salts (TSS)/Electrical Conductivity (EC) • Phosphorus (Olsen)

Soil Properties Analysed cont. • Potassium (Skene) • Ca/Mg Ratio • % Base Saturation Ca, Mg, Na, K

Interpretation of Results • Results interpreted specifically in relation to turf growth • Turf has specific nutrient requirements and tolerance to toxicities of various elements • Turf Use is used to assist in determining recommendations

Total Soluble Salts (TSS)/ Electrical Conductivity(EC) • Reports the TSS in parts per million and the EC in dS/m. • TSS(ppm) = EC (dS/m) x 2970 • Ideal TSS level is <1000ppm or EC<0.34

Salinity

Cation Exchange Capacity (CEC) • Is equal to the sum of the of the 4 major cations (Ca, Mg, Na, K) measured in milli-equivalents/100g • Is largely dependent on soil type • low CEC: < 4 meq/100g (sands) • moderate CEC: 4-10 meq/100g (loams) • high CEC: >10 meq/100g (clays)

To Raise CEC • Incorporate organic matter • Increase % of loam and clay-sized particles in soil

Phosphorus (P)

Potassium (K)

Base Saturation • Used to assess the levels of Ca, Mg, Na and K as percentages of the total CEC. • Optimum Extractable level of an ion such as Ca is dependent on the CEC of the soil • Presenting levels as Base Saturation (or % of CEC) eliminates the need to consider CEC. • Recommendations based on ideal ranges of % base saturations

Base Saturations

Ca/Mg Ratio • Low: <2 Apply Gypsum • Optimal: 2-5 • High: >5 Apply Dolomite

Remedial Action • Products used in remedial treatments can have complimenting or conflicting effects on other soil properties. • Must take into account this range of effects when recommending remedial action. • Eg. Treatment of pH can effect the Ca/Mg Ratio

E.g. Remedial Treatments knowing the pH and Ca/Mg ratio

Nutrition Targets

Soil testing is an important tool for turf management. Results are most useful prior to renovation, but can be conducted year round Conclusion

Soil Tests

Soil Tests

Presentation Transcript

Soil

Soil texture Soil stucture soil consistence soil density soil prorosity Soil color

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Session 1.2 Soil Property Characterization by In-Situ Tests

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Unit tests, Integration tests Physics tests

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Soil Phosphorus Tests in the North-Central Region

Getting the most from your soil tests

Avocado Leaf and Soil Tests Interpretation

Simple Field Tests to Assess Soil Quality in Precision Agriculture

Soil Tests and Vegetable Nutrition in KY

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Soil Tests