Nitrate Nitrogen (7C2)

Initially, milled air-dry soil is extracted for 1 h with 2M KCl at a 1:10 soil/solution ratio. For 7C1a to 7C1h methods, mineral-N components are quantified by steam distillations and subsequent titrations. For 7C2 methods, mineral-N fractions in the clarified soil extract are determined by automated colorimetric procedures. Ammonium ions (NH₄⁺) are measured by a modified Berthelot indophenol reaction, while the Griess-Ilosvay reaction is used for NO₃-N (and NO₂-N). The methods specify reporting results for NH₄-N and NO₃-N [plus NO₂-N if present], respectively, as mg N/kg on an oven-dry (105^oC) basis. Specifically, method 7C2a relates to an automated colour, continuous segmented flow analytical finish, while Method 7C2b codes an automated colour finish by flow injection analysis. Little difference is expected in results due to choice of colorimetric finish.

Bray 1 - P (9E2)

This extractable P test on milled air-dry sample uses a weakly acidic fluoride containing extractant (0.025M HCl and 0.03M NH4F). The soil/extractant ratio of 1:7 and a very short extraction time of 60 sec, making it prone to significant variability.  It is used to predict yield responses in legume-based pastures on acid to neutral soils in NSW, but not really used elsewhere.  Method 9E2 utilises an equivalent automated molybdenum-blue colour finish by flow injection analysis. The methods specify reporting results as mg P/kg on an air-dry basis.

CaCl2 extractable B - ICP (12C2)

The soil is extracted with boiling 0.01M Cacl2 solution at a 1:2 soil:solution ratio for 10 mins.  It is then quickly filtered to avoid any re-fixation of the solubilised B.  The extract is then analysed by ICP-AES.

Bicarbonate Extractable Phosphorus - Colwell (9B2)

This popular Australian P test on milled air-dry sample is suitable for acidic, neutral and alkaline soils. The extractant is freshly prepared 0.5M sodium bicarbonate @ pH 8.5. The wide soil/extractant ratio of 1:100 and an extended shaking time of 16 h favours readily available and more slowly available forms of soil P, while suppressing the solubility of basic calcium phosphates often found in neutral and alkaline soils.

Method 9B1 describes a manual, molybdenum-blue colorimetric procedure with a preferred absorbance at 882 nm, whereas Method 9B2 refers to the same initial soil extraction, followed by an equivalent automated molybdenum-blue colorimetric finish (continuous segmented flow or flow injection analysis). The methods specify reporting results as mg P/kg on an air-dry basis.

Electrical conductivity (EC) of 1:5 soil/water extract (3A1)

This test on milled air-dry sample at a soil/water ratio of 1:5 for 1 h is suitable for use on all soils, irrespective of whether acidic or alkaline. It usually underestimates the soluble salt status of soils containing natural or added gypsum, particularly if ³ 1% of gypsum is present. Such soils would have an EC of about 2 dS/m. Soil EC x 0.336 (Method 3B1) approximates percent total soluble salts, while approximate soil ionic strength (Method 3C1) at 0.1 bar (I_0.1) can be calculated as follows: I_0.1 = [0.0446*EC_1:5 – 0.000173], where I_0.1 has units of mM, and EC_1:5 has units of dS/m @ 25^oC.

DTPA Trace Elements (12A1)

Soils are extracted with 0.005M DTPA, at a 1:2 soil:solution ratio, and shaken for 2 hr at 25^oC.  Analytical finish is either ICP-AES or Flame AAS.

KCl-ext.S (10D1)

Empirical extraction at 40^oC in 0.25M KCl, for 3 hours.  Total S in the extract is measured by ICP-AES.

Extractable Phosphorus - Olsen (9C2)

Organic carbon - W & B (6A1)

This measure of soil organic carbon (OC_W&B; expressed as %C) usually yields a lower figure than the true total organic carbon value. The method uses finely-milled air-dry sample. It involves wet oxidation by a dichromate-sulphuric acid mixture and relies only on heat of reaction. Soil weight should take account of the expected concentration of OC, and it is expected that allowance will be made for positive soluble Cl^‑ interference in soils containing >0.5% Cl. The method specifies reporting on an oven-dry (105^oC) basis. Nowadays this method is less preferred than 6B methods.

Phosphorus buffer index, with Colwell P (PBI+ColP) pooled analytical finishes (9I2A)

4B2+4B4 (4B4)

This pH test on milled air-dry sample is suitable for use on all soils, irrespective of whether acidic or alkaline. Values are usually unaffected by fertilisation prior to sampling, as changes to the soil’s ionic strength is masked by the calcium chloride. Code 4B4 indicates addition of 0.21M CaCl2 to a 1:5 soil/water suspension to achieve 0.01M CaCl2 prior to measurement of pH, with stirring. This test is usually conmbined with 4B2, where a water based pH is determined immediately prior to this CaCl2 pH.

pH of 1:5 soil/water suspension (4A1)

Total organic carbon - high frequency induction furnace, volumetric (6B2)

This method for total soil OC involves production, purification and measurement of CO₂ evolved when soil carbon is ignited in a stream of O₂. Because all C compounds are converted to CO₂, the C from carbonates, charcoal, undecomposed wood, etc, will be included, as no soil pre-treatment is specified. In the volumetric sub-method 6B2a, concentrated KOH solution is used to absorb the CO₂ released. The difference between the original volume of gas in the burette and the volume produced after ignition equals the volume of CO₂ evolved from the sample, after correction for gas temperature and pressure. Sub-method 6B2b is similar to Method 6B2a, except the CO₂ produced by ignition is measured via infrared / thermal conductivity detection. Both 6B2a and 6B2b use finely-milled air-dry sample, with weights varying with expected C concentrations. Surrogate estimates can be obtained by NIR (method 6B4a) or MIR (method 6B4b) reflectance spectroscopy. The methods specify reporting as %C on an oven-dry (105^oC) basis.

Total soil N – Dumas high-temperature combustion (7A5)

Total carbon - high frequency induction furnace (with prior physical removal of (6B3)

Following quantitative action / pre-treatment to account for or to physically remove (if present) charcoal and to chemically remove carbonate with excess 5% H₂SO₃ solution on a hot plate in a fume cabinet, the residual, re-dried soil sample is analysed for soil C by a suitable method, preferably Method 6B2b. The method involving carbonate removal and soil C analysis uses finely-milled air-dry sample, with weights varying with expected C concentrations. The method specifies reporting as %C on an oven-dry (105^oC) basis.

Chloride - 1:5 soil/water extract (5A2)

Tests for water-soluble chloride (Cl) on milled air-dry sample are suitable for use on all soils. For method 5A1, Cl^‑ in clarified 1:5 soil/water extracts is determined by potentiometric titration with AgNO₃ in conjunction with an Ag/AgNO₃ electrode array. For method 5A2a, Cl^‑ in clarified 1:5 soil/water extracts is determined by an automated, continuous flow colorimetric procedure based on the formation — in the presence of ferric ions and free thiocyanate ions — of highly coloured ferric thiocyanate in proportion to the Cl^‑ concentration.

Method 5A2b is similar, except it pertains to the use of flow injection analysis (FIA). For 5A1 and 5A2 methods, it is assumed there are no chemical interferences of significance. Moreover, Method 5A2a has proven more precise than method 5A1, particularly at soil concentrations <50 mg Cl/kg. Other analytical finish options involve chemically-suppressed ion chromatography (5A3a), single-column electronically suppressed ion chromatography (5A3b), and direct measurement by ICPAES (Method 5A4). The methodology specifies reporting results on an air-dry basis.

DN-23

Microwave digestion - open system without HF, and final medium HNO₃/peroxide. ICP-AES finish.

(DN-24)

BB-31

Extraction with water. Spectrophotometric (automated) finish.

CA-37

Finely divided dry sample.  Dumas combustion.