The Soil and Plant Laboratory
The laboratory performs field and plant nutrition analyses and has good resources for preparing soil samples. Continuous quality work is being conducted through participation in international proficiency testing.
Soil analyses are mainly carried out for the environmental monitoring program Markinventeringen, the department's long-term field experiments, and for the department's research projects, but external assignments are also carried out regularly.
Nutrient analyses of plant and soil samples (e.g. grain, grass, potatoes) are mainly carried out for SLU, but external assignments can also be carried out.
Forms
Analysis order forms can be downloaded here.
Please send the order form to: mvlab@slu.se
Brief descriptions of the analyses we perform at the Soil and Plant Laboratory are listed here below.
Dry matter and loss on ignition
The sample is weighed and dried in a heating cabinet at 105°C for 20-24 h. The sample is then weighed, and the dry matter is calculated. For loss on ignition, the dry sample is placed in a muffle furnace and burned at 550°C for at least 2 hours. The sample is then weighed and the loss on ignition is calculated.
Carbon and nitrogen - determination by Dumas method
Combustion at 1350°C: The sample is burned in pure oxygen at 1350°C. The combustion gases are then analysed for carbon dioxide (CO₂) and nitrogen (N₂).
Total Carbon and Nitrogen: The results are given as the total weight percentage of carbon (Tot C) and nitrogen (Tot N).
Determining Organic Carbon:
Initial heating at 550°C: The sample is first heated at 550°C to remove organic carbon (Org C) and then analysed.
Combustion of Remaining Carbonate Carbon: The remaining carbonate carbon (Karb C) is burned at 1350°C.
Calculation: The organic carbon content is calculated as Org C = Tot C - Karb C.
pH of water extract
Mixing and Shaking: The soil sample is mixed with water and shaken.
pH Measurement: Depending on the technical rule or regulation, the pH value is measured either in the suspension or in the supernatant.
Method Variations: Different methods specify different shaking times and mixing ratios between water and soil.
ISO 10390:2022 Method: This method uses a volume-to-volume ratio of 1:5 for mixing, and the pH value is determined in the soil suspension.
pH of 0.01 M CaCl2 extract
Procedure as above with exception that the soil sample is mixed with 0.01 M CaCl2 solution.
pH of 1 M KCl extract
Procedure as above with exception that the soil sample is mixed with 1 M KCl solution.
Acidity of 1 M KCl extract
The sample is extracted with 1 M KCl solution and filtered. The filtrate is then titrated potentiometrically to a pH of 7.6 using a 0.02 M NaOH solution to get the results for the acidity.
Aluminum in 1 M KCl extract - determination by ICP-OES
Aluminum ions are extracted from the soil sample with 1 M KCl solution and the soil is filtered from the extracts. The filtrate is used for pH determination and determination of aluminum content by ICP-OES.
Acidity of 1 M NH4OAc extract (pH = 7.0)
The sample is extracted with 1 M NH4OAc solution. The filtrate is titrated potentiometrically to a pH of 7.0 using a 0.1 M NaOH solution to get the results for the acidity.
Base cations in 1 M NH4OAc extract (pH = 7.0) - determination by ICP-OES
The sample is extracted with 1 M NH4OAc solution. After filtration, the concentration of Ca, K, Mg, Mn and Na is determined by ICP-OES.
Orthophosphate
Orthophosphate reacts with molybdate and ascorbic acid to form a blue compound that is measured at a wavelength of 660 nm photometrically by continuous flow analysis.
Ammonium, nitrate and nitrite
The soil sample is frozen and extracted in 2 M KCl. The concentration of NH4-N and NO3-N in the extract solution is determined photometrically by continuous flow analysis. When analysing nitrate nitrogen (NO3-N), the sum of nitrate plus nitrite nitrogen is obtained.
Electrical conductivity - determination
The soil sample is extracted in water to dissolve the electrolytes. After filtration, the electrical conductivity of the filtrate is measured.
Extractable plant nutrients - extraction with CaCl2-solution - determination by ICP-OES or CFA
The soil sample is extracted with 0.01 M CaCl2 solution. After filtration, the concentration of P, K, Ca and Mg is determined by ICP-OES. Alternatively, orthophosphate is determined photometrically by continuous flow analysis.
Extractable plant nutrients - extraction with ammonium lactate-acetic acid solution - determination by ICP-OES
The soil sample is extracted with ammonium lactate/acetic acid solution. After filtration, the concentration of P, K, Ca, Mg and Na is determined by ICP-OES.
Extractable plant nutrients - extraction with HCl-solution - determination by ICP-OES
The soil sample is extracted with 2 M HCl. After filtration, the concentration of P, K, Ca, Mg and Na is determined by ICP-OES.
Extractable plant nutrients - digestion with HNO3-solution - determination by ICP-OES
Soil or plant samples are digested with concentrated nitric acid. After filtration the concentration of P, K, Ca, Mg, Na, Cu, Zn, S, Fe and Al is determined by ICP-OES.
Elements in oxalic acid ammonium oxalate extracts (pH = 3,0) - determination by ICP-OES
The soil sample is extracted with 0.2 M ammonium oxalate/oxalic acid. After filtration, the concentration of P, Al and Fe is determined by ICP-OES.
Elements in extracts with 0.5 M NaHCO3 (Olsen method) - determination by ICP-OES
The soil sample is extracted with 0.5 M NaHCO3 at pH 8.5. After filtration, the concentration of P is determined by ICP-OES.
Phosphorus sorption index (PSI) - determination by ICP-OES or CFA
The soil sample is shaken with phosphorus-containing solution. After filtration, the phosphorus content of the supernatant is determined, and the degree of sorption is calculated. The concentration of phosphorus is determined by ICP-OES, alternatively the concentration of orthophosphate is determined by continuous flow analysis.
Greenhouse gases, methane and nitrous oxide - determination by headspace gas chromatography, HS-GC (FID/ECD)
The sample is collected in a vial by the chamber method. The sample is separated as it flows through a separation column for permanent gases. Methane is detected and quantified using a flame ionisation detector. Nitrous oxide is measured using an electron capture detector.
Analysis of cereals, legumes, and oilseeds using Near Infrared Transmittance (NIT)
NIT analysis determines quality parameters such as protein, water content, starch, and oil. The samples need no milling step but need to be clean before analysis. The system is based on spectroscopic measurement. The spectrum obtained is used in mathematical calculations to predict various parameters such as protein, water content, starch, and oil.
The analysis can be performed on wheat, oats, rye, barley, field beans, peas, and rapeseed. Depending on crop type different parameters are of interest and can be analysed.
|
Material |
Parameters that can be analysed |
|
Oat |
water content, protein content, bulk density |
|
Barley |
water content, protein content, starch content, bulk density |
|
Barley |
water content, protein content, ergosterol, bulk density |
|
Rapeseed |
water content, oil content |
|
Rye |
water content, protein content, bulk density |
|
Wheat |
water content, protein content, gluten content, starch content, bulk density |
|
Field bean |
water content |
|
Peas |
water content, protein content |
Soil preparation |
|
| Drying, grinding, sieving (<2 mm) | 180 kr |
| DNA-sample preparation (freeze grinding, freeze drying, grinding, weighing) | 510 kr |
Plant preparation |
|
| Threshing | 165 kr |
| Cleaning grain, seeds | 100 kr |
| Milling plant material (<2 mm) | 165 kr |
| Milling grain (<2 mm) | 115 kr |
Single soil analyses |
|
| Total solids (105°C) | 110 kr |
| Loss on ignition (550°C) | 200 kr |
| pH (H2O) or pH (CaCl2) | 120 kr |
| Electrical conductivity (EC) | 120 kr |
Single plant analyses |
|
| Total solids on whole plant material (100°C, 60°C, 40°C) | 120 kr |
| Total solids on prepared plant material (105°C) | 110 kr |
| Near Infrared Transmittance (NIT) analysis of cleaned grain, seeds | 90 kr |
| Thousand grain weight | 90 kr |
Elemental analysis of carbon and nitrogen |
|
| Total carbon | 260 kr |
| Organic carbon (Total carbon also reported) | 350 kr |
|
Total nitrogen |
260 kr |
| Total carbon + total nitrogen | 300 kr |
| Organic carbon + total carbon + total nitrogen | 400 kr |
Mineral nitrogen analysis (ammonium and nitrate nitrogen) |
|
| Freeze grinding of soil | 190 kr |
| KCl-extraction + DW (%) | 180 kr |
| Ammonium nitrogen in extracts | 150 kr |
| Nitrate nitrogen in extracts | 150 kr |
Extractable nutrients |
|
| Determination of plant available elements (AL-method) | |
| Extraction + analysis of one element | 275 kr |
| Extra element, per element | 45 kr |
| Extraction using hydrochloric acid (HCl) solution for determination of P, K, Ca, Mg, Na (storage nutrients) |
|
| Extraction + analysis of one element | 275 kr |
| Extra element, per element | 45 kr |
| Digestion using concentrated nitric acid (HNO3) for determination of P, S, K, Mg, Ca, Na, Mn, Cu, Zn, Al |
|
| Extraction + analysis of one element | 350 kr |
| Extra element, per element | 45 kr |
Other special analyses |
|
| Analysis of prepared extracts (AL, HCl, HNO3, NH4Ox, CaCl2, KCl) - no sample preparation by the lab | |
| Analysis of one element | 160 kr |
| Extra element, per element | 45 kr |
|
Determination of CEC and base saturation (Ammonium acetate pH 7) |
800 kr |
|
Determination of elements (e g P, Al, Ca, Fe, K, Mg, Mn) after extraction using ammoniumoxalate/oxalic acid |
800 kr |
|
Determination of methane and nitrous oxide in air (… GHG emissions from soil) - headspace-gaschromatography |
125 kr |
Shipping |
|
| Shipping costs are added for return of samples after completed analysis & sending sampling materials | Price depends on size and weight of package |
Contact
-
PersonJohanna Antti, laboratory manager at the department of soil and environmentSoil and plant laboratorie