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**[https://anlab.ucdavis.edu/analysis/Soils/315 Total Kjeldahl nitrogen (wet oxidation method)]
 
**[https://anlab.ucdavis.edu/analysis/Soils/315 Total Kjeldahl nitrogen (wet oxidation method)]
 
**[https://anlab.ucdavis.edu/analysis/Soils/320 Total Nitrogen And Carbon - Combustion Method (Dumas Method)]]
 
**[https://anlab.ucdavis.edu/analysis/Soils/320 Total Nitrogen And Carbon - Combustion Method (Dumas Method)]]
 +
*Potassium, Sodium, Calcium, Magnesium, Boron and sulfate-Sulfur
 +
**[https://anlab.ucdavis.edu/analysis/Soils/235 Inductively Coupled Plasma Emission Spectrometry (ICP-AES)] - recommended due to lower detection limits
 +
**[https://en.wikipedia.org/wiki/Atomic_absorption_spectroscopy atomic absorption spectroscopy]
 +
 +
===Metals===
 +
*[https://anlab.ucdavis.edu/analysis/Soils/390 Inductively Coupled Plasma Emission Spectrometry (ICP-AES)] - recommended due to lower detection limits
 +
*[https://en.wikipedia.org/wiki/Atomic_absorption_spectroscopy atomic absorption spectroscopy]
 +
 +
==pH==
 +
*[https://anlab.ucdavis.edu/analysis/Soils/205 Saturated paste] - recommended
 +
*[https://www.epa.gov/sites/production/files/2015-12/documents/9045d.pdf 1:1 and 2:1 water ratios]
 +
 +
==Organic matter and carbon==
 +
*[https://anlab.ucdavis.edu/analysis/Soils/322 organic carbon combustion]
 +
*[https://anlab.ucdavis.edu/analysis/Soils/410 organic matter Walkley-Black]
 +
*[https://anlab.ucdavis.edu/analysis/Soils/415 Organic matter loss on ignition] - recommended due to ease of use and since organic matter is more commonly used compared to organic carbon
 +
 +
==Exchange capacity==
 +
*Cation exchange capacity - multiple methods are available for cation exchange capacity. For more information [https://s3.amazonaws.com/udextension/lawngarden/files/2012/10/CHAP9.pdf read here].
 +
**[https://anlab.ucdavis.edu/analysis/Soils/430 Barium chloride Compulsive Exchange Method] - recommended but is time consuming and generates a hazardous waste
 +
**Ammonium Acetate Method - acceptable if soil pH is near 7.0
 +
**Agronomic Soil Tests - estimates CEC from test extractable Ca, K, and Mg and some rapid measure of exchangeable acidity (see next bullet)
 +
*[https://anlab.ucdavis.edu/analysis/Soils/360 Exchangeable Potassium, Calcium, Magnesium, Sodium And Estimated Cation Exchange Capacity]
  
 
==Field methods==
 
==Field methods==

Revision as of 20:45, 17 June 2021

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There are hundreds of soil tests that can be conducted, both in the field or laboratory. This page provides an overview of more common soil tests, links to information on sampling, and links to test methods.

Information: Soil sampling should be conducted by trained and, where appropriate, certified professionals, such as licensed soil scientists and geoscientists
Information: Laboratory tests should be done by certified laboratories. The Minnesota Department of Health Environmental Laboratory Accreditation Program develops procedures and requirements to ensure accredited laboratories produce accurate and precise test results. Search for an accredited lab.

Laboratory tests

Below is a list of recommended laboratory tests

Nutrients

Soil macronutrients include phosphorus, nitrogen, potassium, sulfur, calcium, and magnesium.

Metals

pH

Organic matter and carbon

Exchange capacity

Field methods

Sample collection

Soil sample collection methods vary and covering all acceptable methods is beyond the scope of this page. Below are links to sampling methods.

Sampling for chemical tests

Note that these references provide information on soil sample collection. Except where noted, they do not include field procedures associated with specific tests and most do not include information on quality assurance and quality control (QA/QC). Use professional, certified/licensed individuals or firms to ensure appropriate QA/QC procedures are followed.