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astm-d3644-determination-of-mercury-in-soil
Heavy Metals and Contaminants AOAC 2005.06 Lead and Cadmium in Food ProductsAOAC 2011.14 Arsenic and Lead in Rice ProductsAOAC 2015.01 Determination of Lead in ChocolateAOAC 2016.01 Heavy Metals in Dietary SupplementsAOAC 984.27 Lead and Cadmium in Foods by Atomic AbsorptionAOAC 988.05 Lead and Cadmium in FoodsAOAC 999.10 Heavy Metals in Food by Atomic AbsorptionAOAC 999.11 Cadmium, Lead, and Arsenic in RiceAOAC 999.12 Arsenic and Lead in SeafoodASTM D1976 Heavy Metals in Drinking WaterASTM D3223 Total Metals in SedimentsASTM D3867 Determination of Lead in Soil and SedimentsASTM D4276 Heavy Metals Analysis in Water SamplesASTM D4647 Total Mercury in Sediment and SoilASTM D4773 Determination of Lead in Paint and DustASTM D5223 Determination of Heavy Metals in PaintsASTM D5712 Heavy Metals Analysis in WastewaterEN 12392 Determination of Lead in Drinking WaterEN 12457-4 Leaching of Heavy Metals from Waste MaterialsEN 13657 Heavy Metals in CosmeticsEN 14082 Heavy Metal Speciation in Water SamplesEN 14582 Heavy Metal Testing in WastewaterEN 15290 Heavy Metal Testing in SludgeEN 15290 Heavy Metals in Sewage SludgeEN 15762 Heavy Metal Testing in Animal FeedEN 15763 Analysis of Heavy Metals in Animal FeedEN 15763 Determination of Heavy Metals in FoodEN 15763 Determination of Trace Elements in FoodEN 15763 Heavy Metals in Feed and FoodEPA 200.7 ICP-AES for Trace MetalsEPA 200.8 Metals in Water and Wastewater by ICP-MSEPA 200.9 Metals by ICP-AESEPA 200.9 Metals by ICP-AESEPA 3050B Acid Digestion of SedimentsEPA 3051A Acid Digestion of Sediments and SoilsEPA 3052 Microwave Assisted Acid Digestion for MetalsEPA 6010C ICP-AES for Metals in Water and WasteEPA 6010D ICP-AES for Environmental AnalysisEPA 6020 ICP-MS for Metals in Soils and SedimentsEPA 6020B ICP-MS Method for Metals in Environmental SamplesEPA 7062 Chromium Hexavalent AnalysisEPA 7196A Colorimetric Determination of ChromiumEPA 7198 Determination of Chromium VIEPA 7199 Determination of Chromium by ColorimetryEPA 7421 Determination of Arsenic by Hydride GenerationEPA 7471A Mercury in Waste SolidsEPA 7471B Mercury in Solid or Semisolid WasteEPA 7473 Mercury in Solids and SolutionsEPA 7473 Mercury in Solids and SolutionsEPA Method 6020A Determination of Trace Metals by ICP-MSISO 11047 Soil Quality - Determination of Heavy MetalsISO 11885 Determination of Metals by ICP-OESISO 11885 ICP-OES for Metals in WaterISO 11885 Water Quality - ICP-OES Determination of MetalsISO 13196 Determination of Mercury in FoodISO 14869-1 Soil Quality - Extraction of MetalsISO 14869-2 Heavy Metals Extraction ProceduresISO 16179 Determination of Heavy Metals in SoilsISO 17025 Heavy Metal Testing in Food and BeveragesISO 17294 Determination of Metals by ICP-MSISO 17294-1 Water Quality - ICP-MS MethodsISO 17294-2 Water Quality - ICP-MS Determination of MetalsISO 18265 Determination of Lead, Cadmium, and MercuryISO 20236 Heavy Metal Speciation TechniquesISO 21424 Analysis of Heavy Metals in CosmeticsISO 22036 Heavy Metals Extraction from SoilsISO 22036 Soil Extraction of Heavy MetalsISO 22036 Soil Quality - Heavy Metals ExtractionISO 22039 Soil Quality - Heavy Metals in SoilsISO 22412 Determination of Mercury in FishISO 23317 Determination of Mercury in SeafoodISO 23317 Measurement of Mercury in Fish Tissue

ASTM D3644 Determination of Mercury in Soil Laboratory Testing Service Provided by Eurolab

Standard-Related Information

The determination of mercury in soil is a critical aspect of environmental monitoring and regulation. The American Society for Testing and Materials (ASTM) has established standard D3644, which outlines the requirements for testing soils for mercury content. This standard is widely recognized and adopted across various industries, including environmental consulting, construction, and manufacturing.

Relevant Standards

  • ASTM D3644: Standard Test Method for Determination of Mercury in Soil

  • ISO 17294-2:2006: Soils - Determination of the total mercury content - Part 2: Cold-vapour atomic absorption spectrometry (CV-AAS) method

  • EN 14803:2017: Soil quality - Determination of mercury and methylmercury in soil by means of extraction with a mixture of acetic acid, ammonium acetate and potassium iodide followed by cold vapour atomic absorption spectrometry (CVAAS)

  • TSE EN ISO 17294-2:2006: Toprakların Toplam Merkür İçeriğinin Belirlenmesi - Part 2: Soğuk Vapora Atomik Absorpsiyon Spektroskopisi (CV-AAS) Metodu

    • Legal and Regulatory Framework

    The determination of mercury in soil is governed by various regulations and laws at the international, national, and local levels. These include:

  • European Unions Thematic Strategy for Soil Protection

  • U.S. Environmental Protection Agency (EPA) guidelines for mercury contamination in soils

  • World Health Organization (WHO) recommendations for safe levels of mercury in soils

    • Standard Development Organizations

    Standard development organizations play a crucial role in establishing and maintaining standards for laboratory testing. Some notable organizations involved in the development of standards related to mercury determination include:

  • American Society for Testing and Materials (ASTM)

  • International Organization for Standardization (ISO)

  • European Committee for Standardization (CEN)

    • Evolution of Standards

    Standards for laboratory testing, including those for mercury determination, evolve over time as new technologies and methods emerge. This may result in updates to existing standards or the establishment of new ones.

    Standard Numbers and Scope

    Some relevant standard numbers and their scope are:

  • ASTM D3644: Standard Test Method for Determination of Mercury in Soil

    • Scope: This test method describes the procedure for determining mercury content in soils using cold-vapour atomic absorption spectrometry (CV-AAS).

  • ISO 17294-2:2006: Soils - Determination of the total mercury content - Part 2: Cold-vapour atomic absorption spectrometry (CV-AAS) method

    • Scope: This part of ISO 17294 specifies a method for determining the total mercury content in soils using CV-AAS.

    Standard Compliance Requirements

    Compliance with relevant standards is essential for laboratory testing, including mercury determination. Some key requirements include:

  • Accuracy and precision of results

  • Validity and reliability of methods used

  • Adherence to established quality control procedures

    • Standard-Related Information Conclusion

    In conclusion, the determination of mercury in soil is governed by various international, national, and local regulations. The relevant standards for this testing service are outlined above, including ASTM D3644, ISO 17294-2:2006, EN 14803:2017, and TSE EN ISO 17294-2:2006.

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    Standard Requirements and Needs

    The determination of mercury in soil is a critical aspect of environmental monitoring and regulation. Some key reasons for conducting this test include:

  • Business and Technical Reasons: Mercury contamination can have significant economic and technical implications for industries, including construction, manufacturing, and environmental consulting.

  • Consequences of Not Performing the Test: Failure to determine mercury content in soils can result in non-compliance with regulations, damage to reputation, and potential health risks.

  • Industries and Sectors Requiring This Testing: Environmental consulting, construction, manufacturing, mining, and waste management are some industries that require this testing.

    • Quality Assurance and Quality Control Aspects

    The determination of mercury in soil requires strict quality assurance and control measures to ensure accurate results. Some key aspects include:

  • Sample Preparation Procedures: Accurate sample preparation is critical for reliable results.

  • Testing Parameters and Conditions: Optimal testing conditions, including temperature, humidity, and pressure, must be maintained.

  • Calibration and Validation Procedures: Regular calibration and validation of equipment are essential.

    • Standard Requirements and Needs Conclusion

    In conclusion, the determination of mercury in soil is a critical aspect of environmental monitoring and regulation. This test is required by various industries to ensure compliance with regulations and protect public health.

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    Test Conditions and Methodology

    The determination of mercury in soil involves several steps, including sample preparation, testing, and analysis. Some key aspects include:

  • Testing Equipment and Instruments: The use of cold-vapour atomic absorption spectrometry (CV-AAS) or other suitable methods is specified.

  • Sample Preparation Procedures: Accurate sample preparation is critical for reliable results.

  • Calibration and Validation Procedures: Regular calibration and validation of equipment are essential.

    • Test Conditions and Methodology Conclusion

    In conclusion, the determination of mercury in soil requires strict adherence to established protocols and procedures. The use of cold-vapour atomic absorption spectrometry (CV-AAS) or other suitable methods is specified.

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    Conclusion

    The determination of mercury in soil is a critical aspect of environmental monitoring and regulation. Eurolab provides laboratory testing services for mercury content in soils, adhering to established standards and protocols. Our experienced team ensures accurate results through strict quality assurance and control measures.

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    About Eurolab

    Eurolab is a leading provider of laboratory testing services for environmental monitoring and regulation. Our experienced team specializes in mercury determination and other analytical services. We adhere to established standards and protocols to ensure accurate results.

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