Measurement of Total Carbon in Soil and Compost by TOC Solid Sample Measurement System
Applications | 2020 | ShimadzuInstrumentation
Measurement of total organic carbon in soil and compost provides a key index of soil fertility and crop productivity by quantifying the organic matter that supports plant growth and soil health.
This study demonstrates the quantification of total carbon content in two soil types and one compost sample using the Shimadzu TOC solid sample measurement system. The primary aim was to simplify analysis by eliminating extraction and other time-consuming pretreatment steps.
All measurements demonstrated high repeatability (CV ≤ 3%), underscoring the method’s robustness and the clear compositional differences among samples.
Future developments may include automated sample handling integration, extension to other solid matrices (e.g., sediments, biochars), and coupling with multi-element detection systems to provide comprehensive soil diagnostics.
The Shimadzu TOC solid sample measurement system enables efficient and accurate determination of total carbon in soils and compost without complex pretreatment, offering a valuable tool for enhancing agricultural productivity and soil quality management.
TOC
IndustriesEnvironmental
ManufacturerShimadzu
Summary
Importance of the Topic
Measurement of total organic carbon in soil and compost provides a key index of soil fertility and crop productivity by quantifying the organic matter that supports plant growth and soil health.
Objectives and Study Overview
This study demonstrates the quantification of total carbon content in two soil types and one compost sample using the Shimadzu TOC solid sample measurement system. The primary aim was to simplify analysis by eliminating extraction and other time-consuming pretreatment steps.
Methodology and Instrumentation
- The Shimadzu TOC-L analyzer coupled with the SSM-5000A solid sample combustion unit was used to combust approximately 100 mg of sample at 900 °C.
- Oxygen carrier gas at 500 mL/min supported catalytic oxidation in a short cell configuration.
- Calibration was performed with a one-point glucose powder standard (40% carbon) to establish a linear response.
- Samples included Soil A (farm field), Soil B (commercial blend), and commercial compost.
Main Results and Discussion
- Soil A exhibited 2.54% total carbon (coefficient of variation 0.99%).
- Soil B reached 12.43% total carbon (CV 2.38%), reflecting fertilizer blending.
- Compost showed the highest carbon content at 31.86% (CV 1.31%) due to microbial decomposition of organic matter.
All measurements demonstrated high repeatability (CV ≤ 3%), underscoring the method’s robustness and the clear compositional differences among samples.
Benefits and Practical Applications
- Rapid, extraction-free analysis accelerates evaluation of soil and compost quality.
- Quantitative TOC data supports agricultural quality control and informed crop management.
- Applicable in research laboratories, QA/QC environments, and industrial soil monitoring.
Future Trends and Potential Applications
Future developments may include automated sample handling integration, extension to other solid matrices (e.g., sediments, biochars), and coupling with multi-element detection systems to provide comprehensive soil diagnostics.
Conclusion
The Shimadzu TOC solid sample measurement system enables efficient and accurate determination of total carbon in soils and compost without complex pretreatment, offering a valuable tool for enhancing agricultural productivity and soil quality management.
Used Instrumentation
- Shimadzu TOC-L total organic carbon analyzer
- SSM-5000A solid sample combustion unit
Content was automatically generated from an orignal PDF document using AI and may contain inaccuracies.
Similar PDF
Analysis of TOC and TN in Fertilizers
2020|Shimadzu|Applications
Application News Total Organic Carbon Analysis Analysis of TOC and TN in Fertilizers No. O80 Analysis Method Two types of commercial liquid fertilizers (A, B) and one type of compost were prepared for this experiment (Fig. 2). The liquid…
Key words
compost, composttoc, tocfertilizers, fertilizersfertilizer, fertilizermgn, mgnliquid, liquidmgc, mgcdilution, dilutionmeasurement, measurementtotal, totalnitrogen, nitrogencarbon, carbonratio, ratiobiphthalate, biphthalatemass
Total Organic Carbon in Soil: A Comparison between Solid Sample Combustion and Suspension Methods
2022|Shimadzu|Applications
Total Organic Carbon Analyzer TOC-LCPH and SSM-5000A Application News Total Organic Carbon in Soil: A Comparison between Solid Sample Combustion and Suspension Methods Ai Ming Chua, Zhen Hao Lee, Qi An Tan, User Benefits ◆ High Suspension Kit to improve…
Key words
ssc, ssctoc, tocsuspension, suspensionsoil, soilsolid, solidagromat, agromatsuspended, suspendedkit, kitcompost, compostsolids, solidscombustion, combustionmeasure, measuresediments, sedimentscontent, contentalgae
Carbon Measurement of Oil Shale
2018|Shimadzu|Applications
LAAN-A-TC-E046 Application News Total Organic Carbon Analysis Carbon Measurement of Oil Shale No. O71 Sample Preparation Because natural gas has accumulated in the crevices in the sedimentary rock called oil shale, there is a possibility of explosion due to…
Key words
shale, shaletoc, toccarbon, carbonmeasurement, measurementtotal, totalcontent, contentsolid, solidboat, boatsample, sampleorganic, organicoil, oilmatter, mattercombustion, combustioncrevices, crevicescurve
Quality Evaluation of Medical Devices Using TOC Solid Sample Measurement System
2018|Shimadzu|Applications
LAAN-A-TC-E045 Application News No. O70 Total Organic Carbon Analysis Quality Evaluation of Medical Devices Using TOC Solid Sample Measurement System Many medical devices such as bone connecting materials, artificial joints, and spinal fixations devices have been developed to respond to…
Key words
toc, tocmedical, medicalsolid, solidcombustion, combustiontotal, totalcarbon, carbondevices, devicessample, samplemeasurement, measurementanalyzer, analyzerorganic, organicdevice, devicematter, matterglucose, glucoseμgc
