Forensic Sciences Research (Mar 2021)

Forensic profiling of non-volatile organic compounds in soil using ultra-performance liquid chromatography: a pilot study

  • Loong Chuen Lee,
  • Ab Aziz Ishak,
  • Ameeta A/P Nai Eyan,
  • Anas Fahmi Zakaria,
  • Nurul Syahiera Kharudin,
  • Nor Azman Mohd Noor

DOI
https://doi.org/10.1080/20961790.2021.1899407
Journal volume & issue
Vol. 0, no. 0
pp. 1 – 13

Abstract

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Soil is of particular interest to the forensic community because it can be used as valuable associative evidence to link a suspect to a victim or a crime scene. Liquid chromatography is a powerful analytical tool for organic compound analysis. Recently, high-performance liquid chromatography (HPLC) has proven to be an efficient method for forensic soil analysis, especially in discriminating soils from proximity locations. However, ultra-performance liquid chromatography (UPLC), which is much more sensitive than HPLC, has never been explored in this context. This study proposed a UPLC method for profiling non-volatile organic compounds in three Malaysian soils (red, brown and yellowish-brown soils). The three soils were analysed separately to assess the effects of individual chromatographic parameters: (a) elution programme (isocratic vs. two gradient programmes); (b) flow rate (0.1 vs. 0.2 mL/min); (c) extraction solvent (acetonitrile vs. methanol) and (d) detection wavelength (230 vs. 254 nm). The injection volume and total run time were set to 5 µL and 35 min, respectively. Consequently, each soil sample gave 24 different chromatograms. Results showed that the most desirable chromatographic parameters were (a) isocratic elution; (b) flow rate at 0.2 mL/min and (c) acetonitrile extraction solvent. The proposed UPLC system is expected to be a feasible method for profiling non-volatile organic compounds in soil, and is more chemical-efficient than a comparable HPLC system. Supplemental data for this article are available online at. Key points UPLC is a chemical-efficient analytical method for profiling non-volatile organic compounds in soil. Mobile phase rich in acetonitrile promotes separation of non-volatile organic compounds in soil. Isocratic elution is more desirable than gradient elution in producing a high-quality chromatogram.

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