PMID- 38093543
OWN - NLM
STAT- PubMed-not-MEDLINE
LR  - 20231216
IS  - 1872-2059 (Electronic)
IS  - 1000-8713 (Print)
IS  - 1000-8713 (Linking)
VI  - 41
IP  - 12
DP  - 2023 Dec
TI  - [Determination of 14 aniline and benzidine compounds in soil by gas 
      chromatography-mass spectrometry].
PG  - 1127-1134
LID - 10.3724/SP.J.1123.2023.01002 [doi]
AB  - The complex matrix of soil samples and low extraction efficiency of aniline 
      compounds limit many methods developed for detecting aniline and benzidine 
      compounds in soil. In this study, a rapid and sensitive method based on gas 
      chromatography-mass spectrometry was developed for the simultaneous determination 
      of 14 aniline and benzidine compounds in soil. The collected soil samples were 
      sealed with 5% sodium sulfite solution and refrigerated to inhibit the oxidation 
      of the target compounds for up to 7 d. The extraction efficiencies of accelerated 
      solvent extraction and oscillating dispersion extraction were compared, and the 
      recovery of accelerated solvent extraction was found to be unsuitable. Hence, 
      three-phase oscillating dispersion extraction was adopted. A certain amount of 
      alkaline aqueous solution was added to the test system during extraction to 
      improve the extraction efficiency because aniline and benzidine compounds are 
      weakly alkaline substances. When the pH of the extracted water phase was greater 
      than 12, relatively good recoveries were obtained. Next, a mixed solvent of ethyl 
      acetate-methylene chloride (1ratio4, v/v) was added to extract the target compounds 
      via oscillation for 20 min. The solid phase was discarded via centrifugation, and 
      the aqueous and organic phases were transferred to a liquid separation funnel for 
      further separation. Finally, the organic phase was retained. This pretreatment 
      process prevents the co-extraction of acidic compounds or other impurities, 
      thereby enhancing the purification ability of the method. Solid phase extraction 
      (SPE) is generally recommended for soil extraction and purification. A 
      preliminary test showed that compared with other columns, the Florisil SPE column 
      could better retain the target substances and exhibited higher elution 
      efficiency. After purification, the organic phase was concentrated to 1 mL using 
      a nitrogen blower. The analytes were analyzed by gas chromatography-mass 
      spectrometry using a capillary column (DB-35MS, 30 mx0.25 mmx0.25 mum). The 
      temperature program was optimized to separate the target compounds at the 
      baseline. Specifically, the initial oven temperature was set to 60 ℃, held for 2 
      min, increased to 130 ℃ at a rate of 5 ℃/min, increased to 300 ℃ at a rate of 30 
      ℃/min, and held for 4 min. The injector and ion source temperatures were 250 and 
      300 ℃, respectively. Aniline-d(5) and acenaphthene-d(10) were used as the 
      internal standards for quantification. The effects of antioxidant addition, 
      extraction solvent type, salting out, and other factors on extraction efficiency 
      were investigated. The results showed that the method performed well under the 
      optimized experimental conditions when actual soils were used as real sample 
      matrices. The accuracy and precision of the proposed method were verified. A 
      total of 14 aniline and benzidine compounds demonstrated good linearities in the 
      range of 0.5-100 mg/L. The method detection limits (MDLs) ranged from 0.02 to 
      0.07 mg/kg, and the limits of quantification (LOQs) ranged from 0.08 to 0.28 
      mg/kg. The target compounds were spiked at contents of 1 and 10 mg/kg. The spiked 
      recoveries of the 14 targets in actual soils were 62.9%-101%, and the relative 
      standard deviations (RSDs) of six precision tests were 3.8%-10.3%. The proposed 
      method effectively inhibited the oxidation of aniline and benzidine compounds 
      during extraction, and the target compounds exhibited high recoveries and good 
      stabilities in the presence of three phases. Moreover, the operating procedure 
      was simple and easy to implement. The proposed method was applied to the soil 
      collected from an industrial enterprise in Jiangsu province that was suspected to 
      be contaminated with aniline, and two aniline compounds were detected. The 
      developed method requires a small sample size, and the preservation step is 
      simple and effective. In addition, it can be applied to various types of actual 
      soils. The method meets the requirements of current soil pollution risk control 
      standards for aniline and benzidine compounds in soils.
FAU - Wu, Lijuan
AU  - Wu L
AD  - Nanjing Environmental Monitoring Centre, Nanjing 210041, China.
FAU - Yang, Lili
AU  - Yang L
AD  - Jiangsu Environmental Monitoring, Nanjing 210041, China.
FAU - Hu, Enyu
AU  - Hu E
AD  - Nanjing Environmental Monitoring Centre, Nanjing 210041, China.
FAU - Wang, Meifei
AU  - Wang M
AD  - Nanjing Environmental Monitoring Centre, Nanjing 210041, China.
FAU - Yang, Chao
AU  - Yang C
AD  - Nanjing Environmental Monitoring Centre, Nanjing 210041, China.
FAU - Yin, Mingming
AU  - Yin M
AD  - Nanjing Environmental Monitoring Centre, Nanjing 210041, China.
LA  - chi
PT  - English Abstract
PT  - Journal Article
PL  - China
TA  - Se Pu
JT  - Se pu = Chinese journal of chromatography
JID - 9424804
SB  - IM
PMC - PMC10719804
OTO - NOTNLM
OT  - aniline compounds
OT  - benzidine compounds
OT  - gas chromatography-mass spectrometry
OT  - soil
EDAT- 2023/12/14 06:42
MHDA- 2023/12/14 06:43
PMCR- 2023/12/08
CRDT- 2023/12/14 02:05
PHST- 2023/12/14 06:43 [medline]
PHST- 2023/12/14 06:42 [pubmed]
PHST- 2023/12/14 02:05 [entrez]
PHST- 2023/12/08 00:00 [pmc-release]
AID - 10.3724/SP.J.1123.2023.01002 [doi]
PST - ppublish
SO  - Se Pu. 2023 Dec;41(12):1127-1134. doi: 10.3724/SP.J.1123.2023.01002.