The research on the molecular spectroscopic recognition mechanism of microplastics in typical agricultural media

IF 2.7 3区 化学 Q2 CHEMISTRY, ANALYTICAL
Xiaodong Xu, Qianya Liu, Huimin Zhang, Lujia Han, Xian Liu
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引用次数: 0

Abstract

To study the identification mechanism of microplastics in agricultural environmental media by molecular spectroscopy, two typical media, soil and fishmeal, were selected for this study. Three common microplastics, PE, PP, and PS, were used as research objects. Near-infrared (NIR) and mid-infrared (MIR) spectroscopy combined with chemometric methods were used to explore microplastics' identification and analysis effects in different agricultural media and reveal their identification mechanisms. PCA analysis revealed that different soil types would affect the identification results of microplastics. PLS-DA discriminant analysis showed that the accuracy of NIR spectroscopy technology in identifying microplastics in different types of soil decreased in the order of sand > loam > clay. In contrast, the rule of MIR spectroscopy technology was the opposite. The sensitivity and specificity of the three microplastics in the NIR model of sand and the infrared spectroscopy model of fishmeal reached 1.000. NIR spectroscopy technology is suitable for identifying microplastics in soil, while infrared spectroscopy technology is more suitable for identifying microplastics in fish meal. Furthermore, based on the VIP values of each wavelength point in the spectrum, the characteristic bands that have essential contributions to identifying microplastics in soil were screened out. The NIR spectra of 4500–4300 cm1, 4300–3900 cm1 and 7100–5800 cm1 are the most essential characteristic bands for identifying microplastics in clay, loam, and sand, respectively. The MIR of 3000–2900 cm1 and 700–650 cm1 were the most essential characteristic bands for identifying microplastics in soils, and the overlap of the characteristic spectra of the three soils reached 59.45%. The NIR spectra of 6050–5600 cm1, 4700–4000 cm1 and the MIR spectra of 2300–1900 cm1 and 800–400 cm1 are the most essential characteristic bands for the identifying microplastics in fishmeal. This study provides a more suitable technical "solution" for identifying microplastics in environmental media, which is of great significance for improving the accuracy of molecular spectroscopic identification in environmental media and clarifying the interaction between microplastics and environmental media.

典型农业介质中微塑料分子光谱识别机理的研究
为研究微塑料在农业环境介质中的分子光谱识别机理,选取土壤和鱼粉两种典型介质进行了研究。以PE、PP、PS三种常见微塑料为研究对象。采用近红外(NIR)和中红外(MIR)光谱结合化学计量学方法,探讨微塑料在不同农业介质中的识别分析效果,揭示其识别机理。PCA分析表明,不同土壤类型会影响微塑料的鉴定结果。PLS-DA判别分析表明,近红外光谱技术在不同类型土壤中鉴定微塑料的准确度依次为砂和砂;壤土祝辞粘土。相比之下,MIR光谱技术的规律正好相反。三种微塑料在砂的近红外模型和鱼粉的红外光谱模型中的灵敏度和特异度均达到1.000。近红外光谱技术适用于鉴定土壤中的微塑料,而红外光谱技术更适用于鉴定鱼粉中的微塑料。此外,基于光谱中各波长点的VIP值,筛选出对土壤中微塑料识别有重要贡献的特征波段。4500 ~ 4300 cm−1、4300 ~ 3900 cm−1和7100 ~ 5800 cm−1的近红外光谱分别是识别粘土、壤土和砂土中微塑料最基本的特征波段。3000 ~ 2900 cm−1和700 ~ 650 cm−1的MIR是识别土壤中微塑料最基本的特征波段,3种土壤的特征光谱重叠度达到59.45%。6050 ~ 5600 cm−1、4700 ~ 4000 cm−1的近红外光谱和2300 ~ 1900 cm−1、800 ~ 400 cm−1的MIR光谱是识别鱼粉中微塑料最重要的特征波段。本研究为环境介质中微塑料的鉴定提供了更合适的技术“解决方案”,对于提高环境介质中分子光谱鉴定的准确性,阐明微塑料与环境介质之间的相互作用具有重要意义。
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来源期刊
Vibrational Spectroscopy
Vibrational Spectroscopy 化学-分析化学
CiteScore
4.70
自引率
4.00%
发文量
103
审稿时长
52 days
期刊介绍: Vibrational Spectroscopy provides a vehicle for the publication of original research that focuses on vibrational spectroscopy. This covers infrared, near-infrared and Raman spectroscopies and publishes papers dealing with developments in applications, theory, techniques and instrumentation. The topics covered by the journal include: Sampling techniques, Vibrational spectroscopy coupled with separation techniques, Instrumentation (Fourier transform, conventional and laser based), Data manipulation, Spectra-structure correlation and group frequencies. The application areas covered include: Analytical chemistry, Bio-organic and bio-inorganic chemistry, Organic chemistry, Inorganic chemistry, Catalysis, Environmental science, Industrial chemistry, Materials science, Physical chemistry, Polymer science, Process control, Specialized problem solving.
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