Laboratory evaluation of the scattering matrix of ragweed, ash, birch and pine pollens towards pollen classification

Atmospheric Measurement Techniques Discussions Pub Date : 2021-09-21 DOI:10.5194/amt-2021-272

D. Cholleton, E. Bialic, A. Dumas, P. Kaluzny, P. Rairoux, A. Miffre

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引用次数: 2

Abstract

Abstract. Pollens are nowadays recognized as one of the main atmospheric particles affecting public human health as well as the Earth's climate. In this context, an important issue concerns our ability to detect and differentiate among the existing pollen taxa. In this paper, the potential differences that may exist in light scattering by four of the most common pollen taxa, namely ragweed, birch, pine and ash, are analysed in the framework of the scattering matrix formalism at two wavelengths simultaneously (532 and 1064 nm). Interestingly, our laboratory experimental error bars are precise enough to show that these four pollens, when embedded in ambient air, exhibit different spectral and polarimetric light scattering characteristics, in the form of ten scattering matrix elements (five per wavelength), which allow identifying each separately. To end with, a simpler light scattering criterion is proposed for classifying among the four considered pollens by performing a principal component (PC) analysis, that still accounts for more than 99 % of the observed variance. We thus believe this work may open new insights for future atmospheric pollen detection.

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豚草、白蜡树、桦树和松树花粉散射矩阵对花粉分类的实验室评价

摘要如今，花粉被认为是影响公众健康和地球气候的主要大气颗粒之一。在这种情况下，一个重要的问题是我们检测和区分现有花粉分类群的能力。本文在532 nm和1064 nm两个波长同时散射矩阵的框架下，分析了豚草、桦树、松树和白蜡树4种最常见的花粉类群在光散射中可能存在的电位差异。有趣的是，我们实验室的实验误差条足够精确，可以显示这四种花粉，当嵌入环境空气中时，表现出不同的光谱和偏振光散射特性，以10个散射矩阵元素的形式(每个波长5个)，可以单独识别每种花粉。最后，提出了一种更简单的光散射标准，通过主成分(PC)分析来对四种考虑的花粉进行分类，该标准仍然占观察方差的99%以上。因此，我们相信这项工作可能为未来的大气花粉检测开辟新的见解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Atmospheric Measurement Techniques Discussions

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