Jingle bells, what are those smells? Indoor VOC emissions from a live Christmas tree

Indoor Environments Pub Date : 2023-12-22 DOI:10.1016/j.indenv.2023.100002

Dustin Poppendieck, Rileigh Robertson, Michael F. Link

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Abstract

Every year in the United States conifers are purchased to serve as Christmas trees in homes where they emit volatile organic compounds (VOCs) to the indoor environment. Although many studies have measured the ecosystem-level emissions of VOCs from conifers outdoors (characterizing monoterpene, isoprene, and aldehyde emissions), little is known about VOC emission rates once a conifer is brought indoors. Using a proton transfer reaction-mass spectrometer we characterized the VOCs emitted from a freshly cut Douglas Fir for 17 days in an environmentally controlled chamber. Ozone injections were also performed to analyze indoor chemistry that may occur. Introduction of the tree into the chamber increased the response of 52 mass spectra signals detected by the PTR-MS by at least 500 counts per second (cps) compared to background levels, with concentrations sharply decreasing after the first two days. Monoterpenes were emitted from the tree at a rate of 12.4 mg h⁻¹ the first day and fell to 1 mg h⁻¹ by day three. Overall, monoterpene emissions from this Douglas fir were initially comparable to other strong indoor monoterpene sources (fragranced products and air fresheners) but decayed quickly and, within days, were smaller than other common indoor sources. Addition of ozone to the chamber resulted in decreased monoterpene concentrations that coincided with modest increases in formaldehyde. Four other emitted VOCs were tentatively identified due to their large increase within the first few hours of the tree placed in the chamber, behavior during ozonation, or pattern of accumulation over time.

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铃儿响叮当，那是什么味道？活圣诞树的室内挥发性有机化合物排放量

在美国，人们每年都会购买针叶树作为家中的圣诞树，它们会向室内环境排放挥发性有机化合物（VOC）。尽管许多研究已经测量了针叶树在室外的生态系统级挥发性有机化合物排放（表征单萜、异戊二烯和醛的排放），但人们对针叶树进入室内后的挥发性有机化合物排放率知之甚少。利用质子转移反应质谱仪，我们在环境控制室中对新砍伐的花旗松进行了 17 天的挥发性有机化合物排放鉴定。同时还进行了臭氧注射，以分析可能发生的室内化学反应。与背景水平相比，将花旗松引入室内会使 PTR-MS 检测到的 52 个质谱信号的响应增加至少 500 计数/秒（cps），浓度在头两天后急剧下降。第一天，树木释放单萜的速度为 12.4 毫克/小时-1，第三天下降到 1 毫克/小时-1。总的来说，这种花旗松的单萜烯排放量最初与其他强烈的室内单萜烯来源（芳香产品和空气清新剂）相当，但很快就会衰减，而且在几天内就小于其他常见的室内来源。在试验室中加入臭氧会导致单萜浓度下降，同时甲醛浓度也会适度上升。其他四种排放的挥发性有机化合物由于其在树木放入试验室的最初几小时内的大幅增加、臭氧作用期间的表现或随着时间推移的累积模式而被初步确定。

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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Indoor Environments

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