Molecular composition and the impact of fuel moisture content on fresh primary organic aerosol emissions during laboratory combustion of Ponderosa pine needles.

IF 2 4区 环境科学与生态学 Q3 CHEMISTRY, ANALYTICAL
Mohammed Jaoui, Shawn P Urbanski, Russell W Long, Matthew S Landis
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引用次数: 0

Abstract

Pine needles represent an important fuel source in coniferous forest systems in the western United States. During forest fires, they can be easily ignited and help sustain flame on the ground. In this study, a comprehensive chemical analysis was conducted to examine oxygenated organic compounds (OOCs) present in PM2.5 formed from burning dry and moist ponderosa pine needles (PPN) in the presence and absence of fine woody debris (FWD). The effect of fuel moisture content (FMC), a key parameter that influence smoke formation, has not received much attention. Therefore, we also investigated the effect of FMC on PM2.5 formation and its composition. Thirty three experiments were conducted at the US Forest Service Fire Science Laboratory. PM2.5 was collected onto 47 mm Teflon filters, and silylated extracts were analyzed by gas chromatography-mass spectrometry. More than fifty OOCs were identified, including levoglucosan and mannosan; n-dodecanoic acid and n-hexadecanoic acid; dihydroabietic acid, and dehydroabietic acid; and a series of intermediate volatile and semivolatile organic compounds. Mass spectra of a wide variety of compounds in electron and chemical ionization mode are provided. Most of these OOCs were identified in this study for the first time in PPN aerosol, although some were previously reported in pine wood and other biomass burning aerosol. Our results show significant changes in the composition and abundance of particles depending on the amount and type of PPN burned. When compared with dry PPN condition, moist PPN showed decreased emissions of PM2.5 and OOCs, due likely to the presence of water in the system that partially suppressed the production of OOCs. Incorporating pine needles in atmospheric models as a contributor to smoke particles generated during forest fires is an essential step towards reducing the current uncertainties regarding the influence of these aerosols on chemical/air mass characteristics, regional meteorology, and the climate.

松针在实验室燃烧过程中的分子组成以及燃料水分含量对新鲜初级有机气溶胶排放的影响。
松针是美国西部针叶林系统的重要燃料来源。在森林火灾中,松针很容易被点燃,并有助于维持地面上的火焰。在这项研究中,我们进行了一项全面的化学分析,以研究在有和没有细木屑(FWD)的情况下,燃烧干燥和潮湿的松针(PPN)所形成的 PM2.5 中存在的含氧有机化合物(OOCs)。燃料含水量(FMC)是影响烟雾形成的一个关键参数,但它的影响并没有得到广泛关注。因此,我们也研究了 FMC 对 PM2.5 的形成及其成分的影响。我们在美国林务局火灾科学实验室进行了 33 次实验。通过 47 毫米特氟龙过滤器收集 PM2.5,并通过气相色谱-质谱法分析硅烷化提取物。确定了 50 多种 OOC,包括左旋葡聚糖和甘露聚糖;正十二酸和正十六酸;二氢松香酸和脱氢松香酸;以及一系列中间挥发性和半挥发性有机化合物。提供了多种化合物在电子和化学电离模式下的质谱图。本研究首次在 PPN 气溶胶中发现了其中的大多数 OOCs,尽管有些 OOCs 以前曾在松木和其他生物质燃烧气溶胶中出现过。我们的研究结果表明,颗粒的组成和丰度随燃烧 PPN 的数量和类型而发生了显著变化。与干燥的 PPN 条件相比,潮湿的 PPN 显示 PM2.5 和 OOC 排放量减少,这可能是因为系统中存在水分,部分抑制了 OOC 的产生。将松针作为森林火灾期间产生的烟雾颗粒的贡献者纳入大气模型,是减少目前这些气溶胶对化学/空气质量特征、区域气象学和气候影响的不确定性的重要一步。
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来源期刊
Environmental Chemistry
Environmental Chemistry 环境科学-分析化学
CiteScore
4.50
自引率
0.00%
发文量
0
审稿时长
2.7 months
期刊介绍: Environmental Chemistry publishes manuscripts addressing the chemistry of the environment (air, water, earth, and biota), including the behaviour and impacts of contaminants and other anthropogenic disturbances. The scope encompasses atmospheric chemistry, geochemistry and biogeochemistry, climate change, marine and freshwater chemistry, polar chemistry, fire chemistry, soil and sediment chemistry, and chemical aspects of ecotoxicology. Papers that take an interdisciplinary approach, while advancing our understanding of the linkages between chemistry and physical or biological processes, are particularly encouraged. While focusing on the publication of important original research and timely reviews, the journal also publishes essays and opinion pieces on issues of importance to environmental scientists, such as policy and funding. Papers should be written in a style that is accessible to those outside the field, as the readership will include - in addition to chemists - biologists, toxicologists, soil scientists, and workers from government and industrial institutions. All manuscripts are rigorously peer-reviewed and professionally copy-edited. Environmental Chemistry is published with the endorsement of the Commonwealth Scientific and Industrial Research Organisation (CSIRO) and the Australian Academy of Science.
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