Robinson Marin S, Chavez Jesus, Velazquez Sergio, Jayanty R K M
Department of Chemistry & Biochemistry, Northern Arizona University, Flagstaff, Arizona 86011-5698, USA.
J Air Waste Manag Assoc. 2004 Sep;54(9):1112-23. doi: 10.1080/10473289.2004.10470985.
The use of prescribed fire is expected to increase in an effort to reduce the risk of catastrophic fire, particularly at urban/forest interfaces. Fire is a well-known source of particulate matter (PM) with particle sizes < or =2.5 microm (PM2.5), small diameter PM known to affect climate, visibility, and human health. In this work, PM2.5 was collected during seven first-entry burns (flaming and smoldering stages) and one maintenance burn of the Coconino National Forest. Samples were analyzed for organic and elemental carbon, cations (sodium, potassium [K+], and ammonium [NH4+]), anions (nitrate [NO3-] and sulfate), and 48 elements (with atomic weights between sodium and lead). The PM2.5 contained high organic carbon levels (typically >90% by mass), commonly observed ions (K+, NH4+, and NO3-) and elements (K+, chlorine, sulfur, and silicon), as well as titanium and chromium. Flaming produced higher K+ and NH4+ levels than smoldering, and the elemental signature was more complex (20 versus 7 elements). Average organic carbon x 1.4 mass fractions (+/-standard deviation) were lower during flaming (92+/-14%) than during smoldering (124+/-24%). The maintenance (grassland) burn produced lower particle concentrations, lower NH4+ and NO3- levels, and higher K and chlorine levels than did the first-entry fires.
为降低灾难性火灾风险,特别是在城市/森林交界处,预计规定用火的使用将会增加。火是众所周知的粒径小于或等于2.5微米的颗粒物(PM2.5)的来源,小粒径的颗粒物会影响气候、能见度和人类健康。在这项研究中,在科科尼诺国家森林的七次首次燃烧(明火和阴燃阶段)以及一次维持燃烧期间收集了PM2.5。对样品进行了有机碳和元素碳、阳离子(钠、钾[K+]和铵[NH4+])、阴离子(硝酸盐[NO3-]和硫酸盐)以及48种元素(原子量在钠和铅之间)的分析。PM2.5含有高含量的有机碳(通常质量分数>90%)、常见离子(K+、NH4+和NO3-)和元素(K+、氯、硫和硅),以及钛和铬。明火阶段产生的K+和NH4+水平高于阴燃阶段,且元素特征更为复杂(分别为20种和7种元素)。明火阶段的平均有机碳×1.4质量分数(±标准差)低于阴燃阶段(92±14%对124±24%)。与首次燃烧相比,维持(草地)燃烧产生的颗粒物浓度更低、NH4+和NO3-水平更低,而钾和氯水平更高。
