Volatile and particulate organic compounds in the ambient air of a eucalyptus forest in Portugal during the FIELDVOC'94 campaign

C.A. Pio, T.V. Nunes, L.M. Castro, D.A. Lopes
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引用次数: 10

Abstract

During the FIELDVOC campaign in a eucalyptus forest in Portugal the distributions of monoterpenes compounds and particulate carbon were measured in the ambient air above the forest. Monoterpenes compounds in the eucalyptus forest atmosphere consisted mainly of β-pinene, α-pinene, 1,8-cineol, limonene and trans-ocimene.

For several monoterpenes, such as β-pinene and α-pinene, atmospheric levels were higher at night than during the day. This was partially attributed to a decrease in atmospheric turbulence and transport of emissions from nearby pine forests during the night by the low intensity of easterly winds. β-Pinene, which is emitted by pine trees but not in any noticeable amount by eucalyptus, was used as a tracer.

Particulate carbon was measured as organic carbon and black carbon (BC). The measurement of particulate carbon levels was also done during the FIELDVOC'94 campaign at a coastal site, where clean air masses arriving from the Atlantic were sampled. The concentrations of atmospheric particulate carbon were higher in the forest than along the coast. Based upon a mass balance, it was possible to estimate an upper limit to the inclusion of biogenic volatile organic emissions into the organic aerosol component when air masses were transported from the coast inland during sea breezes. A value of as much as 40% of the particulate organic carbon (POC) can be attributed to emissions from vegetation of compounds such as monoterpenes which, after oxidation to less volatile products, are transferred to the particulate phase.

在田野voc '94运动期间,葡萄牙桉树林环境空气中的挥发性和颗粒性有机化合物
在葡萄牙一处桉树林的田野voc活动中,测量了森林上方环境空气中单萜化合物和颗粒碳的分布。桉树林大气中单萜化合物主要为β-蒎烯、α-蒎烯、1,8-桉叶油醇、柠檬烯和反式辛烯。大气中β-蒎烯、α-蒎烯等单萜烯含量夜间高于白天。部分原因是由于夜间低强度的东风减少了大气湍流和附近松林的排放物运输。β-蒎烯是松树释放的,桉树释放的β-蒎烯量不明显。颗粒碳测量为有机碳和黑碳(BC)。在FIELDVOC'94运动期间,还在一个沿海地点进行了颗粒碳水平的测量,在那里采样了来自大西洋的清洁空气团。森林中的大气颗粒碳浓度高于沿海地区。在质量平衡的基础上,可以估计在海风期间从海岸向内陆输送气团时,生物源性挥发性有机排放物包含在有机气溶胶成分中的上限。高达40%的颗粒有机碳(POC)可归因于植物排放的化合物,如单萜烯,这些化合物在氧化成挥发性较低的产物后转移到颗粒相。
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