Abstract
An investigation into the diurnal characteristics of vertical formaldehyde (HCHO) profiles was conducted based on multi-axis differential optical absorption spectroscopy (MAX-DOAS) measurements in Beijing during the CAREBEIJING campaign, covering a month-long period through August and September 2006. Vertical HCHO profiles were retrieved based on a combined differential optical absorption spectroscopy (DOAS) technique and an optimal estimation method (OEM). The HCHO volume-mixing ratio (VMR) was found to be highest in the layer from the surface up to an altitude of 1 km and to decrease with altitude above this layer. In all retrieved profiles, HCHO was not detected in the layer from 3–4 km. Over the diurnal cycle, the HCHO VMR values were generally highest at 15:00 local time (LT) and were lower in the morning and late afternoon. The mean HCHO VMRs were 6.17, 1.82, and 0.80 ppbv for the 0–1, 1–2, and 2–3-km layers, respectively, at 15:00 LT, whereas they were 3.54 (4.79), 1.06 (1.43), and 0.46 (0.63) ppbv for the 0–1, 1–2, and 2–3-km layers, respectively, at 09:00 (17:00) LT. The HCHO VMRs reached their highest values at 15:00 LT on August 19, which were 17.71, 5.20, and 2.31 ppbv for the 0–1, 1–2, and 2–3-km layers, respectively. This diurnal pattern implies that the photo-oxidation of volatile organic compounds (VOCs) was most active at 15:00 LT for several days during the campaign period. In a comparison of the derived HCHO VCDs with those obtained from the Ozone Monitoring Instrument (OMI) measurements, the HCHO vertical column density (VCD) values obtained from the OMI measurements tend to be smaller than those from the MAX-DOAS.
Highlights
Formaldehyde (HCHO) is known to have adverse health effects such as damage to oral fibroblasts and epithelial cells [1]
We investigated the diurnal characteristics of vertical HCHO profiles based on MAX-differential optical absorption spectroscopy (DOAS)
The highest HCHO volume-mixing ratio (VMR) was found at the 0–1-km layer at 15:00 local time (LT), implying that photo-oxidation of volatile organic compounds (VOCs) was most active near the surface at that time of day
Summary
Formaldehyde (HCHO) is known to have adverse health effects such as damage to oral fibroblasts and epithelial cells [1]. HÖnninger et al [20] introduced the multi-axis differential optical absorption spectroscopy (MAXDOAS) technique that utilizes scattered sunlight as a light source and retrieves the spatial distribution of various trace gases, including HCHO. While this technique can directly retrieve a slant column density (SCD; a measure of the amount of the absorbing species in a cross-sectional area, integrated over the light path) of the target species, it is unable to yield vertical profiles of the species directly without detailed radiative transfer information. HCHO vertical column densities retrieved from the MAX-DOAS measurements are compared, for this time period, with data from the Ozone Monitoring Instrument (OMI)
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