Formic acid above the Jungfraujoch during 1985–2007: observed variability, seasonality, but no long-term background evolution

Abstract: Abstract. This paper reports on daytime total vertical column abundances of formic acid (HCOOH) above the Northern mid-latitude, high altitude Jungfraujoch station (Switzerland; 46.5 • N, 8.0 • E, 3580 m alt.). The columns were derived from the analysis of infrared solar observations regularly performed with high spectral resolution Fourier transform spectrometers during over 1500 days between September 1985 and September 2007. The investigation was based on the spectrometric fitting of five spectral intervals… Show more

“…It presents a minimum in February of 1.05 × 10 15 molecules cm −2 . This is consistent with the study of Zander et al (2010), in which the seasonal modulation is in phase with biogenic emissions, which depend on solar isolation, local temperature, atmospheric transport and soil coverage. However, at Eureka, the HCOOH seasonal amplitude of 61 % is smaller than that of the other species, certainly due to the shorter lifetime of this molecule (three to four days; Table 1) as well as the importance of wet deposition as a sink.…”

“…Our HCOOH retrieved columns are in agreement in terms of mean and extreme values as well as seasonal amplitude, compared to those measured at Jungfraujoch (Zander et al, 2010). They reported a mean value of 1.70 ± 0.50 × 10 15 molecules cm −2 for June-July-August from 1985 to 2007, which is comparable to our average of 2.10 ± 0.20 × 10 15 molecule cm −2 for the same summer months from 2007 to 2011.…”

“…The spectroscopic parameters of this band have been updated (Perrin and Vander Auwera, 2007). Zander et al (2010) have shown that these improvements reduce the retrieved total columns by a factor of two. In this MW, a global SNR of 800 is used and interfering species (HDO,O 3 For H 2 CO, MWs are from Paton-Walsh et al (2005) where the lines belong to two bands, centred at 2782.000 and 2843.000 cm −1 , respectively.…”

“…For HCOOH, we use one MW between 1104.650 and 1105.600 cm −1 , which corresponds to the band used in Zander et al (2010), Paulot et al (2011) and . The spectroscopic parameters of this band have been updated (Perrin and Vander Auwera, 2007).…”

“…CH 3 OH and HCOOH have been measured in a limited number of ground-based FTIR studies (Paton-Walsh et al, 2005Rinsland et al, , 2009Zander et al, 2010;Paulot et al, 2011). The first FTIR data sets of H 2 CO were obtained in remote areas (Mahieu et al, 1997;Notholt et al, 1997a, b) and were then extended to urban areas (Hak et al, 2005) and the Southern Hemisphere (Jones et al, 2009;Vigouroux et al, 2009;Paton-Walsh et al, 2010).…”

Five years of CO, HCN, C<sub>2</sub>H<sub>6</sub>, C<sub>2</sub>H<sub>2</sub>, CH<sub>3</sub>OH, HCOOH and H<sub>2</sub>CO total columns measured in the Canadian high Arctic

“…It presents a minimum in February of 1.05 × 10 15 molecules cm −2 . This is consistent with the study of Zander et al (2010), in which the seasonal modulation is in phase with biogenic emissions, which depend on solar isolation, local temperature, atmospheric transport and soil coverage. However, at Eureka, the HCOOH seasonal amplitude of 61 % is smaller than that of the other species, certainly due to the shorter lifetime of this molecule (three to four days; Table 1) as well as the importance of wet deposition as a sink.…”

“…Our HCOOH retrieved columns are in agreement in terms of mean and extreme values as well as seasonal amplitude, compared to those measured at Jungfraujoch (Zander et al, 2010). They reported a mean value of 1.70 ± 0.50 × 10 15 molecules cm −2 for June-July-August from 1985 to 2007, which is comparable to our average of 2.10 ± 0.20 × 10 15 molecule cm −2 for the same summer months from 2007 to 2011.…”

“…The spectroscopic parameters of this band have been updated (Perrin and Vander Auwera, 2007). Zander et al (2010) have shown that these improvements reduce the retrieved total columns by a factor of two. In this MW, a global SNR of 800 is used and interfering species (HDO,O 3 For H 2 CO, MWs are from Paton-Walsh et al (2005) where the lines belong to two bands, centred at 2782.000 and 2843.000 cm −1 , respectively.…”

“…For HCOOH, we use one MW between 1104.650 and 1105.600 cm −1 , which corresponds to the band used in Zander et al (2010), Paulot et al (2011) and . The spectroscopic parameters of this band have been updated (Perrin and Vander Auwera, 2007).…”

“…CH 3 OH and HCOOH have been measured in a limited number of ground-based FTIR studies (Paton-Walsh et al, 2005Rinsland et al, , 2009Zander et al, 2010;Paulot et al, 2011). The first FTIR data sets of H 2 CO were obtained in remote areas (Mahieu et al, 1997;Notholt et al, 1997a, b) and were then extended to urban areas (Hak et al, 2005) and the Southern Hemisphere (Jones et al, 2009;Vigouroux et al, 2009;Paton-Walsh et al, 2010).…”

Five years of CO, HCN, C<sub>2</sub>H<sub>6</sub>, C<sub>2</sub>H<sub>2</sub>, CH<sub>3</sub>OH, HCOOH and H<sub>2</sub>CO total columns measured in the Canadian high Arctic

Low-molecular-weight organic acids in the Tibetan Plateau: Results from one-year of precipitation samples at the SET station

Decrease of the carbon tetrachloride (CCl4) loading above Jungfraujoch, based on high resolution infrared solar spectra recorded between 1999 and 2011