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On the effect of sea breeze regime on aerosols and gases properties in the urban area of Rome, Italy

Di Bernardino, Annalisa ; Iannarelli, Anna Maria ; Casadio, Stefano ; [weitere]

Elsevier BV ; 2021

In: Urban Climate Vol. 37 ( 2021-05), p. 100842-

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In: Urban Climate, Elsevier BV, Vol. 37 ( 2021-05), p. 100842-

Materialart: Online-Ressource

ISSN: 2212-0955

URL: Article

DOI: 10.1016/j.uclim.2021.100842

Sprache: Englisch

Verlag: Elsevier BV

Publikationsdatum: 2021

ZDB Id: 2683732-8

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The first evaluation of formaldehyde column observations by improved Pandora spectrometers during the KORUS-AQ field study

Spinei, Elena ; Whitehill, Andrew ; Fried, Alan ; [weitere]

Copernicus GmbH ; 2018

In: Atmospheric Measurement Techniques Vol. 11, No. 9 ( 2018-08-31), p. 4943-4961

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In: Atmospheric Measurement Techniques, Copernicus GmbH, Vol. 11, No. 9 ( 2018-08-31), p. 4943-4961

Kurzfassung: Abstract. The Korea–United States Air Quality Study (KORUS-AQ) conducted during May–June 2016 offered the first opportunity to evaluate direct-sun observations of formaldehyde (HCHO) total column densities with improved Pandora spectrometer instruments. The measurements highlighted in this work were conducted both in the Seoul megacity area at the Olympic Park site (37.5232∘ N, 27.1260∘ E; 26 m a.s.l.) and at a nearby rural site downwind of the city at the Mount Taehwa research forest site (37.3123∘ N, 127.3106∘ E; 160 m a.s.l.). Evaluation of these measurements was made possible by concurrent ground-based in situ observations of HCHO at both sites as well as overflight by the NASA DC-8 research aircraft. The flights provided in situ measurements of HCHO to characterize its vertical distribution in the lower troposphere (0–5 km). Diurnal variation in HCHO total column densities followed the same pattern at both sites, with the minimum daily values typically observed between 6:00 and 7:00 local time, gradually increasing to a maximum between 13:00 and 17:00 before decreasing into the evening. Pandora vertical column densities were compared with those derived from the DC-8 HCHO in situ measured profiles augmented with in situ surface concentrations below the lowest altitude of the DC-8 in proximity to the ground sites. A comparison between 49 column densities measured by Pandora vs. aircraft-integrated in situ data showed that Pandora values were larger by 16 % with a constant offset of 0.22 DU (Dobson units; R2=0.68). Pandora HCHO columns were also compared with columns calculated from the surface in situ measurements over Olympic Park by assuming a well-mixed lower atmosphere up to a ceilometer-measured mixed-layer height (MLH) and various assumptions about the small residual HCHO amounts in the free troposphere up to the tropopause. The best comparison (slope =1.03±0.03; intercept =0.29±0.02 DU; and R2=0.78±0.02) was achieved assuming equal mixing within ceilometer-measured MLH combined with an exponential profile shape. These results suggest that diurnal changes in HCHO surface concentrations can be reasonably estimated from the Pandora total column and information on the mixed-layer height. More work is needed to understand the bias in the intercept and the slope relative to columns derived from the in situ aircraft and surface measurements.

Materialart: Online-Ressource

ISSN: 1867-8548

URL: Article

DOI: 10.5194/amt-11-4943-2018

Sprache: Englisch

Verlag: Copernicus GmbH

Publikationsdatum: 2018

ZDB Id: 2505596-3

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Intercomparison of NO〈sub〉2〈/sub〉, O〈sub〉4〈/sub〉, O〈sub〉3〈/sub〉 and HCHO slant column measurements by MAX-DOAS and zenith-sky UV–visible spectrometers during CINDI-2

Kreher, Karin ; Van Roozendael, Michel ; Hendrick, Francois ; [weitere]

Copernicus GmbH ; 2020

In: Atmospheric Measurement Techniques Vol. 13, No. 5 ( 2020-05-06), p. 2169-2208

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In: Atmospheric Measurement Techniques, Copernicus GmbH, Vol. 13, No. 5 ( 2020-05-06), p. 2169-2208

Kurzfassung: Abstract. In September 2016, 36 spectrometers from 24 institutes measured a number of key atmospheric pollutants for a period of 17 d during the Second Cabauw Intercomparison campaign for Nitrogen Dioxide measuring Instruments (CINDI-2) that took place at Cabauw, the Netherlands (51.97∘ N, 4.93∘ E). We report on the outcome of the formal semi-blind intercomparison exercise, which was held under the umbrella of the Network for the Detection of Atmospheric Composition Change (NDACC) and the European Space Agency (ESA). The three major goals of CINDI-2 were (1) to characterise and better understand the differences between a large number of multi-axis differential optical absorption spectroscopy (MAX-DOAS) and zenith-sky DOAS instruments and analysis methods, (2) to define a robust methodology for performance assessment of all participating instruments, and (3) to contribute to a harmonisation of the measurement settings and retrieval methods. This, in turn, creates the capability to produce consistent high-quality ground-based data sets, which are an essential requirement to generate reliable long-term measurement time series suitable for trend analysis and satellite data validation. The data products investigated during the semi-blind intercomparison are slant columns of nitrogen dioxide (NO2), the oxygen collision complex (O4) and ozone (O3) measured in the UV and visible wavelength region, formaldehyde (HCHO) in the UV spectral region, and NO2 in an additional (smaller) wavelength range in the visible region. The campaign design and implementation processes are discussed in detail including the measurement protocol, calibration procedures and slant column retrieval settings. Strong emphasis was put on the careful alignment and synchronisation of the measurement systems, resulting in a unique set of measurements made under highly comparable air mass conditions. The CINDI-2 data sets were investigated using a regression analysis of the slant columns measured by each instrument and for each of the target data products. The slope and intercept of the regression analysis respectively quantify the mean systematic bias and offset of the individual data sets against the selected reference (which is obtained from the median of either all data sets or a subset), and the rms error provides an estimate of the measurement noise or dispersion. These three criteria are examined and for each of the parameters and each of the data products, performance thresholds are set and applied to all the measurements. The approach presented here has been developed based on heritage from previous intercomparison exercises. It introduces a quantitative assessment of the consistency between all the participating instruments for the MAX-DOAS and zenith-sky DOAS techniques.

Materialart: Online-Ressource

ISSN: 1867-8548

URL: Article

DOI: 10.5194/amt-13-2169-2020

DOI: 10.5194/amt-13-2169-2020-supplement

Sprache: Englisch

Verlag: Copernicus GmbH

Publikationsdatum: 2020

ZDB Id: 2505596-3

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NO〈sub〉2〈/sub〉 and HCHO measurements in Korea from 2012 to 2016 from Pandora spectrometer instruments compared with OMI retrievals and with aircraft measurements during the KORUS-AQ campaign

Herman, Jay ; Spinei, Elena ; Fried, Alan ; [weitere]

Copernicus GmbH ; 2018

In: Atmospheric Measurement Techniques Vol. 11, No. 8 ( 2018-08-08), p. 4583-4603

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In: Atmospheric Measurement Techniques, Copernicus GmbH, Vol. 11, No. 8 ( 2018-08-08), p. 4583-4603

Kurzfassung: Abstract. Nine Pandora spectrometer instruments (PSI) were installed at eight sites in South Korea as part of the KORUS-AQ (Korea U.S.-Air Quality) field study integrating information from ground, aircraft, and satellite measurements for validation of remote sensing air-quality studies. The PSI made direct-sun measurements of total vertical column NO2, C(NO2), with high precision (0.05 DU, where 1 DU =2.69×1016 molecules cm−2) and accuracy (0.1 DU) that were retrieved using spectral fitting techniques. Retrieval of formaldehyde C(HCHO) total column amounts were also obtained at five sites using the recently improved PSI optics. The C(HCHO) retrievals have high precision, but possibly lower accuracy than for NO2 because of uncertainty about the optimum spectral window for all ground-based and satellite instruments. PSI direct-sun retrieved values for C(NO2) and C(HCHO) are always significantly larger than OMI (AURA satellite Ozone Monitoring Instrument) retrieved C(NO2) and C(HCHO) for the OMI overpass local times (KST=13.5±0.5 h). In urban areas, PSI C(NO2) 30-day running averages are at least a factor of two larger than OMI averages. Similar differences are seen for C(HCHO) in Seoul and nearby surrounding areas. Late afternoon values of C(HCHO) measured by PSI are even larger, implying that OMI early afternoon measurements underestimate the effect of poor air quality on human health. The primary cause of OMI underestimates is the large OMI field of view (FOV) that includes regions containing low values of pollutants. In relatively clean areas, PSI and OMI are more closely in agreement. C(HCHO) amounts were obtained for five sites, Yonsei University in Seoul, Olympic Park, Taehwa Mountain, Amnyeondo, and Yeoju. Of these, the largest amounts of C(HCHO) were observed at Olympic Park and Taehwa Mountain, surrounded by significant amounts of vegetation. Comparisons of PSI C(HCHO) results were made with the Compact Atmospheric Multispecies Spectrometer CAMS during overflights on the DC-8 aircraft for Taehwa Mountain and Olympic Park. In all cases, PSI measured substantially more C(HCHO) than obtained from integrating the CAMS altitude profiles. PSI C(HCHO) at Yonsei University in Seoul frequently reached 0.6 DU and occasionally exceeded 1.5 DU. The semi-rural site, Taehwa Mountain, frequently reached 0.9 DU and occasionally exceeded 1.5 DU. Even at the cleanest site, Amnyeondo, C(HCHO) occasionally exceeded 1 DU.

Materialart: Online-Ressource

ISSN: 1867-8548

URL: Article

DOI: 10.5194/amt-11-4583-2018

Sprache: Englisch

Verlag: Copernicus GmbH

Publikationsdatum: 2018

ZDB Id: 2505596-3

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Effect of polyoxymethylene (POM-H Delrin) off-gassing within the Pandora head sensor on direct-sun and multi-axis formaldehyde column measurements in 2016–2019

Spinei, Elena ; Tiefengraber, Martin ; Müller, Moritz ; [weitere]

Copernicus GmbH ; 2021

In: Atmospheric Measurement Techniques Vol. 14, No. 1 ( 2021-01-28), p. 647-663

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In: Atmospheric Measurement Techniques, Copernicus GmbH, Vol. 14, No. 1 ( 2021-01-28), p. 647-663

Kurzfassung: Abstract. Analysis of formaldehyde measurements by the Pandora spectrometer systems between 2016 and 2019 suggested that there was a temperature-dependent process inside the Pandora head sensor that emitted formaldehyde. Some parts in the head sensor were manufactured from the thermal plastic polyoxymethylene homopolymer (E.I. Du Pont de Nemour & Co., USA; POM-H Delrin®) and were responsible for formaldehyde production. Laboratory analysis of the four Pandora head sensors showed that internal formaldehyde production had exponential temperature dependence with a damping coefficient of 0.0911±0.0024 ∘C−1 and the exponential function amplitude ranging from 0.0041 to 0.049 DU. No apparent dependency on the head sensor age and heating and cooling rates was detected. The total amount of formaldehyde internally generated by the POM-H Delrin components and contributing to the direct-sun measurements were estimated based on the head sensor temperature and solar zenith angle of the measurements. Measurements in winter, during colder (〈 10 ∘C) days in general, and at high solar zenith angles (〉 75∘) were minimally impacted. Measurements during hot days (〉 28 ∘C) and small solar zenith angles had up to 1 DU (2.69×1016 molec. cm−2) contribution from POM-H Delrin parts. Multi-axis differential slant column densities were minimally impacted (〈0.01 DU) due to the reference spectrum being collected within a short time period with a small difference in head sensor temperature. Three new POM-H Delrin free Pandora head sensors (manufactured in summer 2019) were evaluated for temperature-dependent attenuation across the entire spectral range (300 to 530 nm). No formaldehyde absorption or any other absorption above the instrumental noise was observed across the entire spectral range.

Materialart: Online-Ressource

ISSN: 1867-8548

URL: Article

DOI: 10.5194/amt-14-647-2021

Sprache: Englisch

Verlag: Copernicus GmbH

Publikationsdatum: 2021

ZDB Id: 2505596-3

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NO 2 column amounts from ground-based Pandora and MFDOAS spectrometers using the direct-sun DOAS technique: Intercomparisons and application to OMI validation

Herman, Jay ; Cede, Alexander ; Spinei, Elena ; [weitere]

American Geophysical Union (AGU) ; 2009

In: Journal of Geophysical Research Vol. 114, No. D13 ( 2009-07-15)

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In: Journal of Geophysical Research, American Geophysical Union (AGU), Vol. 114, No. D13 ( 2009-07-15)

Materialart: Online-Ressource

ISSN: 0148-0227

URL: Article

DOI: 10.1029/2009JD011848

Sprache: Englisch

Verlag: American Geophysical Union (AGU)

Publikationsdatum: 2009

ZDB Id: 2033040-6

ZDB Id: 3094104-0

ZDB Id: 2130824-X

ZDB Id: 2016813-5

ZDB Id: 2016810-X

ZDB Id: 2403298-0

ZDB Id: 2016800-7

ZDB Id: 161666-3

ZDB Id: 161667-5

ZDB Id: 2969341-X

ZDB Id: 161665-1

ZDB Id: 3094268-8

ZDB Id: 710256-2

ZDB Id: 2016804-4

ZDB Id: 3094181-7

ZDB Id: 3094219-6

ZDB Id: 3094167-2

ZDB Id: 2220777-6

ZDB Id: 3094197-0

SSG: 16,13

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Direct Sun measurements of NO 2 column abundances from Table Mountain, California: Intercomparison of low- and high-resolution spectrometers

Wang, Shuhui ; Pongetti, Thomas J. ; Sander, Stanley P. ; [weitere]

American Geophysical Union (AGU) ; 2010

In: Journal of Geophysical Research Vol. 115, No. D13 ( 2010-07-15)

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In: Journal of Geophysical Research, American Geophysical Union (AGU), Vol. 115, No. D13 ( 2010-07-15)

Materialart: Online-Ressource

ISSN: 0148-0227

URL: Article

DOI: 10.1029/2009JD013503

Sprache: Englisch

Verlag: American Geophysical Union (AGU)

Publikationsdatum: 2010

ZDB Id: 2033040-6

ZDB Id: 3094104-0

ZDB Id: 2130824-X

ZDB Id: 2016813-5

ZDB Id: 2016810-X

ZDB Id: 2403298-0

ZDB Id: 2016800-7

ZDB Id: 161666-3

ZDB Id: 161667-5

ZDB Id: 2969341-X

ZDB Id: 161665-1

ZDB Id: 3094268-8

ZDB Id: 710256-2

ZDB Id: 2016804-4

ZDB Id: 3094181-7

ZDB Id: 3094219-6

ZDB Id: 3094167-2

ZDB Id: 2220777-6

ZDB Id: 3094197-0

SSG: 16,13

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Intercomparison of MAX-DOAS vertical profile retrieval algorithms: studies on field data from the CINDI-2 campaign

Tirpitz, Jan-Lukas ; Frieß, Udo ; Hendrick, François ; [weitere]

Copernicus GmbH ; 2021

In: Atmospheric Measurement Techniques Vol. 14, No. 1 ( 2021-01-04), p. 1-35

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In: Atmospheric Measurement Techniques, Copernicus GmbH, Vol. 14, No. 1 ( 2021-01-04), p. 1-35

Kurzfassung: Abstract. The second Cabauw Intercomparison of Nitrogen Dioxide measuring Instruments (CINDI-2) took place in Cabauw (the Netherlands) in September 2016 with the aim of assessing the consistency of multi-axis differential optical absorption spectroscopy (MAX-DOAS) measurements of tropospheric species (NO2, HCHO, O3, HONO, CHOCHO and O4). This was achieved through the coordinated operation of 36 spectrometers operated by 24 groups from all over the world, together with a wide range of supporting reference observations (in situ analysers, balloon sondes, lidars, long-path DOAS, direct-sun DOAS, Sun photometer and meteorological instruments). In the presented study, the retrieved CINDI-2 MAX-DOAS trace gas (NO2, HCHO) and aerosol vertical profiles of 15 participating groups using different inversion algorithms are compared and validated against the colocated supporting observations, with the focus on aerosol optical thicknesses (AOTs), trace gas vertical column densities (VCDs) and trace gas surface concentrations. The algorithms are based on three different techniques: six use the optimal estimation method, two use a parameterized approach and one algorithm relies on simplified radiative transport assumptions and analytical calculations. To assess the agreement among the inversion algorithms independent of inconsistencies in the trace gas slant column density acquisition, participants applied their inversion to a common set of slant columns. Further, important settings like the retrieval grid, profiles of O3, temperature and pressure as well as aerosol optical properties and a priori assumptions (for optimal estimation algorithms) have been prescribed to reduce possible sources of discrepancies. The profiling results were found to be in good qualitative agreement: most participants obtained the same features in the retrieved vertical trace gas and aerosol distributions; however, these are sometimes at different altitudes and of different magnitudes. Under clear-sky conditions, the root-mean-square differences (RMSDs) among the results of individual participants are in the range of 0.01–0.1 for AOTs, (1.5–15) ×1014molec.cm-2 for trace gas (NO2, HCHO) VCDs and (0.3–8)×1010molec.cm-3 for trace gas surface concentrations. These values compare to approximate average optical thicknesses of 0.3, trace gas vertical columns of 90×1014molec.cm-2 and trace gas surface concentrations of 11×1010molec.cm-3 observed over the campaign period. The discrepancies originate from differences in the applied techniques, the exact implementation of the algorithms and the user-defined settings that were not prescribed. For the comparison against supporting observations, the RMSDs increase to a range of 0.02–0.2 against AOTs from the Sun photometer, (11–55)×1014molec.cm-2 against trace gas VCDs from direct-sun DOAS observations and (0.8–9)×1010molec.cm-3 against surface concentrations from the long-path DOAS instrument. This increase in RMSDs is most likely caused by uncertainties in the supporting data, spatiotemporal mismatch among the observations and simplified assumptions particularly on aerosol optical properties made for the MAX-DOAS retrieval. As a side investigation, the comparison was repeated with the participants retrieving profiles from their own differential slant column densities (dSCDs) acquired during the campaign. In this case, the consistency among the participants degrades by about 30 % for AOTs, by 180 % (40 %) for HCHO (NO2) VCDs and by 90 % (20 %) for HCHO (NO2) surface concentrations. In former publications and also during this comparison study, it was found that MAX-DOAS vertically integrated aerosol extinction coefficient profiles systematically underestimate the AOT observed by the Sun photometer. For the first time, it is quantitatively shown that for optimal estimation algorithms this can be largely explained and compensated by considering biases arising from the reduced sensitivity of MAX-DOAS observations to higher altitudes and associated a priori assumptions.

Materialart: Online-Ressource

ISSN: 1867-8548

URL: Article

DOI: 10.5194/amt-14-1-2021

DOI: 10.5194/amt-14-1-2021-supplement

Sprache: Englisch

Verlag: Copernicus GmbH

Publikationsdatum: 2021

ZDB Id: 2505596-3

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