Twelve years of global observations of formaldehyde in the troposphere using GOME and SCIAMACHY sensors

Smedt, Isabelle De; Müller, J.-F.; Stavrakou, T.; A, R. van der; Eskes, Henk; Roozendaël, Michel Van

doi:10.5194/acp-8-4947-2008

Cited by 245 publications

(318 citation statements)

References 67 publications

(81 reference statements)

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“…Analysis of a 12 year time series of monthly mean HCHO columns retrieved from the GOME and SCIA-MACHY satellite instruments [25,26] and ATSR/ AATSR fire-counts [24,27] confirm that biomass burning over Borneo drives observed variability of HCHO [3]. Anomalously high HCHO columns over this period were owing to intense burning periods associated with strong El Niñ o conditions, as expected.…”

Section: Local -Regional -Global Modellingmentioning

confidence: 82%

The impact of local surface changes in Borneo on atmospheric composition at wider spatial scales: coastal processes, land-use change and air quality

Pyle

Warwick

Harris

et al. 2011

Phil. Trans. R. Soc. B

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We present results from the OP3 campaign in Sabah during 2008 that allow us to study the impact of local emission changes over Borneo on atmospheric composition at the regional and wider scale. OP3 constituent data provide an important constraint on model performance. Treatment of boundary layer processes is highlighted as an important area of model uncertainty. Model studies of land-use change confirm earlier work, indicating that further changes to intensive oil palm agriculture in South East Asia, and the tropics in general, could have important impacts on air quality, with the biggest factor being the concomitant changes in NO x emissions. With the model scenarios used here, local increases in ozone of around 50 per cent could occur. We also report measurements of short-lived brominated compounds around Sabah suggesting that oceanic (and, especially, coastal) emission sources dominate locally. The concentration of bromine in short-lived halocarbons measured at the surface during OP3 amounted to about 7 ppt, setting an upper limit on the amount of these species that can reach the lower stratosphere.

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Section: Local -Regional -Global Modellingmentioning

confidence: 82%

The impact of local surface changes in Borneo on atmospheric composition at wider spatial scales: coastal processes, land-use change and air quality

Pyle

Warwick

Harris

et al. 2011

Phil. Trans. R. Soc. B

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“…The total retrieval uncertainty on the SO 2 vertical columns can be derived by error propagation, starting from Eq. (1) and if one assumes uncorrelated retrieval steps (Boersma et al, 2004;De Smedt et al, 2008):…”

Section: Introductionmentioning

confidence: 99%

Sulfur dioxide retrievals from TROPOMI onboard Sentinel-5 Precursor: algorithm theoretical basis

et al. 2017

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Abstract. The TROPOspheric Monitoring Instrument (TROPOMI) onboard the Copernicus Sentinel-5 Precursor (S-5P) platform will measure ultraviolet earthshine radiances at high spectral and improved spatial resolution (pixel size of 7 km × 3.5 km at nadir) compared to its predecessors OMI and GOME-2. This paper presents the sulfur dioxide (SO 2 ) vertical column retrieval algorithm implemented in the S-5P operational processor UPAS (Universal Processor for UV/VIS Atmospheric Spectrometers) and comprehensively describes its various retrieval steps. The spectral fitting is performed using the differential optical absorption spectroscopy (DOAS) method including multiple fitting windows to cope with the large range of atmospheric SO 2 columns encountered. It is followed by a slant column background correction scheme to reduce possible biases or across-track-dependent artifacts in the data. The SO 2 vertical columns are obtained by applying air mass factors (AMFs) calculated for a set of representative a priori profiles and accounting for various parameters influencing the retrieval sensitivity to SO 2 . Finally, the algorithm includes an error analysis module which is fully described here. We also discuss verification results (as part of the algorithm development) and future validation needs of the TROPOMI SO 2 algorithm.

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“…Global Ozone Monitoring Experiment (GOME)은 40×320 km 2 의 공간 해상도를 가 지는 위성 센서로서, 전 지구 HCHO 분포를 최초로 제 공하였다 (Thomas et al, 1998;Chance et al, 2000). 대기 에서 HCHO 농도의 증가는 식물의 생명활동에서 발생 하는 아이소프린, 생태계 화재, 그리고 대도시 지역의 인 간 활동과 관련 있다 (Chance et al, 2000;Kurosu et al, 2008;De Smedt et al, 2008). 위 성 으 로 부 터 관 측 된 HCHO는 화학 수송 모델에 이용되어 다양한 VOC 배출 원의 값을 정량화 하는데 도움을 준다 (Palmer et al, 2006).…”

Section: 서 론unclassified

“…위 성 으 로 부 터 관 측 된 HCHO는 화학 수송 모델에 이용되어 다양한 VOC 배출 원의 값을 정량화 하는데 도움을 준다 (Palmer et al, 2006). 게다가 대류권 오존과 OH 농도를 결정하는 CO 양의 불확실성을 줄이는데 도움을 준다 (De Smedt et al, 2008). HCHO의 전량 값(total-column)은 UV-A 복사 분 광의 비선형 최소 자승핏팅(least squares fitting)을 이용하 여 산출된다 (Chance et al, 2000).…”

Section: 서 론unclassified

“…GOME으 로 부 터 산 출 된 연 직 HCHO는 1) 경사 농도 핏팅, (2) 센서 분광판 보정 그리 고 (3) AMF 계산과 관련된 오차를 포함한다 (Palmer et al, 2006). 산출된 HCHO 관측 오차는 (1) 참조 섹터 방법 (reference sector method)을 이용하여 보정되어야 하는 배 경 농도 값의 위도별 의존성, (2) 사하라와 오스트레일리 아 사막에서 보이는 배경농도 값보다 낮은 값의 발생, (3) 화학 수송모델에서 예측되지 않은 바다 위에서의 HCHO 발생 등의 영향을 포함한다 (Wittrock et al, 2006;Korean Journal of Remote Sensing, Vol.30, No.4, 2014 -4 18-1.48%, 0.65%/year 경향성을 보였으며 이 수치는 GOME(-0.99%, 1.1%/year)과 SCAIMACHY (-0 De Smedt et al, 2008;Stavrakou et al, 2009a (Palmer et al, , 2006Abbot et al, 2003;Martin et al, 2004;Wittrock et al, 2006;Kurosu et al, 2008;Stavrakou et al, 2009a (Kurosu et al, 2008). 또한 북아프리카 지 역에서 OMI HCHO은 GOME 자료보다 2-14% 낮게 관 측되었다 (Millet et al, 2008 MOPITT CO의 EOF 결과 (Fig.2(a))는 뚜렷한 연주기 를 가지며 북아프리카에서 12-4월에 최대 값을 남아프 리카 지역에서 8-10월에 최소 값을 갖는 뚜렷한 남북 쌍 극 진동을 보여준다.…”

Section: 서 론unclassified

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Validation of OMI HCHO with EOF and SVD over Tropical Africa

Kim

Baek

Kim

2014

Korean Journal of Remote Sensing

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:We have found an error in the operational OMI HCHO columns, and corrected it by applying a background parameterization derived on a 4th order polynomial fit to the time series of monthly average OMI HCHO data. The corrected OMI HCHO agrees with this understanding as well as with the other sensors measurements and has no unrealistic trends. A new scientific approach, statistical analyses with EOF and SVD, was adapted to reanalyze the consistency of the corrected OMI HCHO with other satellite measurements of HCHO, CO, NO2, and fire counts over Africa. The EOF and SVD analyses with MOPITT CO, OMI NO2, SCIAMAHCY, and OMI HCHO show the overall spatial and temporal pattern consistent with those of biomass burning over these regions. However, some discrepancies were observed from OMI HCHO over northern equatorial Africa during the northern biomass burning seasons: The maximum HCHO was found further downwind from where maximum fire counts occur and the minimum was found in January when biomass burning is strongest. The statistical analysis revealed that the influence of biogenic activity on HCHO wasn't strong enough to cause the discrepancies, but it is caused by the error in OMI HCHO from using the wrong Air Mass Factor (AMF) associated with biomass burning aerosol. If the error is properly taken into consideration, the biomass burning is the strongest source of HCHO seasonality over the regions. This study suggested that the statistical tools are a very efficient method for evaluating satellite data.

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Twelve years of global observations of formaldehyde in the troposphere using GOME and SCIAMACHY sensors

Cited by 245 publications

References 67 publications

The impact of local surface changes in Borneo on atmospheric composition at wider spatial scales: coastal processes, land-use change and air quality

The impact of local surface changes in Borneo on atmospheric composition at wider spatial scales: coastal processes, land-use change and air quality

Sulfur dioxide retrievals from TROPOMI onboard Sentinel-5 Precursor: algorithm theoretical basis

Validation of OMI HCHO with EOF and SVD over Tropical Africa

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