MAMAP – a new spectrometer system for column-averaged methane and carbon dioxide observations from aircraft: instrument description and performance analysis

Gerilowski, Konstantin; Tretner, A.; Krings, T.; Buchwitz, Michael; Bertagnolio, P. P.; Belemezov, F.; Erzinger, J.; Burrows, J. P.; Bovensmann, H.

doi:10.5194/amt-4-215-2011

Cited by 88 publications

(79 citation statements)

References 44 publications

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“…Alternatively, atmospheric measurements potentially provide a constraint on the minimum wetland fraction that should be represented in a wetland product. Gerilowski et al (2011) are developing a successor to the SCIAMACHY instrument -the methane mapper (MAMAP). They considered a number of potential sources, including wetlands, which could be monitored by the MAMAP instrument.…”

Section: Discussionmentioning

confidence: 99%

Detection of open water dynamics with ENVISAT ASAR in support of land surface modelling at high latitudes

et al. 2012

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Abstract. Wetlands are generally accepted as being the largest but least well quantified single source of methane (CH 4 ). The extent of wetland or inundation is a key factor controlling methane emissions, both in nature and in the parameterisations used in large-scale land surface and climate models. Satellite-derived datasets of wetland extent are available on the global scale, but the resolution is rather coarse (>25 km). The purpose of the present study is to assess the capability of active microwave sensors to derive inundation dynamics for use in land surface and climate models of the boreal and tundra environments. The focus is on synthetic aperture radar (SAR) operating in C-band since, among microwave systems, it has comparably high spatial resolution and data availability, and long-term continuity is expected.C-band data from ENVISAT ASAR (Advanced SAR) operating in wide swath mode (150 m resolution) were investigated and an automated detection procedure for deriving open water fraction has been developed. More than 4000 samples (single acquisitions tiled onto 0.5 • grid cells) have been analysed for July and August in 2007 and 2008 for a study region in Western Siberia. Simple classification algorithms were applied and found to be robust when the water surface was smooth. Modification of input parameters results in differences below 1 % open water fraction. The major issue to address was the frequent occurrence of waves due to wind and precipitation, which reduces the separability of the water class from other land cover classes. Statistical measures of the backscatter distribution were applied in order to retrieve suitable classification data. The Pearson correlation between each sample dataset and a location specific representation of the bimodal distribution was used. On average only 40 % of acquisitions allow a separation of the open water class. Although satellite data are available every 2-3 days over the Western Siberian study region, the irregular acquisition intervals and periods of unsuitable weather suggest that an update interval of 10 days is more realistic for this domain. SAR data availability is currently limited. Future satellite missions, however, which aim for operational services (such as Sentinel-1 with its C-band SAR instrument), may provide the basis for inundation monitoring for land surface and climate modelling applications.

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Section: Discussionmentioning

confidence: 99%

Detection of open water dynamics with ENVISAT ASAR in support of land surface modelling at high latitudes

et al. 2012

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“…Heue et al, 2008;Gerilowski et al, 2011;Beirle et al, 2011;Merlaud et al, 2012;General et al, 2014).…”

Section: Introductionunclassified

The novel HALO mini-DOAS instrument: inferring trace gas concentrations from airborne UV/visible limb spectroscopy under all skies using the scaling method

et al. 2017

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Abstract. We report on a novel six-channel optical spectrometer (further on called mini-DOAS instrument) for airborne nadir and limb measurements of atmospheric trace gases, liquid and solid water, and spectral radiances in the UV/vis and NIR spectral ranges. The spectrometer was developed for measurements from aboard the German High-Altitude and Long-Range (HALO) research aircraft during dedicated research missions. Here we report on the relevant instrumental details and the novel scaling method used to infer the mixing ratios of UV/vis absorbing trace gases from their absorption measured in limb geometry. The uncertainties of the scaling method are assessed in more detail than before for sample measurements of NO 2 and BrO. Some first results are reported along with complementary measurements and comparisons with model predictions for a selected HALO research flight from Cape Town to Antarctica, which was performed during the research mission ESMVal on 13 September 2012.

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“…They concluded that with an adequate spectral calibration approach, the impact of the inhomogeneous slit illumination on spectral calibration can be minimised. Gerilowski et al (2011) demonstrated with an airborne spectrometer that scene inhomogeneities on scales of about 50 m result in enhanced noise contributions even under cloud free conditions. Nevertheless, there is to the authors' knowledge no analysis of impact of scene inhomogeneity on the trace gas concentrations errors published so far.…”

Section: Introductionmentioning

confidence: 99%

Quantification and mitigation of the impact of scene inhomogeneity on Sentinel-4 UVN UV-VIS retrievals

et al. 2012

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Abstract. The quality of trace gas products derived from measurements of a space-borne imaging spectrometer is affected by the inhomogeneity of the illumination of the instrument slit and thus by the heterogeneity of the observed scene. This paper aims to quantify this effect and summarise findings on how to mitigate the impact of inhomogeneous slit illumination on tropospheric O 3 , NO 2 , SO 2 and HCHO columns derived from measurements of the Sentinel-4 UVN imaging spectrometer. For this purpose, spectra for inhomogeneous ground scenes have been simulated based on a combination of a radiative transfer model and spatially high resolved MODIS (Moderate Resolution Imaging Spectroradiometer) data. The resulting errors on tropospheric O 3 , NO 2 , SO 2 and HCHO columns derived from these spectra have been determined via an optimal estimation approach. We conclude that inhomogeneous illumination results in significant errors in the data products if the natural inhomogeneity of the observed scenes are not accounted for. O 3 columns are less affected than the other data products; largest errors occur for NO 2 (mean absolute errors about 5 %, maximum error exceeding 50 %, standard deviation of the errors about 8 %). These errors may be significantly reduced (by factors up to about 10) by an appropriate wavelength calibration applied individually to each Earthshine radiance spectrum. With wavelength calibration the estimated mean absolute errors due to inhomogeneity are for all gases well below 1 %; standard deviations of the errors are 1.5 % or lower; maximum errors are about 10 % for NO 2 and around 5 % for the other gases.

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MAMAP – a new spectrometer system for column-averaged methane and carbon dioxide observations from aircraft: instrument description and performance analysis

Cited by 88 publications

References 44 publications

Detection of open water dynamics with ENVISAT ASAR in support of land surface modelling at high latitudes

Detection of open water dynamics with ENVISAT ASAR in support of land surface modelling at high latitudes

The novel HALO mini-DOAS instrument: inferring trace gas concentrations from airborne UV/visible limb spectroscopy under all skies using the scaling method

Quantification and mitigation of the impact of scene inhomogeneity on Sentinel-4 UVN UV-VIS retrievals

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