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METOP GOME-2 L2C Daily Cloud Optical Thickness (CTP)


DLR
EOC
Atmos
MetOp-A
MetOp-B
MetOp-C
GOME-2
O3M-SAF
Total Column
Atmosphere
Remote Sensing
Daily
Ozone
BrO
NO2
NO2Tropo
H2O
HCHO
SO2
CF
CTP
CTP
Trace gas

The Global Ozone Monitoring Experiment-2 (GOME-2) instrument continues the long-term monitoring of atmospheric trace gas constituents started with GOME / ERS-2 and SCIAMACHY / Envisat. Currently, there are three GOME-2 instruments operating on board EUMETSAT's Meteorological Operational satellites MetOp-A, -B, and -C, launched in October 2006, September 2012, and November 2018, respectively. GOME-2 can measure a range of atmospheric trace constituents, with the emphasis on global ozone distributions. Furthermore, cloud properties and intensities of ultraviolet radiation are retrieved. These data are crucial for monitoring the atmospheric composition and the detection of pollutants. DLR generates operational GOME-2 / MetOp level 2 products in the framework of EUMETSAT's Satellite Application Facility on Atmospheric Chemistry Monitoring (AC-SAF). GOME-2 near-real-time products are available already two hours after sensing.

OCRA (Optical Cloud Recognition Algorithm) and ROCINN (Retrieval of Cloud Information using Neural Networks) are used for retrieving the following geophysical cloud properties from GOME and GOME-2 data: cloud fraction (cloud cover), cloud-top pressure (cloud-top height), and cloud optical thickness (cloud-top albedo). OCRA is an optical sensor cloud detection algorithm that uses the PMD devices on GOME / GOME-2 to deliver cloud fractions for GOME / GOME-2 scenes. ROCINN takes the OCRA cloud fraction as input and uses a neural network training scheme to invert GOME / GOME-2 reflectivities in and around the O2-A band. VLIDORT [Spurr (2006)] templates of reflectances based on full polarization scattering of light are used to train the neural network. ROCINN retrieves cloud-top pressure and cloud-top albedo. The cloud-top pressure for GOME scenes is derived from the cloud-top height provided by ROCINN and an appropriate pressure profile.

For more details please refer to relevant peer-review papers listed on the GOME and GOME-2 documentation pages: href="https://atmos.eoc.dlr.de/app/docs/">https://atmos.eoc.dlr.de/app/docs/.

Contacts:

  • Diego Loyola (Producer, Processor) Atmospheric Processors Department

Properties:

  • Released: 2020-02-22

Items:

MetOp-B GOME-2 L2C Daily CTP

MetOp-B GOME-2 Total Column Cloud Fraction (CTP) Composite Layer

Title: MetOP GOME-2 Cloud Optical Thickness (CTP) WMS Layers
Endpoint: https://geoservice.dlr.de/eoc/atmosphere/wms
Layer: METOP-B_GOME-2_L2C_P1D_CTP
Capabilities: GetCapabilities (XML)
Preview: GetMap (Openlayers)

MetOp-C GOME-2 L2C Daily CTP

MetOp-C GOME-2 Total Column Cloud Fraction (CTP) Composite Layer

Title: MetOP GOME-2 Cloud Optical Thickness (CTP) WMS Layers
Endpoint: https://geoservice.dlr.de/eoc/atmosphere/wms
Layer: METOP-C_GOME-2_L2C_P1D_CTP
Capabilities: GetCapabilities (XML)
Preview: GetMap (Openlayers)

MetOp GOME-2 L2C Daily CTP

MetOp GOME-2 Total Column Cloud Fraction (CTP) Composite Layer

Title: MetOP GOME-2 Cloud Optical Thickness (CTP) WMS Layers
Endpoint: https://geoservice.dlr.de/eoc/atmosphere/wms
Layer: METOP_GOME-2_L2C_P1D_COMB_CTP
Capabilities: GetCapabilities (XML)
Preview: GetMap (Openlayers)