diff --git a/sentinel-5p/s5p_l2_aerai.json b/sentinel-5p/s5p_l2_aerai.json new file mode 100644 index 0000000..75b6ff3 --- /dev/null +++ b/sentinel-5p/s5p_l2_aerai.json @@ -0,0 +1,127 @@ +{ + "id":, + "name": "S5P_L2_AER_AI_NRTI", + "title": "Sentinel5P - Level-2 - Ultra violet aerosol index", + "description": "Aerosol index with a spatial resolution of 5.5×3.5km2 observed from spectra measured by TROPOMI", + "temporal_composition_schema": null, + "composition_function": null, + "grid_ref_sys": null, + "collection_type": "collection", + "metadata": { + "providers": [ + { + "name": "European Space Agency (ESA)", + "roles": [ + "producer", + "licensor" + ], + "url": "https://earth.esa.int/" + }, + { + "name": "National Institute for Space Research (INPE)", + "roles": [ + "host" + ], + "url": "https://data.inpe.br/big/" + } + ], + "license": { + "type": "proprietary", + "uri": "https://sentinels.copernicus.eu/documents/247904/690755/Sentinel_Data_Legal_Notice" + } + }, + "keywords": [ + "sentinel", + "sentinel-5p", + "level-2", + "aerosol index", + "earth observation" + ], + "is_public": true, + "is_available": true, + "category": "eo", + "version": 1, + "version_predecessor": null, + "version_successor": null, + "bands": [ + { + "name": "aerosol_index_335_367", + "common_name": "UV aerosol index from 367 and 335 nm (unitless)", + "description": "The Aerosol Index (AI) is a qualitative index indicating the presence of elevated layers of aerosols in the atmosphere. It can be used to detect the presence of UV absorbing aerosols such as desert dust and volcanic ash plumes. Positive values (from light blue to red) indicate the presence of UV-absorbing aerosol.", + "min_value": -1, + "max_value": 5, + "nodata": 9.96921e+36, + "scale": 1, + "data_type": "float", + "mime_type": "application/x-netcdf4", + "resolution_x": 5.5, + "resolution_y": 3.5, + "resolution_unit": "Kilometer", + "center_wavelength": 0.351, + "full_width_half_max": 0.54 + }, + { + "name": "aerosol_index_340_380", + "common_name": "UV aerosol index from 380 and 340 nm (unitless)", + "description": "The Aerosol Index (AI) is a qualitative index indicating the presence of elevated layers of aerosols in the atmosphere. It can be used to detect the presence of UV absorbing aerosols such as desert dust and volcanic ash plumes. Positive values (from light blue to red) indicate the presence of UV-absorbing aerosol.", + "min_value": -1, + "max_value": 5, + "nodata": 9.96921e+36, + "scale": 1, + "data_type": "float", + "mime_type": "application/x-netcdf4", + "resolution_x": 5.5, + "resolution_y": 3.5, + "resolution_unit": "Kilometer", + "center_wavelength": 0.360, + "full_width_half_max": 0.54 + }, + { + "name": "aerosol_index_354_388", + "common_name": "UV aerosol index from 388 and 354 nm (unitless)", + "description": "The Aerosol Index (AI) is a qualitative index indicating the presence of elevated layers of aerosols in the atmosphere. It can be used to detect the presence of UV absorbing aerosols such as desert dust and volcanic ash plumes. Positive values (from light blue to red) indicate the presence of UV-absorbing aerosol.", + "min_value": -1, + "max_value": 5, + "nodata": 9.96921e+36, + "scale": 1, + "data_type": "float", + "mime_type": "application/x-netcdf4", + "resolution_x": 5.5, + "resolution_y": 3.5, + "resolution_unit": "Kilometer", + "center_wavelength": 0.371, + "full_width_half_max": 0.54 + } + ], + "summaries": { + "platform": [ + "sentinel-5p" + ], + "constellation": [ + "sentinel-5p" + ], + "instruments": [ + "tropomi" + ], + "gsd": [ + null + ], + "view:off_nadir": [ + 0 + ] + }, + "item_assets": { + "cloud": { + "type": "application/x-netcdf", + "roles": [ + "data" + ] + } + }, + "properties": { + "sources": [ + "https://dataspace.copernicus.eu/" + ] + } +} + diff --git a/sentinel-5p/s5p_l2_aerlh.json b/sentinel-5p/s5p_l2_aerlh.json new file mode 100644 index 0000000..085a9a1 --- /dev/null +++ b/sentinel-5p/s5p_l2_aerlh.json @@ -0,0 +1,111 @@ +{ + "id":, + "name": "S5P_L2_AER_LH_NRTI", + "title": "Sentinel5P - Level-2 - Aerosol layer height", + "description": "Altitude of elevated aerosol layer for cloud-free observations with a spatial resolution of 5.5×3.5km2 observed from spectra measured by TROPOMI", + "temporal_composition_schema": null, + "composition_function": null, + "grid_ref_sys": null, + "collection_type": "collection", + "metadata": { + "providers": [ + { + "name": "European Space Agency (ESA)", + "roles": [ + "producer", + "licensor" + ], + "url": "https://earth.esa.int/" + }, + { + "name": "National Institute for Space Research (INPE)", + "roles": [ + "host" + ], + "url": "https://data.inpe.br/big/" + } + ], + "license": { + "type": "proprietary", + "uri": "https://sentinels.copernicus.eu/documents/247904/690755/Sentinel_Data_Legal_Notice" + } + }, + "keywords": [ + "sentinel", + "sentinel-5p", + "level-2", + "aerosol layer height", + "earth observation" + ], + "is_public": true, + "is_available": true, + "category": "eo", + "version": 1, + "version_predecessor": null, + "version_successor": null, + "bands": [ + { + "name": "aerosol_mid_height", + "common_name": "Height at center of aerosol layer relative to geoid (meters)", + "description": "The aerosol layer mid pressure (pmid) is converted into an aerosol layer mid altitude (zmid) using an appropriate temperature profile, i.e. the temperature profile used in the retrieval. The value is given relative to the geoid", + "min_value": 0, + "max_value": 10000, + "nodata": 9.96921e+36, + "scale": 1, + "data_type": "float", + "mime_type": "application/x-netcdf4", + "resolution_x": 5.5, + "resolution_y": 3.5, + "resolution_unit": "Kilometer", + "center_wavelength": null, + "full_width_half_max": null + }, + { + "name": "aerosol_mid_pressure", + "common_name": "Air_pressure_at_center_of_aerosol_layer, never higher than surface pressure (Pa)", + "description": "Mid pressure of an aerosol layer with an assumed pressure thickness of (currently) 50 hPa and a constant aerosol volume extinction coefficient and single scattering albedo. Mid pressure is equal to top pressure plus bottom pressure divided by two.", + "min_value": 150, + "max_value": 1050, + "nodata": 9.96921e+36, + "scale": 1, + "data_type": "float", + "mime_type": "application/x-netcdf4", + "resolution_x": 5.5, + "resolution_y": 3.5, + "resolution_unit": "Kilometer", + "center_wavelength": null, + "full_width_half_max": null + } + ], + "summaries": { + "platform": [ + "sentinel-5p" + ], + "constellation": [ + "sentinel-5p" + ], + "instruments": [ + "tropomi" + ], + "gsd": [ + null + ], + "view:off_nadir": [ + 0 + ] + }, + "item_assets": { + "cloud": { + "type": "application/x-netcdf", + "roles": [ + "data" + ] + } + }, + "properties": { + "sources": [ + "https://dataspace.copernicus.eu/" + ] + } +} + diff --git a/sentinel-5p/s5p_l2_cloud.json b/sentinel-5p/s5p_l2_cloud.json new file mode 100644 index 0000000..e44e080 --- /dev/null +++ b/sentinel-5p/s5p_l2_cloud.json @@ -0,0 +1,175 @@ +{ + "id":, + "name": "S5P_L2_CLOUD_NRTI", + "title": "Sentinel5P - Level-2 - Cloud Near Real Time", + "description": "Cloud fraction, cloud pressure and cloud albedo with a spatial resolution of 7×7km2 observed from spectra measured by TROPOMI", + "temporal_composition_schema": null, + "composition_function": null, + "grid_ref_sys": null, + "collection_type": "collection", + "metadata": { + "providers": [ + { + "name": "European Space Agency (ESA)", + "roles": [ + "producer", + "licensor" + ], + "url": "https://earth.esa.int/" + }, + { + "name": "National Institute for Space Research (INPE)", + "roles": [ + "host" + ], + "url": "https://data.inpe.br/big/" + } + ], + "license": { + "type": "proprietary", + "uri": "https://sentinels.copernicus.eu/documents/247904/690755/Sentinel_Data_Legal_Notice" + } + }, + "keywords": [ + "sentinel", + "sentinel-5p", + "level-2", + "cloud near real time", + "earth observation" + ], + "is_public": true, + "is_available": true, + "category": "eo", + "version": 1, + "version_predecessor": null, + "version_successor": null, + "bands": [ + { + "name": "cloud_base_height", + "common_name": "Cloud Base Height", + "description": "Height of a cloud base in meters", + "min_value": 0, + "max_value": 20000, + "nodata": 9.96921e+36, + "scale": 1, + "data_type": "float", + "mime_type": "application/x-netcdf4", + "resolution_x": 7, + "resolution_y": 7, + "resolution_unit": "Kilometer", + "center_wavelength": null, + "full_width_half_max": null + }, + { + "name": "cloud_base_pressure", + "common_name": "Cloud Base Pressure", + "description": "Air pressure measured at the base of a cloud in Pascal (Pa)", + "min_value": 1000, + "max_value": 110000, + "nodata": 9.96921e+36, + "scale": 1, + "data_type": "float", + "mime_type": "application/x-netcdf4", + "resolution_x": 7, + "resolution_y": 7, + "resolution_unit": "Kilometer", + "center_wavelength": null, + "full_width_half_max": null + }, + { + "name": "cloud_fraction", + "common_name": "Effective Radiometric Cloud Fraction", + "description": "Represents the portion of the Earth is surface covered by clouds, divided by the total surface. Clouds have shielding, albedo, and in-cloud absorption effects on trace gas retrieval. The effective radiometric cloud fraction is an important parameter to correct these effects.", + "min_value": 0, + "max_value": 1, + "nodata": 9.96921e+36, + "scale": 1, + "data_type": "float", + "mime_type": "application/x-netcdf4", + "resolution_x": 7, + "resolution_y": 7, + "resolution_unit": "Kilometer", + "center_wavelength": null, + "full_width_half_max": null + }, + { + "name": "cloud_optical_thickness", + "common_name": "Cloud Optical Thickness", + "description": "The cloud thickness is a key parameter to characterise optical properties of clouds. It is a measure of how much sunlight passes through the cloud to reach Earth’s surface. The higher a cloud’s optical thickness, the more sunlight the cloud is scattering and reflecting. Dark blue shows where there are low cloud optical thickness values and red shows larger cloud optical thickness.", + "min_value": 0, + "max_value": 250, + "nodata": 9.96921e+36, + "scale": 1, + "data_type": "float", + "mime_type": "application/x-netcdf4", + "resolution_x": 7, + "resolution_y": 7, + "resolution_unit": "Kilometer", + "center_wavelength": null, + "full_width_half_max": null + }, + { + "name": "cloud_top_height", + "common_name": "Cloud Top Height", + "description": "Height of a cloud top in meters", + "min_value": 0, + "max_value": 20000, + "nodata": 9.96921e+36, + "scale": 1, + "data_type": "float", + "mime_type": "application/x-netcdf4", + "resolution_x": 7, + "resolution_y": 7, + "resolution_unit": "Kilometer", + "center_wavelength": null, + "full_width_half_max": null + }, + { + "name": "cloud_top_pressure", + "common_name": "Cloud Top Pressure", + "description": "Air pressure measured at the top of a cloud in Pascal (Pa)", + "min_value": 1000, + "max_value": 110000, + "nodata": 9.96921e+36, + "scale": 1, + "data_type": "float", + "mime_type": "application/x-netcdf4", + "resolution_x": 7, + "resolution_y": 7, + "resolution_unit": "Kilometer", + "center_wavelength": null, + "full_width_half_max": null + } + ], + "summaries": { + "platform": [ + "sentinel-5p" + ], + "constellation": [ + "sentinel-5p" + ], + "instruments": [ + "tropomi" + ], + "gsd": [ + null + ], + "view:off_nadir": [ + 0 + ] + }, + "item_assets": { + "cloud": { + "type": "application/x-netcdf", + "roles": [ + "data" + ] + } + }, + "properties": { + "sources": [ + "https://dataspace.copernicus.eu/" + ] + } +} + diff --git a/sentinel-5p/s5p_l2_co.json b/sentinel-5p/s5p_l2_co.json new file mode 100644 index 0000000..e4769c6 --- /dev/null +++ b/sentinel-5p/s5p_l2_co.json @@ -0,0 +1,95 @@ +{ + "id":, + "name": "S5P_L2_CO", + "title": "Sentinel5P - Level-2 - Carbon monoxide", + "description": "Carbon monoxide (CO) is an important atmospheric trace gas. In certain urban areas, it is a major atmospheric pollutant. Main sources of CO are combustion of fossil fuels, biomass burning, and atmospheric oxidation of methane and other hydrocarbons. The carbon monoxide total column is measured in mol per square meter (mol/ m^2)", + "temporal_composition_schema": null, + "composition_function": null, + "grid_ref_sys": null, + "collection_type": "collection", + "metadata": { + "providers": [ + { + "name": "European Space Agency (ESA)", + "roles": [ + "producer", + "licensor" + ], + "url": "https://earth.esa.int/" + }, + { + "name": "National Institute for Space Research (INPE)", + "roles": [ + "host" + ], + "url": "https://data.inpe.br/big/" + } + ], + "license": { + "type": "proprietary", + "uri": "https://sentinels.copernicus.eu/documents/247904/690755/Sentinel_Data_Legal_Notice" + } + }, + "keywords": [ + "sentinel", + "sentinel-5p", + "level-2", + "carbon monoxide", + "earth observation" + ], + "is_public": true, + "is_available": true, + "category": "eo", + "version": 1, + "version_predecessor": null, + "version_successor": null, + "bands": [ + { + "name": "carbonmonoxide_total_column", + "common_name": "Carbon monoxide total column (mol/m2)", + "description": "atmosphere_mole_content_of_carbon_monoxide", + "min_value": 0, + "max_value": 0.1, + "nodata": 9.96921e+36, + "scale": 1, + "data_type": "float", + "mime_type": "application/x-netcdf4", + "resolution_x": 7, + "resolution_y": 5.5, + "resolution_unit": "Kilometer", + "center_wavelength": null, + "full_width_half_max": null + } + ], + "summaries": { + "platform": [ + "sentinel-5p" + ], + "constellation": [ + "sentinel-5p" + ], + "instruments": [ + "tropomi" + ], + "gsd": [ + null + ], + "view:off_nadir": [ + 0 + ] + }, + "item_assets": { + "cloud": { + "type": "application/x-netcdf", + "roles": [ + "data" + ] + } + }, + "properties": { + "sources": [ + "https://dataspace.copernicus.eu/" + ] + } +} + diff --git a/sentinel-5p/s5p_l2_hcho.json b/sentinel-5p/s5p_l2_hcho.json new file mode 100644 index 0000000..72950ec --- /dev/null +++ b/sentinel-5p/s5p_l2_hcho.json @@ -0,0 +1,95 @@ +{ + "id":, + "name": "S5P_L2_HCHO", + "title": "Sentinel5P - Level-2 - Formaldehyde", + "description": "Long term satellite observations of tropospheric formaldehyde (HCHO) are essential to support air quality and chemistry-climate related studies from the regional to the global scale. The seasonal and inter-annual variations of the formaldehyde distribution are principally related to temperature changes and fire events, but also to changes in anthropogenic (human-made) activities. Its lifetime being of the order of a few hours, HCHO concentrations in the boundary layer can be directly related to the release of short-lived hydrocarbons, which mostly cannot be observed directly from space. Measurements are in mol per square meter (mol/ m^2)", + "temporal_composition_schema": null, + "composition_function": null, + "grid_ref_sys": null, + "collection_type": "collection", + "metadata": { + "providers": [ + { + "name": "European Space Agency (ESA)", + "roles": [ + "producer", + "licensor" + ], + "url": "https://earth.esa.int/" + }, + { + "name": "National Institute for Space Research (INPE)", + "roles": [ + "host" + ], + "url": "https://data.inpe.br/big/" + } + ], + "license": { + "type": "proprietary", + "uri": "https://sentinels.copernicus.eu/documents/247904/690755/Sentinel_Data_Legal_Notice" + } + }, + "keywords": [ + "sentinel", + "sentinel-5p", + "level-2", + "Formaldehyde", + "earth observation" + ], + "is_public": true, + "is_available": true, + "category": "eo", + "version": 1, + "version_predecessor": null, + "version_successor": null, + "bands": [ + { + "name": "formaldehyde_tropospheric_vertical_column", + "common_name": "Formaldehyde troposheric vertical column (mol/m2)", + "description": "troposphere_mole_content_of_formaldehyde", + "min_value": 0, + "max_value": 0.001, + "nodata": 9.96921e+36, + "scale": 1, + "data_type": "float", + "mime_type": "application/x-netcdf4", + "resolution_x": 7, + "resolution_y": 5.5, + "resolution_unit": "Kilometer", + "center_wavelength": null, + "full_width_half_max": null + } + ], + "summaries": { + "platform": [ + "sentinel-5p" + ], + "constellation": [ + "sentinel-5p" + ], + "instruments": [ + "tropomi" + ], + "gsd": [ + null + ], + "view:off_nadir": [ + 0 + ] + }, + "item_assets": { + "cloud": { + "type": "application/x-netcdf", + "roles": [ + "data" + ] + } + }, + "properties": { + "sources": [ + "https://dataspace.copernicus.eu/" + ] + } +} + diff --git a/sentinel-5p/s5p_l2_no2.json b/sentinel-5p/s5p_l2_no2.json new file mode 100644 index 0000000..027af3e --- /dev/null +++ b/sentinel-5p/s5p_l2_no2.json @@ -0,0 +1,95 @@ +{ + "id":, + "name": "S5P_L2_NO2", + "title": "Sentinel5P - Level-2 - Nitrogen oxide", + "description": "Methane is, after carbon dioxide, the most important contributor to the anthropogenically (caused by human activity) enhanced greenhouse effect. Measurements are provided in parts per billion (ppb) with a spatial resolution of 7 km x 3.5 km", + "temporal_composition_schema": null, + "composition_function": null, + "grid_ref_sys": null, + "collection_type": "collection", + "metadata": { + "providers": [ + { + "name": "European Space Agency (ESA)", + "roles": [ + "producer", + "licensor" + ], + "url": "https://earth.esa.int/" + }, + { + "name": "National Institute for Space Research (INPE)", + "roles": [ + "host" + ], + "url": "https://data.inpe.br/big/" + } + ], + "license": { + "type": "proprietary", + "uri": "https://sentinels.copernicus.eu/documents/247904/690755/Sentinel_Data_Legal_Notice" + } + }, + "keywords": [ + "sentinel", + "sentinel-5p", + "level-2", + "nitrogen oxide", + "earth observation" + ], + "is_public": true, + "is_available": true, + "category": "eo", + "version": 1, + "version_predecessor": null, + "version_successor": null, + "bands": [ + { + "name": "nitrogendioxide_tropospheric_column", + "common_name": "Nitrogen dioxide tropospheric column (mol/m2)", + "description": "Tropospheric vertical column of nitrogen dioxide", + "min_value": 0, + "max_value": 0.0003, + "nodata": 9.96921e+36, + "scale": 1, + "data_type": "float", + "mime_type": "application/x-netcdf4", + "resolution_x": 7, + "resolution_y": 3.5, + "resolution_unit": "Kilometer", + "center_wavelength": null, + "full_width_half_max": null + } + ], + "summaries": { + "platform": [ + "sentinel-5p" + ], + "constellation": [ + "sentinel-5p" + ], + "instruments": [ + "tropomi" + ], + "gsd": [ + null + ], + "view:off_nadir": [ + 0 + ] + }, + "item_assets": { + "cloud": { + "type": "application/x-netcdf", + "roles": [ + "data" + ] + } + }, + "properties": { + "sources": [ + "https://dataspace.copernicus.eu/" + ] + } +} + diff --git a/sentinel-5p/s5p_l2_o3.json b/sentinel-5p/s5p_l2_o3.json new file mode 100644 index 0000000..720b782 --- /dev/null +++ b/sentinel-5p/s5p_l2_o3.json @@ -0,0 +1,95 @@ +{ + "id":, + "name": "S5P_L2_O3", + "title": "Sentinel5P - Level-2 - Ozone", + "description": "Ozone is of crucial importance for the equilibrium of the Earth atmosphere. In the stratosphere, the ozone layer shields the biosphere from dangerous solar ultraviolet radiation. In the troposphere, it acts as an efficient cleansing agent, but at high concentration it also becomes harmful to the health of humans, animals, and vegetation. Ozone is also an important greenhouse-gas contributor to ongoing climate change. Since the discovery of the Antarctic ozone hole in the 1980s and the subsequent Montreal Protocol regulating the production of chlorine-containing ozone-depleting substances, ozone has been routinely monitored from the ground and from space. Measurements are in mol per square meter (mol/ m^2)", + "temporal_composition_schema": null, + "composition_function": null, + "grid_ref_sys": null, + "collection_type": "collection", + "metadata": { + "providers": [ + { + "name": "European Space Agency (ESA)", + "roles": [ + "producer", + "licensor" + ], + "url": "https://earth.esa.int/" + }, + { + "name": "National Institute for Space Research (INPE)", + "roles": [ + "host" + ], + "url": "https://data.inpe.br/big/" + } + ], + "license": { + "type": "proprietary", + "uri": "https://sentinels.copernicus.eu/documents/247904/690755/Sentinel_Data_Legal_Notice" + } + }, + "keywords": [ + "sentinel", + "sentinel-5p", + "level-2", + "ozone", + "earth observation" + ], + "is_public": true, + "is_available": true, + "category": "eo", + "version": 1, + "version_predecessor": null, + "version_successor": null, + "bands": [ + { + "name": "ozone_total_vertical_column", + "common_name": "Ozone total column (mol/m2)", + "description": "total ozone column", + "min_value": 0, + "max_value": 0.36, + "nodata": 9.96921e+36, + "scale": 1, + "data_type": "float", + "mime_type": "application/x-netcdf4", + "resolution_x": 5.5, + "resolution_y": 3.5, + "resolution_unit": "Kilometer", + "center_wavelength": null, + "full_width_half_max": null + } + ], + "summaries": { + "platform": [ + "sentinel-5p" + ], + "constellation": [ + "sentinel-5p" + ], + "instruments": [ + "tropomi" + ], + "gsd": [ + null + ], + "view:off_nadir": [ + 0 + ] + }, + "item_assets": { + "cloud": { + "type": "application/x-netcdf", + "roles": [ + "data" + ] + } + }, + "properties": { + "sources": [ + "https://dataspace.copernicus.eu/" + ] + } +} + diff --git a/sentinel-5p/s5p_l2_so2.json b/sentinel-5p/s5p_l2_so2.json new file mode 100644 index 0000000..50e3314 --- /dev/null +++ b/sentinel-5p/s5p_l2_so2.json @@ -0,0 +1,95 @@ +{ + "id":, + "name": "S5P_L2_SO2", + "title": "Sentinel5P - Level-2 - Sulphur dioxide", + "description": "Sulphur dioxide enters the Earth’s atmosphere through both natural and anthropogenic (human made) processes. It plays a role in chemistry on a local and global scale and its impact ranges from short term pollution to effects on climate. Only about 30% of the emitted SO2 comes from natural sources; the majority is of anthropogenic origin. Sentinel-5P/TROPOMI instrument samples the Earth’s surface with a revisit time of one day with a spatial resolution of 3.5 x 7 km which allows the resolution of fine details including the detection of smaller SO2 plumes. Measurements are in mol per square meter (mol/ m^2)", + "temporal_composition_schema": null, + "composition_function": null, + "grid_ref_sys": null, + "collection_type": "collection", + "metadata": { + "providers": [ + { + "name": "European Space Agency (ESA)", + "roles": [ + "producer", + "licensor" + ], + "url": "https://earth.esa.int/" + }, + { + "name": "National Institute for Space Research (INPE)", + "roles": [ + "host" + ], + "url": "https://data.inpe.br/big/" + } + ], + "license": { + "type": "proprietary", + "uri": "https://sentinels.copernicus.eu/documents/247904/690755/Sentinel_Data_Legal_Notice" + } + }, + "keywords": [ + "sentinel", + "sentinel-5p", + "level-2", + "sulphur dioxide", + "earth observation" + ], + "is_public": true, + "is_available": true, + "category": "eo", + "version": 1, + "version_predecessor": null, + "version_successor": null, + "bands": [ + { + "name": "sulfurdioxide_total_vertical_column", + "common_name": "Sulfur dioxide total column (mol/m2)", + "description": "total vertical column of sulfur dioxide for the polluted scenario derived from the total slant column", + "min_value": 0, + "max_value": 0.01, + "nodata": 9.96921e+36, + "scale": 1, + "data_type": "float", + "mime_type": "application/x-netcdf4", + "resolution_x": 5.5, + "resolution_y": 3.5, + "resolution_unit": "Kilometer", + "center_wavelength": null, + "full_width_half_max": null + } + ], + "summaries": { + "platform": [ + "sentinel-5p" + ], + "constellation": [ + "sentinel-5p" + ], + "instruments": [ + "tropomi" + ], + "gsd": [ + null + ], + "view:off_nadir": [ + 0 + ] + }, + "item_assets": { + "cloud": { + "type": "application/x-netcdf", + "roles": [ + "data" + ] + } + }, + "properties": { + "sources": [ + "https://dataspace.copernicus.eu/" + ] + } +} +