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The Global Fire Emissions Indicators, Grids: 1997-2015 contain a time-series of rasters from 1997 to 2015 for total area burned (hectares) and total carbon content (tons). The data are produced by combining 500m MODIS (Moderate-Resolution Imaging Spectroradiometer) burn area maps with active fire data from ATSR (Along-Track Scanning Radiometer) and TRMM (Tropical Rainfall Measuring Mission) VIRS (Visible and Infrared Scanner). The annual total carbon content is for all fire types (Agricultural, Boreal, Tropical Deforestation, Peat, Savanna, and Temperate forests) and represents the total carbon emissions (tons) in each 0.25 degree x 0.25 degree grid cell.
The Country Trends in Major Air Pollutants data set is part of the Air Quality for Health-Related Applications collection. This map represents country changes in Particulate Matter (PM2.5) in micrograms per cubic meter, from the average PM2.5 for the years 2003, 2004, and 2005 to the average PM2.5 for the years 2016, 2017, and 2018.
Quick 360Âş & #3D fly over the Maladeta massif & Posets-Maladeta Nat. Park + #Benasque. Its glacier has recently suffered a drastic degradation đź’§Still an amazing place to visit | #Pirineos - CopernicusEU
#Sentinel2 ️
Aerial Photograph from the DART project sites at Harnhill, CIrencester. Re-used under a creative commons share-a-like licence from Robert Bewley.
The Global Fire Emissions Indicators, Grids: 1997-2015 contain a time-series of rasters from 1997 to 2015 for total area burned (hectares) and total carbon content (tons). The data are produced by combining 500m MODIS (Moderate-Resolution Imaging Spectroradiometer) burn area maps with active fire data from ATSR (Along-Track Scanning Radiometer) and TRMM (Tropical Rainfall Measuring Mission) VIRS (Visible and Infrared Scanner). The annual total carbon content is for all fire types (Agricultural, Boreal, Tropical Deforestation, Peat, Savanna, and Temperate forests) and represents the total carbon emissions (tons) in each 0.25 degree x 0.25 degree grid cell.
Techniques employed 50 years ago included field sketching and time-consuming morphological
mapping, whereas today it is possible to have analysis in real time with data represented in increasingly vivid and striking ways.
Image: A satellite image showing the ash plume from the eruption of Eyjafjallajökull volcano in Iceland, captured on 17 April 2010. The eruption dramatically changed the physical landscape and caused nearly 100,000 flights to be cancelled at the cost of £130 million per day.
Source: Flickr / NASA/MODIS Rapid Response Team
(Licensed under a Creative Commons Attribution licence)
Great teleconference this afternoon discussing Public-Private-Academia Partnerships: today's topic focusing on GPS water vapor observations.
Exciting opportunities for new cos to become involved with CRADAs (Cooperative Research and Development Agreements)
Reference: APAAME_20221123_FB-0312
Photographer: Firas Bqa'in
Credit: APAAME
Copyright: Creative Commons Attribution-Noncommercial-NoDerivative Works
Reference: APAAME_20221121_RHB-0558
Photographer: Robert Bewley
Credit: APAAME
Copyright: Creative Commons Attribution-Noncommercial-NoDerivative Works
Reference: APAAME_20221121_FB-0837
Photographer: Firas Bqa'in
Credit: APAAME
Copyright: Creative Commons Attribution-Noncommercial-NoDerivative Works
Reference: APAAME_20221123_RHB-0066
Photographer: Robert Bewley
Credit: APAAME
Copyright: Creative Commons Attribution-Noncommercial-NoDerivative Works
The Global Fire Emissions Indicators, Grids: 1997-2015 contain a time-series of rasters from 1997 to 2015 for total area burned (hectares) and total carbon content (tons). The data are produced by combining 500m MODIS (Moderate-Resolution Imaging Spectroradiometer) burn area maps with active fire data from ATSR (Along-Track Scanning Radiometer) and TRMM (Tropical Rainfall Measuring Mission) VIRS (Visible and Infrared Scanner). The annual total area burned is for all fire types (Agricultural, Boreal, Tropical Deforestation, Peat, Savanna, and Temperate forests) and represents the total area (hectares) in each 0.25 degree x 0.25 degree grid cell.
These are the LiDARs used to measure the effects of radiation, erosion, and carbon in D’Aguilar National Park in Queensland, Australia, and Karawatha Forest Park in Brisbane, Australia. The Australian Broadcast Corporation (ABC) documented the project: www.abc.net.au/news/2013-08-16/laser-vision-reveals-queen...
Haze from the forest fires blanket most parts of the landscape. The rainfall during the flight also contributed to the limited visibility.
Photo by Aulia Erlangga/CIFOR
If you use one of our photos, please credit it accordingly and let us know. You can reach us through our Flickr account or at: cifor-mediainfo@cgiar.org and m.edliadi@cgiar.org
The Global Summer Land Surface Temperature (LST) Grids, 2013, part of the Satellite-Derived Environmental Indicators collection, estimate daytime (1:30 p.m.) maximum temperature and nighttime (1:30 a.m.) minimum temperature in degrees Celsius at a spatial resolution of ~1km during summer months of the northern and southern hemispheres for the year 2013. The LST grids are produced using the Aqua Level-3 Moderate Resolution Imaging Spectroradiometer (MODIS) Version 5 global daytime and nighttime LST 8-day composite data product (MYD11A2). See more information at dx.doi.org/10.7927/H408638T.