About

Why is information on burned areas needed?

It is estimated, that about 25%-35% of Greenhouse gases (GHG) result from biomass burning and therefore they are considered an important factor in climate change (GTOS 68, T13 Fire Disturbance).

Aims of the FireCCI project

Current global burned area products already exist, but the FireCCI project aims to improve consistency, using better algorithms for both pre-processing and burned area detection while incorporating error characterisation in their product.

The project team, led by University of Alcala (Spain), focuses on the following issues relating to Fire disturbance:

• Analysis and specification of scientific requirements relating to climate
• Development and improvement of pre-processing and burned area algorithms
• Inter-comparison and selection of burned area algorithms
• System prototyping and production of burned area datasets
• Product validation and product assessment

More specifically, the project team aims to:

• Develop and validate algorithms to meet, as far as possible, GCOS Essential Climate Variable (ECV) requirements for (consistent, stable, error-characterized) global satellite data products from multi-sensor data archives
• Produce and validate, within a research and development context, the most complete and consistent possible time series of multi-sensor global satellite data products for climate research and modelling
• Optimise the impact of ESA Earth Observation (EO) missions data on climate data records
• Strengthen inter-disciplinary cooperation between international earth observation, climate research and modelling communities, in pursuit of scientific excellence.

The project focuses on the key variable "burned area". It will incorporate active fire observations as a supplemental variable to improve detection of burned area across varying biomes.

Global Burned Area products – Output of the FireCCI Project

Global burned area products are delivered in two formats as a result of the project:

• Pixel product, with a resolution of 250-300 metres, including the date of detection, the confidence level and the land cover corresponding to the burned pixel. Each dataset contains one month of information, and it is divided in 6 sub-continental GeoTIFF files.
• Grid product, with a resolution of 0.25 degrees, and the following information in each grid cell: sum of burned area, standard error, fraction of burnable area, fraction of observed area, and sum of burned area for each land cover class.

Complementary, a Small Fire Dataset (SFD) product has been generated, using Sentinel-2 information at 20-metre spatial resolution, and covering Sub-Saharan Africa for the years 2016 and 2019. As additional information, a test burned area derived from Sentinel-1 has also been obtained for Tropical South America. Three test sites in Siberia, Sahel and the Amazon are being used to produce a burned area product combining the long time series of Landsat and Sentinel-2.