The carbon balance indicates how much carbon is sequestered or released by forests each year. This enables the carbon balance to be displayed on digital maps, with an accuracy of up to ten meters.
The technique involves mapping the key features of forest areas and forests – such as the location, main tree species, height and biomass – from images provided by the European Sentinel satellites. These digital images are fed into a model, alongside climate data. The result is carbon sequestration maps. Such maps reveal which areas are carbon sinks or carbon sources. This information can be used for activities such as planning forest management and assessing climate impacts.
The simplest maps show the amount of carbon sequestered through photosynthesis, but take no account of carbon released by the decomposition of organic matter. More refined products take account of carbon released by living plants and carbon emissions from the soil. They provide a more precise idea of the carbon balance, but require the best source data. It was possible to create more advanced carbon balance maps of Finnish territory because sufficient ground reference data was available for guiding satellite image interpretation.
“The partners in the project developed advanced methods of interpreting satellite and drone images. The University of Helsinki did the computing for the final carbon balance maps, based on VTT’s satellite image interpretation. We had to invent a new approach to processing such huge quantities of data,” says Research Professor Tuomas Hame.
The University of Helsinki also developed a new way of using its carbon balance model to forecast growing stock volumes. The growing stock estimates for Finland yielded almost the same result as national forest inventories.
At their most detailed, the maps had a resolution of ten meters. Coarser maps with a resolution of 500 meters were used to calculate the balance for the entire boreal coniferous forest zone from Iceland to the Urals. The same techniques could be used for satellite image interpretation and assessing the carbon balance, despite the major differences in image resolutions.
The Sentinel satellite series forms the central part of the Copernicus Programme of the EU and the European Space Agency (ESA), which will provide free satellite data from across the globe over the forthcoming decades. The current total budget for the programme is over seven billion euros.
A prediction of net primary production of forest for Finland, calculated based on VTT’s satellite image interpretation and the University of Helsinki’s model. The intensity of the green colour indicates the quantity of carbon sequestration during the year. The estimate quantifies the carbon balance of living vegetation, without carbon dioxide release from the soil.