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Carbon sequestration in primary and old-growth forests in Europe is much higher than previously thought

Európai öreg erdők szénmegkötő kapacitása - erdő színes lombokkal

The first pan-European study of its kind (Keith, H., Z. Kun, S. Hugh et al. 2024 – nature, communications earth & environment) calculated that Europe’s existing forests could sequester up to 309 megatons of carbon dioxide per year for 150 years if the use of these forests were abandoned and we let them continue to grow and re-grow.. This is equivalent to the CO2 reduction rate targeted in the European Green Deal for the LULUCF sector by 2030 (310 Mt/ha) and is greater than the current level of sequestration of managed forests in Europe (289 Mt/ha).

The authors calculated the amount of carbon stored in above-ground, below-ground and dead biomass from survey data on 288,262 trees in the remaining European primeval and old-growth forests in 27 countries, on 7,982 plots.

Surveyed primary and old-growth forest stands on Europe’s forest cover map

The carbon stocks and carbon sequestration capacities of naturally functioning primary and old-growth forest ecosystems composed of native trees are essential benchmarks. The authors calculated this benchmark forecological zones and forest types, ranging from low-productivity alpine birch forest in Sweden to the highest productivity  mixed spruce-fir-beech forests in Bosnia-Herzegovina. Based on this, the predicted carbon carrying capacity of primary and old-growth forests is 22,449 MtC compared to 9,790 MtC in  managed forests.

Aboveground carbon stock per hectare – Hungarian data are in the group of “Temperate continental forest – broadleaf” (case numbers are given in the columns)

The GlobBiomass and GeoCarbon projects have so far significantly underestimated forest carbon stocks in all forest types compared to data from primeval and old-growth forest.Therefore global models and parameters need to be developed and revised. Analysis of the tree density, diameter distribution and biomass of standing trees has shown that the thickest trees play the largest role in carbon storage, as half of all biomass is stored in trees thicker than 60 cm.

Tree density (light green) and carbon stock (dark green) of primary and old-growth forests by diameter class with the profile of cumulative biomass (red curve)

The protection and restoration of primary and old-growth forests are therefore not only of paramount importance for the conservation and maintenance of biodiversity, but also have an increasing role in mitigating climate change through their huge carbon sequestration and storage potential.

Researchers of the HUN-REN Centre for Ecological Research also contributed to the pan-European study with recent survey data of forest reserves representing the natural conditions of the Carpathian Basin.

The survey of forest reserves is supported by the public monitoring programme of HUN-REN Centre for Ecological Research and the Ministry of Agriculture.

 

Slide photo: Beech forest remnant in the Kékes Forest Reserve (Photo: Attila Bíró)

 

Source: Keith, H., Z. Kun, S. Hugh et al. (2024): Carbon carrying capacity in primary forests shows potential for mitigation achieving the European Green Deal 2030 target. Commun Earth Environ 5, 256 (2024).