Projected SOC changes by 2070 under the RCP4.5 scenario

This dataset includes the prediction soil Organic Carbon (SOC) in 2070 under the RCP4.5 scenario and the changes compared to 2018 current baseline. Under the RCP4.5 scenario, projected warming over the next 50 years could lead to significant SOC loss around the southern Baltic Sea (55°N-60°N), while regions north of 65°N could experience SOC gain.
Resource Type: 
Datasets
Soil Threats Data
Registration is requested: 
Yes
Year: 
2025
Themes: 
Soil Organic Carbon Content
Soil Organic Carbon ContentTopsoil Soil Organic Carbon (LUCAS)
Keywords: 
organic carbon

Title: Projected Soil Organic Carbon (SOC) changes by 2070 under the RCP4.5 scenario.
Description: Loss of SOC is one of the main threats to European and global soils. The impact of climate change, especially warming, on SOC varies by regions but remains poorly understood. To address this, we used Random Forest (RF) to model SOC in topsoil of Europe based on LUCAS data and applied SHapley Additive exPlanations (SHAP) values to interpret spatial patterns. Key findings show temperature is the predominant factor influencing SOC in northern Europe (north of 55°N). Under the RCP4.5 scenario, projected warming over the next 50 years could lead to significant SOC loss around the southern Baltic Sea (55°N-60°N), while regions north of 65°N could experience SOC gain. Regions between 60°N-65°N would have mixed SOC changes or remain stable. The southern Baltic Sea region, with annual mean temperature of 2.5–7.5 °C, is identified as highly sensitive to SOC loss due to warming. These findings have improved our understanding of the spatially varying SOC-temperature relationships and highlighted the need to consider regional SOC dynamics in future soil management and climate-related policies. 

Spatial coverage: EU and UK
Pixel size: 1km x 1km 
Temporal coverage:  2018-2070
Projection: ETRS 1989 LAEA (EPSG: 3035)

Note: Some areas are not mapped, including those with untrained land cover, parent material, or soil type, elevation >1500 m, or precipitation< 300 mm/year due to limited training data. The projected SOC in 2070 only assumes temperature change under RCP4.5 since the paper focuses on SOC temperature sensitivity.

Reference: Li, Y., Panagos, P., Mezquita, F.Y. and Zhang, C., 2025. Warming could cause significant soil organic carbon loss around the southern Baltic Sea. Journal of Environmental Management, 391: 126488.

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  • The data provided has been prepared for use by internal research activities in the Joint Research Centre (JRC) Ispra.This work was done in collaboration of JRC with University of Galway, Ireland.
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Reference of source (Citations) :

Li, Y., Panagos, P., Mezquita, F.Y. and Zhang, C., 2025. Warming could cause significant soil organic carbon loss around the southern Baltic Sea. Journal of Environmental Management, 391: 126488.

When making reference to the ESDAC

  • Panagos, P., Van Liedekerke, M., Borrelli, P., Köninger, J., Ballabio, C., Orgiazzi, A., Lugato, E., Liakos, L., Hervas, J., Jones, A.  Montanarella, L. 2022. European Soil Data Centre 2.0: Soil data and knowledge in support of the EU policies. European Journal of Soil Science, 73(6), e13315. DOI: 10.1111/ejss.13315
  • Panagos P., Van Liedekerke M., Jones A., Montanarella L., “European Soil Data Centre: Response to European policy support and public data requirements”; (2012) Land Use Policy, 29 (2), pp. 329-338. doi:10.1016/j.landusepol.2011.07.003
  • European Soil Data Centre (ESDAC), esdac.jrc.ec.europa.eu, European Commission, Joint Research Centre