Soil modeling to help curb climate change
- Date:
- September 26, 2016
- Source:
- Natural Resources Institute Finland
- Summary:
- Soil is a major carbon pool, whose impact on climate change is still not fully understood. According to a recent study, however, soil carbon stocks and could be modeled more accurately by factoring in the impacts of both soil nutrient status and soil composition. Determining the volume of carbon dioxide efflux from soil is important to enabling better choices in forest management with respect to curbing climate change.
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Soil is a major carbon pool, whose impact on climate change is still not fully understood. According to a recent study, however, soil carbon stocks and could be modelled more accurately by factoring in the impacts of both soil nutrient status and soil composition. Determining the volume of carbon dioxide efflux from soil is important to enabling better choices in forest management with respect to curbing climate change. Knowledge of the extent and regional variation of soil carbon stocks is vital. Current soil carbon stock predictions are unreliable and it is difficult to estimate the volume of carbon dioxide efflux that is emitted from soil as a result of climate change.
The study, which was a joint venture of the Natural Resources Institute Finland (Luke), the Swedish University of Agricultural Sciences (SLU) and the Japanese Forestry and Forest Products Research Institute (FFPRI), focused on analysing a Swedish soil carbon inventory data set and comparing actual soil carbon measurements to soil carbon models.
Limitations of soil carbon models
The study revealed that the models predicted accurate soil carbon stock levels in typical barren and mesotrophic forests. The carbon stocks of fertile and fine soils, on the other hand, were underestimated in the models.
The soil carbon stock predictions of the models were mainly dependent on the quantity and quality of the litter generated by vegetation. This leads us to the conclusion that the models are incapable of predicting carbon stocks deeper within fertile and fine-grained soils.
"Incorporating the long-term effects of carbon into the models would make them more accurate and allow us to predict the carbon cycle more reliably in the future," explains Senior Research Scientist Aleksi Lehtonen from the Natural Resources Institute Finland, who contributed to the study.
Story Source:
Materials provided by Natural Resources Institute Finland. Note: Content may be edited for style and length.
Journal Reference:
- Boris Ťupek, Carina A. Ortiz, Shoji Hashimoto, Johan Stendahl, Jonas Dahlgren, Erik Karltun, Aleksi Lehtonen. Underestimation of boreal soil carbon stocks by mathematical soil carbon models linked to soil nutrient status. Biogeosciences, 2016; 13 (15): 4439 DOI: 10.5194/bg-13-4439-2016
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