Abstract
Offsetting nation-wide CO2 emissions by carbon sinks from land use change (LUC), e.g. agricultural fields extensification and afforestation, is considered as a major climate change mitigation option. We evaluated the LUC potential for reducing emissions and creating annual soil and ecosystem carbon sinks in Finland. We used agricultural statistics, the forest growth model MOTTI, the soil carbon model Yasso07, and the RCP8.5 climate scenario.The soil carbon stock (SOC) of extensified grasslands showed on average less carbon loss than cropland, thus reducing future carbon emissions by LUC between 0.17 Mg ha−1 y-1, initially, and 0.08 Mg ha−1 y-1 after 50 years. The annual rate of such carbon gain was in comparison to SOC between 1.4‰ and 0.7‰ which is lower than proposed by the Paris 4‰ initiative for offsetting global anthropogenic CO2 emissions. Furthermore, after afforestation, estimated SOC is expected to increase above pre-LUC levels with 30 years lag. Estimated SOC sink from afforestation when compared to continuous cultivation varied depending on dominant tree species and soil fertility from between 0.19 Mg ha−1 y-1 (1.7‰ for spruce in medium fertile soil) to 0.46 Mg ha−1 y-1 (3.7‰ for silver birch in highly fertile soil). Future total soil and biomass carbon sink attributed to afforestation ranged between 1.65 and 2.44 Mg ha−1 y-1.Combined carbon sinks created by the present LUC could with 30 years lag offset annually between 0.01 and 4% of the present national net CO2 emissions in Finland. The long delay and a small scale of potential future carbon emission reduction by the LUC highlighted the importance of employing additional tools to reach the national neutrality targets due in next 15 or 30 years.
Highlights
The Paris climate agreement has set a target to reduce greenhouse emissions to levels that will limit global temperature increase to 1.5◦Celsius above pre-industrial levels (UNFCCC, 2015), which requires emission reductions by about 45% from 2010 levels by 2030 and reaching net zero emissions by around 2050 (IPCC, 2018a; IPCC, 2018b)
Loss calculated as the running mean of annual SOC change (ΔSOC) in Southern Finland was after 5 years in 1905 as high as 2.2 and 1.6 Mg ha− 1 y-1 but over 100 years declined to 1.0 Mg ha− 1 y-1
Our results show that mineral soil croplands, which are currently greenhouse gas (GHG) emission sources, can be converted into relatively strong carbon sinks by afforestation with either Norway spruce or silver birch
Summary
The Paris climate agreement has set a target to reduce greenhouse emissions to levels that will limit global temperature increase to 1.5◦Celsius above pre-industrial levels (UNFCCC, 2015), which requires emission reductions by about 45% from 2010 levels by 2030 and reaching net zero emissions by around 2050 (IPCC, 2018a; IPCC, 2018b). Strategies to achieve this goal include improved climate-smart land management approaches such as different combinations of refor estation, afforestation, reduced deforestation, and utilization of bio energy alternatives (IPCC, 2019a). Options for the utilization of excess areas include exten sification of cropland to grassland as well as afforestation
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