Abstract
Abstract. Soil organic carbon (SOC) plays a crucial role in the global carbon cycle as a potential sink or source. Land management influences SOC storage, so the European Parliament decided in 2013 that changes in carbon stocks within a certain land use type, including arable land, must be reported by all member countries in their national inventory reports for greenhouse gas emissions. Here we show the temporal dynamics of SOC during the past 2 decades in Swedish agricultural soils, based on soil inventories conducted in 1988–1997 (Inventory I), 2001–2007 (Inventory II) and from 2010 onwards (Inventory III), and link SOC changes with trends in agricultural management. From Inventory I to Inventory II, SOC increased in 16 out of 21 Swedish counties, while from Inventory I to Inventory III it increased in 18 out of 21 counties. Mean topsoil (0–20 cm) SOC concentration for the entire country increased from 2.48 to 2.67% C (a relative increase of 7.7%, or 0.38% yr−1) over the whole period. We attributed this to a substantial increase in ley as a proportion of total agricultural area in all counties. The horse population in Sweden has more than doubled since 1981 and was identified as the main driver for this management change (R2 = 0.72). Due to subsidies introduced in the early 1990s, the area of long-term set-aside (mostly old leys) also contributed to the increase in area of ley. The carbon sink function of Swedish agricultural soils demonstrated in this study differs from trends found in neighbouring countries. This indicates that country-specific or local socio-economic drivers for land management must be accounted for in larger-scale predictions.
Highlights
The size of the global soil carbon pool exceeds that of the atmosphere and terrestrial vegetation combined (Lal, 2004)
All countries complying with Annex I of the United Nations Framework Convention on Climate Change (UNFCCC) are obliged to report their annual carbon emissions in national inventory reports (NIRs)
There was a tendency for a negative correlation between mean annual temperature (MAT) and Soil organic carbon (SOC) concentration, but this was not significant
Summary
The size of the global soil carbon pool exceeds that of the atmosphere and terrestrial vegetation combined (Lal, 2004). Agriculture has been identified as the most intensive form of land use, both as regards the fraction of net primary production exported annually (Haberl et al, 2007) and the intensity of mechanical soil disturbance by tillage, which may increase carbon output (Baker et al, 2007). Many countries estimate SOC changes after land use change using default methods (Tier 1) described in the IPCC guidelines on national greenhouse gas inventories (IPCC, 2006). Major trends in SOC due to changes in agricultural land management, e.g. in fertilisation, ploughing depth, residue management, crop rotation or crop type, are overlooked.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
