Nitrogen (N) is often considered to be the major factor limiting tree growth in northern forest

ecosystems. An increased N availability, however, increases the demand for other nutrients

such as base cations and phosphorous (P) which in turn may change which nutrient is the

limiting factor. If P or base cations become limiting, N will start to leach which means a risk

of increased eutrophication of surface waters. As many studies focus on base cations, this

study instead aims at estimating P budgets on a regional scale for different harvesting

scenarios relevant for Swedish conditions.

P budget calculations were carried out for 14,550 coniferous sites from the Swedish National

Forest Inventory, as weathering+deposition–harvesting–leaching. Three scenarios with

different harvest intensities were used: 1) no harvesting, 2) stem harvesting and 3) wholetree

harvesting. The input data were derived from measurements and model results.

The P budget estimates indicate that harvesting, especially whole-tree harvesting, result in

net losses of P in large parts of Sweden. The highest losses were found in southern Sweden

due to high growth rate in this area. In the whole-tree harvesting scenario the losses

exceeded 1 kg ha−1 y−1 on many sites. N budget calculations on the same sites indicate that

N generally accumulates in the whole country and especially in the southern parts.

Consequently, the N and P budget calculations indicate that the forests in southern Sweden

are in a transition phase from N-to P-limitation to growth. This transition will proceed as

long as the accumulation of N continues. These results are important in a sustainable

forestry context, as a basis for assessing the risk of future N leaching, and in designing

recommendations for abatement strategies of N deposition and for application of wood ash

recycling and N fertilization.