LUP Student Papers

The relationship between biomass and stand age in Swedish forests

• Mark

Abstract

The accumulation of carbon (C) within boreal forest biomass is an important component of the global carbon cycle. Whilst it is understood that old forests contain a large carbon stock, the continued sequestration of carbon in these forests is debated. Swedish forests today are intensively managed as even-aged monocultures with short rotation times and have historically been managed through selective logging. The remaining old-growth forests are therefore distributed in areas of lower productivity and potentially of lower accessibility. Thus, there is a lack of knowledge around the relationship between C storage and stand age in Sweden that accounts for this distribution. In this study, regional normalisation of biomass data was performed... (More)

The accumulation of carbon (C) within boreal forest biomass is an important component of the global carbon cycle. Whilst it is understood that old forests contain a large carbon stock, the continued sequestration of carbon in these forests is debated. Swedish forests today are intensively managed as even-aged monocultures with short rotation times and have historically been managed through selective logging. The remaining old-growth forests are therefore distributed in areas of lower productivity and potentially of lower accessibility. Thus, there is a lack of knowledge around the relationship between C storage and stand age in Sweden that accounts for this distribution. In this study, regional normalisation of biomass data was performed to account for the biased spatial distribution of old forests using a forest inventory of >35,000 temporary plots. A curve to characterise the relationship between biomass and stand age was created by binning the normalised data and plotting against stand age. Further driving factors such as forest class, soil moisture, local elevation and aspect were controlled to determine their effect on the variability of the stand-age-biomass relationship.

It was determined that across Sweden, mean biomass continues to accumulate with stand age in stands of up to at least 260 – 320 years old. The variability of data around the mean could sometimes be explained by differing environmental drivers and in some cases, may be indicative of the historical forest management practices in the area. It is possible that the largest relative biomass values in old forests are found in the areas unsuitable for forestry. This emphasises the importance of conserving the remaining old-growth forests in Sweden, not only as these forests continue to accumulate carbon but also because of their relatively large existing carbon stocks. If there is an age at which the carbon balance of Swedish forests is in equilibrium, it was not determined in this study. (Less)

Popular Abstract

The storage of carbon (C) within forest vegetation is a key component of the global C cycle. Forests are therefore important in the context of climate change mitigation as they remove carbon from the atmosphere into their stems, branches and roots, where it remains stored. It is generally understood that old forests contain a large amount of C, but it is debated whether carbon accumulation continues over time or if these forests reach a limit to their C stock. Most Swedish forests today are managed by planting monocultures and allowing them to grow for 60 – 100 years, before all trees are logged. Historically, they were managed by selecting only the largest and most valuable trees to cut. Therefore, there are few old-growth forests... (More)

The storage of carbon (C) within forest vegetation is a key component of the global C cycle. Forests are therefore important in the context of climate change mitigation as they remove carbon from the atmosphere into their stems, branches and roots, where it remains stored. It is generally understood that old forests contain a large amount of C, but it is debated whether carbon accumulation continues over time or if these forests reach a limit to their C stock. Most Swedish forests today are managed by planting monocultures and allowing them to grow for 60 – 100 years, before all trees are logged. Historically, they were managed by selecting only the largest and most valuable trees to cut. Therefore, there are few old-growth forests remaining in Sweden, and these forests are likely to be located in areas that are colder, with poorer growing conditions, and more difficult to access. Studies of the effects of forest age on C storage thus have to account for the uneven spatial distribution of old-growth forests in less productive areas. The organic material, or biomass, of trees is made up of 50% C and can therefore be analysed to understand carbon dynamics. In this study, biomass data was normalised by region, and therefore by similar climatic conditions, using data collected by the national forest inventory. A curve of the relationship between the mean biomass and the age of a group of trees (stand age) was created using the normalised biomass data. Other factors that affect growth such as the forest class, soil moisture, local elevation and aspect were also controlled to determine their effect on this relationship.

It was determined that the mean biomass in Swedish forests continues to accumulate with age in stands of up to at least 260 – 320 years old. There was a large spread of biomass values around this mean, which could sometimes be explained by the environmental conditions of the area. In cases where this could not explain the results, it could instead be a result of the historical forest management in the area. The largest biomass values in old forests are possibly located in areas that are thought to be unsuitable for forestry due to poor growing conditions. This emphasises that conserving the old-growth forests that have not yet been clear-cut in Sweden is very important, as these forests both contain large amounts of carbon and are continuing to accumulate carbon as they age. If there is an age at which the C stock reaches a limit in Swedish forests, it could not be found in this study. (Less)