Browsing by Subject "Oulanka"
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(2023)Northern peatlands are important carbon storing ecosystems, contributing to carbon cycle as sinks and sources. The two most important greenhouse gases in the carbon cycle are carbon dioxide (CO2) and methane (CH4). The study area of this work consists of two sloping fens in the Kuusamo area. from which the peat geochemistry and peat properties (peat stratigraphy, ash content, and bulk density) are studied. In addition, the chronology, carbon-nitrogen ratio, carbon content, and carbon accumulation are studied in the Puukkosuo from the three sampling sites. In the characterization of peat geochemistry, Puukkosuo in the dolomitic rock area and Suvisuo in the volcanic rock area were divided into different geochemical zones based on the cluster analysis. The paludification in the Puukkosuo area has started around 10 000 years ago, and the accumulation of peat have been ongoing in the whole peat basin after 1000 years. The geochemical zones in the Puukkosuo can be divided into five different groups, from which the deepest part of the peatland basin can be separated due to the high heavy metal concentrations in the oldest peat. Most of the bulk peat is differentiated into alternating groups, from which the changes in the peat nutrients are recorded. The margins of the Puukkosuo are separated based on the geochemical properties. The top part of the northwestern edge can be characterized as high concentrations of atmospheric origin elements, whereas the effect of the nearby road can be noted in the concentrations of the top part of the southeastern edge. The amount of carbon accumulated has varied throughout the development of Puukkosuo, and the highest rates are recorded in the lower part of the peat profiles in all study sites. Highest carbon-nitrogen -ratios are recorded near the basal peat samples especially in the deepest part of the Puukkosuo. The long-term carbon accumulation differs from the other long-term averages in the boreal zone. The largest differences were recorded in the deepest part of the basin in the long-term carbon accumulation rates during the Early Holocene. The respective value in the Puukkosuo is four times higher (60 g m-2 yr-1) in contrast to others. During the Late Holocene the long-term carbon accumulation rates correspond to the other average values in the boreal peatlands (25 g m-2 yr-1).
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(2023)Arctic and sub-Arctic areas have significant amounts of carbon dioxide and methane stored in the sediments which can affect the climate change. The role of groundwater in the carbon cycle in the northern regions is not well known. The processes related to the groundwater cycle depend on the structure and composition of the sediment, which in turn are determined by the way the sediment is formed. In this study, the sedimentary structures and the hydrogeological properties of the Haaralamminkangas groundwater system was investigated. The aim was also to obtain more thorough knowledge on the geological processes that have formed the sedimentary structures of the area. Geophysical survey, drilling data, grain size analysis, and water sample analyzes were used as research methods. A sedimentary structure interpretation and 3D model were created from the data. In addition, a conceptual hydrogeological model was produced, which means information about the presence of groundwater in the area, the hydraulic connections of different parts of the groundwatersystem, and how groundwater interacts with surface waters. The 3D model will later serve in the study of the connection between the role of groundwater and the carbon cycle. The sediments of the area was found to consist of Late Weichelian glacial sediments, fine-grained basin sediments, valley delta sand deposits, sandy gravels of the braded river system, and fine-grained flood sediments. The deposits have been formed in the following main events: Late-Weichelian glacial sedimentary processes, rapid accumulation of a sediment load on the bottom of the river valley and fluvial processes. In the study, previously unknown information about the thickness of the sedimentary structures in the study area was clarified. Local gravel layers and a possible buried esker system wich was observed in the study may have an effect on groundwater flow. The ground water system was found to extend beyond its present boundaries and a buried bedrock in the middle of the area divides the aquifer into separate parts, where the surface waters from Puukkosuo end up in. Oulankajoki was found to be seeping into the aquifer. The modeling of the change in the height of the Oulankajoki water level showed that the effect of the spring floods is directed towards the areas of Haaralamminranta and Kouruniitty.
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