Add to ORKGThe dynamic development of terrestrial and aquatic environments in boreal catchments is controlled by the factors of parent material, climate, topography, biota, time, and anthropogenic activity. This thesis explores two of these factors, topography and the anthropogenic activity of forestry, as well as their control on the redistribution of solutes in the landscape. On a local scale for two undisturbed sites, the calculation of the topographical wetness index, TWI, was varied to better correlate to site properties. TWI values derived from large scale topographical features correlated better with soil pH and distribution of vascular plants (r2=0.5-0.8), whereas a more locally derived TWI correlated better with soil moisture conditions (r2=0...
Topography is a major factor controlling both hydrological and soil processes at the landscape scale...
Climate change, through hydrological impacts and shifts in vascular plant communities, may significa...
Boreal peatlands are substantial terrestrial carbon storages. They are also important for the functi...
The dynamic development of terrestrial and aquatic environments in boreal catchments is controlled b...
Effects of Boreal forest harvest on mercury (Hg) and methyl mercury (MeHg) soil pools and export by ...
Mercury (Hg) is an element of major concern in boreal freshwater ecosystems, due to high concentrati...
Since the beginning of industrialization, emissions of mercury (Hg) from human activities in excess ...
Mercury (Hg)-contaminated freshwater fisheries are a global toxicological concern. Previous researc...
Aquatic mercury (Hg) contamination caused by industrial Hg emissions, atmospheric transport and depo...
International audienceA large part of the spatial variation of stream water chemistry is found in he...
Forestry operations can increase the export of mercury (both total and methyl) to surface waters. Ho...
Mercury (Hg) which originates from global emissions to the atmosphere can deposit far away from the ...
Maintaining good surface water quality is recognized as one of the greatest challenges for future ge...
Mercury (Hg) concentrations in freshwater fish relates to aquatic Hg concentrations, which largely d...
Topography is a major factor controlling both hydrological and soil processes at the landscape scale...
Climate change, through hydrological impacts and shifts in vascular plant communities, may significa...
Boreal peatlands are substantial terrestrial carbon storages. They are also important for the functi...
The dynamic development of terrestrial and aquatic environments in boreal catchments is controlled b...
Effects of Boreal forest harvest on mercury (Hg) and methyl mercury (MeHg) soil pools and export by ...
Mercury (Hg) is an element of major concern in boreal freshwater ecosystems, due to high concentrati...
Since the beginning of industrialization, emissions of mercury (Hg) from human activities in excess ...
Mercury (Hg)-contaminated freshwater fisheries are a global toxicological concern. Previous researc...
Aquatic mercury (Hg) contamination caused by industrial Hg emissions, atmospheric transport and depo...
International audienceA large part of the spatial variation of stream water chemistry is found in he...
Forestry operations can increase the export of mercury (both total and methyl) to surface waters. Ho...
Mercury (Hg) which originates from global emissions to the atmosphere can deposit far away from the ...
Maintaining good surface water quality is recognized as one of the greatest challenges for future ge...
Mercury (Hg) concentrations in freshwater fish relates to aquatic Hg concentrations, which largely d...
Topography is a major factor controlling both hydrological and soil processes at the landscape scale...
Climate change, through hydrological impacts and shifts in vascular plant communities, may significa...
Boreal peatlands are substantial terrestrial carbon storages. They are also important for the functi...