Add to ORKGNearly 1000 Norwegian lakes in catchments with low human activity were surveyed. By covering a wide range of nitrogen (N) deposition (0.1–2 g m22 yr21) along a latitudinal and climatic gradient, we clearly demonstrate how nitrogen (N) deposition, climate, and a few key catchment properties, notably the terrestrial vegetation density and the fraction of bogs, together serve as major predictors of concentrations and ratios of carbon, nitrogen (N), phosphorus (P), and silicate (Si) in downstream lakes. Inorganic N in lakes was positively correlated with N deposition, while organic N was closely associated with allochthonous dissolved organic carbon. The ratio of NO3 to total N as well as NO3 to total P and NO3 to SiO2 were highly variable, and...
Boreal lakes are important net sources of greenhouse gases (GHGs). In this study we analyzed concent...
Northern lakes have a unique flora and fauna and are sensitive ecosystems that experience rapid rate...
Denitrification in lakes significantly reduces the nitrogen (N) load from land to oceans, but the fa...
The pronounced increase in the cycling and deposition of biologically reactive dissolved inorganic n...
Declining atmospheric nitrogen (N) deposition in northern Europe and parts of North America, coupled...
To help improve our understanding of the nitrogen cycle in lakes, particularly in the context of cli...
1. To help improve our understanding of the nitrogen cycle in lakes, particularly in the context of ...
Here we test the hypothesis that increased deposition of inorganic N compounds leads to increased le...
Climate change might have profound effects on the nitrogen (N) dynamics in the cultivated landscape ...
Effects of contrasting climatic conditions and nitrogen (N) deposition levels on streamwater N dynam...
We used chemical data (3,907 lakes) and phytoplankton biomass (chlorophyll a) data (225 lakes) from ...
Nitrogen deposition has a potentially eutrophying impact on oligotrophic freshwaters. Here we presen...
Atmospheric deposition of nitrogen (N) leads to enhanced leaching of N species to surface waters in ...
Boreal lakes are the most abundant lakes on Earth. Changes in acid rain deposition, climate, and cat...
68 lakes (63 Swiss, 2 French and 3 Italian) located in an altitudinal range between 334 and 2339m sp...
Boreal lakes are important net sources of greenhouse gases (GHGs). In this study we analyzed concent...
Northern lakes have a unique flora and fauna and are sensitive ecosystems that experience rapid rate...
Denitrification in lakes significantly reduces the nitrogen (N) load from land to oceans, but the fa...
The pronounced increase in the cycling and deposition of biologically reactive dissolved inorganic n...
Declining atmospheric nitrogen (N) deposition in northern Europe and parts of North America, coupled...
To help improve our understanding of the nitrogen cycle in lakes, particularly in the context of cli...
1. To help improve our understanding of the nitrogen cycle in lakes, particularly in the context of ...
Here we test the hypothesis that increased deposition of inorganic N compounds leads to increased le...
Climate change might have profound effects on the nitrogen (N) dynamics in the cultivated landscape ...
Effects of contrasting climatic conditions and nitrogen (N) deposition levels on streamwater N dynam...
We used chemical data (3,907 lakes) and phytoplankton biomass (chlorophyll a) data (225 lakes) from ...
Nitrogen deposition has a potentially eutrophying impact on oligotrophic freshwaters. Here we presen...
Atmospheric deposition of nitrogen (N) leads to enhanced leaching of N species to surface waters in ...
Boreal lakes are the most abundant lakes on Earth. Changes in acid rain deposition, climate, and cat...
68 lakes (63 Swiss, 2 French and 3 Italian) located in an altitudinal range between 334 and 2339m sp...
Boreal lakes are important net sources of greenhouse gases (GHGs). In this study we analyzed concent...
Northern lakes have a unique flora and fauna and are sensitive ecosystems that experience rapid rate...
Denitrification in lakes significantly reduces the nitrogen (N) load from land to oceans, but the fa...