Add to ORKGIn this work, carbon dioxide (CO2) dynamics in boreal lakes were studied using vertical process-based coupled physical-biogeochemical lake models. Many lakes in the boreal zone are at present supersaturated with the greenhouse gas CO2 and emit it to the atmosphere. Transport of terrestrially produced organic carbon to boreal lakes and its in-lake degradation is predicted to increase under the ongoing climate change, and lakes may be even greater CO2 sources to the atmosphere in the future. Two process-based models of different complexity were developed for the simulation of carbon cycling in lakes. The models are based on a one-dimensional vertical lake model called MyLake, which simulates lake thermal conditions and phosphorus-phytoplankto...
Understanding of natural greenhouse gas (GHG) cycles is crucial for making GHG budgets, which work a...
Lakes (including reservoirs) are an important component of the global carbon (C) cycle, as acknowled...
Inland waters have long been neglected in the global carbon cycle. They represent only 2,8% of the l...
Climate change may have notable impacts on carbon cycling in freshwater ecosystems, especially in th...
Lakes cover only ~2 % of the global land area, but their connections to the surrounding catchment ma...
Freshwater lakes are important in carbon cycling, especially in the boreal zone where many lakes are...
Methane (CH4) and carbon dioxide (CO2) are two greenhouse gases and main drivers of global climate c...
Man-induced climate change has raised the need to predict the future climate and its feedback to veg...
Boreal freshwater ecosystems play an important role in landscape carbon (C) cycle. Streams connectin...
Increasing levels of CO2 in the atmosphere is a contributing cause to climate change. To give a bett...
Unproductive lakes are one of few natural landscape compartments with net release of carbon to the a...
The global carbon cycle is subject to intense research, where sources and sinks for greenhouse gases...
The subarctic landscape consists of diverse ecosystems, each having a multitude of biological proces...
The global carbon cycle is intimately linked with the earth’s climate system. Knowledge about carbon...
A one-dimensional (1-D) model for an enclosed basin (lake) is presented, which reproduces temperatur...
Understanding of natural greenhouse gas (GHG) cycles is crucial for making GHG budgets, which work a...
Lakes (including reservoirs) are an important component of the global carbon (C) cycle, as acknowled...
Inland waters have long been neglected in the global carbon cycle. They represent only 2,8% of the l...
Climate change may have notable impacts on carbon cycling in freshwater ecosystems, especially in th...
Lakes cover only ~2 % of the global land area, but their connections to the surrounding catchment ma...
Freshwater lakes are important in carbon cycling, especially in the boreal zone where many lakes are...
Methane (CH4) and carbon dioxide (CO2) are two greenhouse gases and main drivers of global climate c...
Man-induced climate change has raised the need to predict the future climate and its feedback to veg...
Boreal freshwater ecosystems play an important role in landscape carbon (C) cycle. Streams connectin...
Increasing levels of CO2 in the atmosphere is a contributing cause to climate change. To give a bett...
Unproductive lakes are one of few natural landscape compartments with net release of carbon to the a...
The global carbon cycle is subject to intense research, where sources and sinks for greenhouse gases...
The subarctic landscape consists of diverse ecosystems, each having a multitude of biological proces...
The global carbon cycle is intimately linked with the earth’s climate system. Knowledge about carbon...
A one-dimensional (1-D) model for an enclosed basin (lake) is presented, which reproduces temperatur...
Understanding of natural greenhouse gas (GHG) cycles is crucial for making GHG budgets, which work a...
Lakes (including reservoirs) are an important component of the global carbon (C) cycle, as acknowled...
Inland waters have long been neglected in the global carbon cycle. They represent only 2,8% of the l...