Add to ORKGSince the last deglaciation, 300-500 Pg carbon have accumulated in northern peatlands (346 mill. ha). While sequestering carbon dioxide ( CO2), these peatlands release considerable amounts of methane ( CH4) to the atmosphere. The greenhouse-gas balance of peatlands may change in the future if summers become warmer and drier, as has been predicted for high latitudes. Subsequent emissions of CH4 would decrease, whereas emissions of CO2 and nitrous oxide ( N2O) would increase. Water-level drawdown has been predicted to enhance the greenhouse impact from northern peatlands. The components of carbon cycling were measured both in undrained and drained peatlands of different trophic levels. The results were drawn together into a single radiative f...
Natural peatlands accumulate carbon (C) and nitrogen (N). They affect the global climate by binding ...
A peatland is a type of ecosystem where carbon (C) along with nitrogen and several other elements ha...
We explore short- and long-term climatic radiative forcing consequences of CO2 and CH4 emissions fro...
Since the last deglaciation, 300-500 Pg carbon have accumulated in northern peatlands (346 mill. ha)...
International audienceThe climate impact of water-table drawdown in peatlands is unclear as carbon d...
Peatland disturbance through drainage threatens to liberate large amounts of C stocks by increasing ...
Peatlands can buffer the impact of external perturbations, but can also rapidly shift to a new ecosy...
Water-table drawdown across peatlands increases carbon dioxide (CO2) and reduces methane (CH4) emiss...
Northern peatlands store 300–600 Pg C, of which approximately half are underlain by permafrost. Clim...
Peatlands occupy a relatively small fraction of the Earth’s land area, but they are a globally impor...
International audienceThe function of peatlands as a large carbon (C) reservoir results from the net...
Peatlands are important components of boreal and subarctic landscapes, and can be regionally importa...
Global peatlands store more carbon than is naturally present in the atmosphere1,2. However, many pea...
International audiencePeatlands at high latitudes have accumulated >400 Pg carbon (C) because satura...
To be able to predict the strength of climate change and its consequences for mankind, it is of majo...
Natural peatlands accumulate carbon (C) and nitrogen (N). They affect the global climate by binding ...
A peatland is a type of ecosystem where carbon (C) along with nitrogen and several other elements ha...
We explore short- and long-term climatic radiative forcing consequences of CO2 and CH4 emissions fro...
Since the last deglaciation, 300-500 Pg carbon have accumulated in northern peatlands (346 mill. ha)...
International audienceThe climate impact of water-table drawdown in peatlands is unclear as carbon d...
Peatland disturbance through drainage threatens to liberate large amounts of C stocks by increasing ...
Peatlands can buffer the impact of external perturbations, but can also rapidly shift to a new ecosy...
Water-table drawdown across peatlands increases carbon dioxide (CO2) and reduces methane (CH4) emiss...
Northern peatlands store 300–600 Pg C, of which approximately half are underlain by permafrost. Clim...
Peatlands occupy a relatively small fraction of the Earth’s land area, but they are a globally impor...
International audienceThe function of peatlands as a large carbon (C) reservoir results from the net...
Peatlands are important components of boreal and subarctic landscapes, and can be regionally importa...
Global peatlands store more carbon than is naturally present in the atmosphere1,2. However, many pea...
International audiencePeatlands at high latitudes have accumulated >400 Pg carbon (C) because satura...
To be able to predict the strength of climate change and its consequences for mankind, it is of majo...
Natural peatlands accumulate carbon (C) and nitrogen (N). They affect the global climate by binding ...
A peatland is a type of ecosystem where carbon (C) along with nitrogen and several other elements ha...
We explore short- and long-term climatic radiative forcing consequences of CO2 and CH4 emissions fro...