Add to ORKGTaiga or boreal forest environments are a poorly understood component of the global CH4 budget. Results from a 1‐year study of CH4 fluxes at a range of representative floodplain and upland taiga sites in the Bonanza Creek long term ecological research area show that soil consumption of atmospheric CH4 was the dominant process. Methane emission occurred only sporadically in the earliest successional stages in the floodplain system; all other floodplain and upland sites were net CH4 consumers. Our results suggest that upland and floodplain taiga soils are an atmospheric CH4 sink of up to 0.8 Tg yr−1. Point‐source bogs and fens are the only important CH4‐emitting sites in taiga. Copyright 1991 by the American Geophysical Union
Methane flux measurements indicate boreal forest wetlands are large contributors to the global CH4 e...
Methane (CH4) is an important greenhouse gas that also affects the chemistry and oxidation capacity ...
Forests are generally considered to be net sinks of atmospheric methane (CH4) because of oxidation b...
Study included seven soils, an adjacent spring and brook and was conducted to estimate CH4 source an...
Most work on methane (CH(4)) emissions from natural ecosystems has focused on wetlands because they ...
Boreal upland forests are generally considered methane (CH4) sinks due to the predominance of CH4 ox...
International audienceAbstract. Natural methane (CH4) emissions from wet ecosystems are an important...
Taiga–tundra boundary ecosystems are affected by climate change. Methane (CH4) emissions in taiga–tu...
This dataset includes two data tables of methane (CH4) fluxes measured in Arctic uplands. Dataset 1 ...
EMISSION of methane from tundra soil contributes about 10% of the global atmospheric methane budget1...
Upland forests are traditionally thought to be net sinks for atmospheric methane (CH4). In such fore...
The consumption of methane by some soils in the southern taiga of Western Siberia was studied by the...
Forest soils are the most important terrestrial sink of atmospheric methane (CH4). Climatic, soil an...
The atmospheric methane budget is commonly defined assuming that major sources derive from the biosp...
[1] We sampled air in the canopy layer of undisturbed upland forests during wet and dry seasons at t...
Methane flux measurements indicate boreal forest wetlands are large contributors to the global CH4 e...
Methane (CH4) is an important greenhouse gas that also affects the chemistry and oxidation capacity ...
Forests are generally considered to be net sinks of atmospheric methane (CH4) because of oxidation b...
Study included seven soils, an adjacent spring and brook and was conducted to estimate CH4 source an...
Most work on methane (CH(4)) emissions from natural ecosystems has focused on wetlands because they ...
Boreal upland forests are generally considered methane (CH4) sinks due to the predominance of CH4 ox...
International audienceAbstract. Natural methane (CH4) emissions from wet ecosystems are an important...
Taiga–tundra boundary ecosystems are affected by climate change. Methane (CH4) emissions in taiga–tu...
This dataset includes two data tables of methane (CH4) fluxes measured in Arctic uplands. Dataset 1 ...
EMISSION of methane from tundra soil contributes about 10% of the global atmospheric methane budget1...
Upland forests are traditionally thought to be net sinks for atmospheric methane (CH4). In such fore...
The consumption of methane by some soils in the southern taiga of Western Siberia was studied by the...
Forest soils are the most important terrestrial sink of atmospheric methane (CH4). Climatic, soil an...
The atmospheric methane budget is commonly defined assuming that major sources derive from the biosp...
[1] We sampled air in the canopy layer of undisturbed upland forests during wet and dry seasons at t...
Methane flux measurements indicate boreal forest wetlands are large contributors to the global CH4 e...
Methane (CH4) is an important greenhouse gas that also affects the chemistry and oxidation capacity ...
Forests are generally considered to be net sinks of atmospheric methane (CH4) because of oxidation b...