Add to ORKGTo fully understand the carbon (C) cycle impacts of forest fires, both C emissions during the fire and post-disturbance fluxes need to be considered. The latter are dominated by soil surface CO[subscript 2] flux (F[subscript s]), which is still subject to large uncertainties. Fire is generally regarded as the most important factor influencing succession in the boreal forest biome and fire dependant species such as jack pine are widespread. In May 2007, we took concurrent F[subscript s] and soil temperature (T[subscript s]) measurements in boreal jack pine fire scars aged between 0 and 59 years since fire. To allow comparisons between scars, we adjusted F[subscript s] for T[subscript s] (F[subscript s,superscript T]) using a Q[subscript 10] ...
The degree of fire-induced effects on boreal forest soils substantially depends on the intensityof fire...
Radiocarbon signatures (Δ¹⁴C) of carbon dioxide (CO₂) provide a measure of the age of C being decomp...
The impact of fire on global C cycles is considerable but complex. Nevertheless, studies on patterns...
To fully understand the carbon (C) cycle impacts of forest fires, both C emissions during the fire a...
Fires are an important perturbation for the carbon (C) dynamics of boreal forests, especially when t...
Soil surface CO2 flux increases with successional time in a fire scar chronosequence of Canadian bor...
We compared the changes in aboveground biomass and initial recovery of C pools and CO2 efflux follow...
Boreal forests are one of the most important biomes storing carbon (C). Wildfires burn yearly on ave...
Boreal forests with high carbon sequestration capacity play a crucial role in mitigating global clim...
Understanding the effects of fire history on soil processes is key to characterise their resistance ...
The extreme 2018 hot drought that affected central and northern Europe led to the worst wildfire sea...
The extreme 2018 hot drought that affected central and northern Europe led to the worst wildfire sea...
Recent CO2 flux measurements from towers and aircraft (net ecosystem exchange by eddy covariance) an...
This dataset contains soil CO2 flux data collected at the Konza Prairie Biological Station throughou...
The degree of fire-induced effects on boreal forest soils substantially depends on the intensityof fire...
Radiocarbon signatures (Δ¹⁴C) of carbon dioxide (CO₂) provide a measure of the age of C being decomp...
The impact of fire on global C cycles is considerable but complex. Nevertheless, studies on patterns...
To fully understand the carbon (C) cycle impacts of forest fires, both C emissions during the fire a...
Fires are an important perturbation for the carbon (C) dynamics of boreal forests, especially when t...
Soil surface CO2 flux increases with successional time in a fire scar chronosequence of Canadian bor...
We compared the changes in aboveground biomass and initial recovery of C pools and CO2 efflux follow...
Boreal forests are one of the most important biomes storing carbon (C). Wildfires burn yearly on ave...
Boreal forests with high carbon sequestration capacity play a crucial role in mitigating global clim...
Understanding the effects of fire history on soil processes is key to characterise their resistance ...
The extreme 2018 hot drought that affected central and northern Europe led to the worst wildfire sea...
The extreme 2018 hot drought that affected central and northern Europe led to the worst wildfire sea...
Recent CO2 flux measurements from towers and aircraft (net ecosystem exchange by eddy covariance) an...
This dataset contains soil CO2 flux data collected at the Konza Prairie Biological Station throughou...
The degree of fire-induced effects on boreal forest soils substantially depends on the intensityof fire...
Radiocarbon signatures (Δ¹⁴C) of carbon dioxide (CO₂) provide a measure of the age of C being decomp...
The impact of fire on global C cycles is considerable but complex. Nevertheless, studies on patterns...
