The Boreal-Arctic Biogeochemistry Lab
The Boreal-Arctic Biogeochemistry Lab
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David Olefeldt
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Changing climatic controls on the greenhouse gas balance of thermokarst bogs during succession after permafrost thaw
Boreal-Arctic Wetland and Lake Methane Emissions Are More Sensitive to Direct Warming Effects Than to Permafrost Thaw Until 2100
Climate warming has direct and indirect effects on microbes associated with carbon cycling in northern lakes
Controls on methylmercury concentrations in lakes and streams of peatland-rich catchments along a 1700 km permafrost gradient
High ebullitive, millennial-aged greenhouse gas emissions from thermokarst expansion of peatland lakes in boreal western Canada
Nitrous oxide fluxes in permafrost peatlands remain negligible after wildfire and thermokarst disturbance
Recent and future carbon and greenhouse gas balances of peatlands in boreal western Canada; accounting for warming, wildfire, and permafrost thaw.
Beyond what the eye can see: using high-resolution UAS-derived hyperspectral imagery to classify boreal peatland vegetation
Influence of Groundwater Connectivity and Sulfate on Boreal Lake Methane Dynamics in the Sporadic Permafrost Zone
Aged soils contribute little to contemporary carbon cycling downstream of thawing permafrost peatlands
BAWLD-CH 4: a comprehensive dataset of methane fluxes from boreal and arctic ecosystems
Opposing effects of climate and permafrost thaw on CH4 and CO2 emissions from northern lakes
The Boreal-Arctic wetland and lake dataset (BAWLD)
The fractional land cover estimates from the Boreal-Arctic Wetland and Lake Dataset (BAWLD), 2021.
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