Add to ORKGPermafrost covers 25% of the land surface in the northern hemisphere, where mean annual ground temperature is less than 0◦C. A 1.4–5.8 ◦C warming by 2100 will likely change the sign of mean annual air and ground temperatures over much of the zones of sporadic and discontinuous permafrost in the northern hemisphere, causing widespread permafrost thaw. In this study, I examined rates of discontinuous permafrost thaw in the boreal peatlands of northern Manitoba, Canada, using a combination of tree-ring analyses to document thaw rates from 1941–1991 and direct measurements of permanent benchmarks established in 1995 and resurveyed in 2002. I used instrumented records of mean annual and seasonal air temperatures, mean winter snow depth, and dura...
Open access article. Creative Commons Attribution 4.0 International License (CC BY 4.0) appliesDevel...
Permafrost warming has the potential to amplify global climate change, because when frozen sediments...
Climate warming has inevitable impacts on the vegetation and hydrological dynamics of high-latitude ...
Northern peatlands contain a large terrestrial carbon pool that plays an important role in the Earth...
Climate warming in high-latitude regions is thawing carbon-rich permafrost soils, which can release ...
Climate warming in regions of ice‐rich permafrost can result in widespread thermokarst development, ...
The hydrological implications of discontinuous permafrost thaw in peatland-dominated basins are not ...
Human-induced climate warming by 2100 is expected to thaw large expanses of northern permafrost peat...
Soil carbon (C) in permafrost peatlands is vulnerable to decomposition with thaw under a warming cli...
PublishedArticlePermafrost peatlands contain globally important amounts of soil organic carbon, owin...
[1] In this study we provide a quantification of the main patterns of change of a subarctic peatland...
Recent climate warming in northwestern Canada is occurring at an unprecedented rate in recorded hist...
Permafrost regions cover approximately a quarter of the Northern Hemisphere and thawing has been rec...
During the past century, the highest rates of warming have occurred at latitudes above 60oN, where a...
This study was carried out to evaluate the environmental factors which influence the distribution an...
Open access article. Creative Commons Attribution 4.0 International License (CC BY 4.0) appliesDevel...
Permafrost warming has the potential to amplify global climate change, because when frozen sediments...
Climate warming has inevitable impacts on the vegetation and hydrological dynamics of high-latitude ...
Northern peatlands contain a large terrestrial carbon pool that plays an important role in the Earth...
Climate warming in high-latitude regions is thawing carbon-rich permafrost soils, which can release ...
Climate warming in regions of ice‐rich permafrost can result in widespread thermokarst development, ...
The hydrological implications of discontinuous permafrost thaw in peatland-dominated basins are not ...
Human-induced climate warming by 2100 is expected to thaw large expanses of northern permafrost peat...
Soil carbon (C) in permafrost peatlands is vulnerable to decomposition with thaw under a warming cli...
PublishedArticlePermafrost peatlands contain globally important amounts of soil organic carbon, owin...
[1] In this study we provide a quantification of the main patterns of change of a subarctic peatland...
Recent climate warming in northwestern Canada is occurring at an unprecedented rate in recorded hist...
Permafrost regions cover approximately a quarter of the Northern Hemisphere and thawing has been rec...
During the past century, the highest rates of warming have occurred at latitudes above 60oN, where a...
This study was carried out to evaluate the environmental factors which influence the distribution an...
Open access article. Creative Commons Attribution 4.0 International License (CC BY 4.0) appliesDevel...
Permafrost warming has the potential to amplify global climate change, because when frozen sediments...
Climate warming has inevitable impacts on the vegetation and hydrological dynamics of high-latitude ...