Methane in Zackenberg Valley, NE Greenland: Multidecadal growing season fluxes of a high Arctic tundra

Abstract: Abstract. The carbon balance of high-latitude terrestrial ecosystems plays an essential role in the atmospheric concentration of trace gases, including carbon dioxide (CO2) and methane (CH4). Increasing levels of atmospheric methane have contributed to ~20 % of the observed global warming since the pre-industrial era. Rising temperatures in the Arctic are expected to promote the release of methane from Arctic ecosystems. Still, existing methane flux data collection efforts are sparse and highly scattered, and … Show more

“…The large taxonomic shifts in the rRNA pool suggest that the ancient carbon that became available due to warmer temperatures at these depths allows decomposers to thrive. Former studies have shown that methane emissions from this site were variable in both space and time during collapse (Scheller et al, 2021), which highlights the potential of a biogenic carbon release.…”

Abrupt permafrost thaw triggers microbial bloom and grazer succession

“…The large taxonomic shifts in the rRNA pool suggest that the ancient carbon that became available due to warmer temperatures at these depths allows decomposers to thrive. Former studies have shown that methane emissions from this site were variable in both space and time during collapse (Scheller et al, 2021), which highlights the potential of a biogenic carbon release.…”

Abrupt permafrost thaw triggers microbial bloom and grazer succession