2017
DOI: 10.1073/pnas.1702902114
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Increased nitrous oxide emissions from Arctic peatlands after permafrost thaw

Abstract: Permafrost in the Arctic is thawing, exposing large carbon and nitrogen stocks for decomposition. Gaseous carbon release from Arctic soils due to permafrost thawing is known to be substantial, but growing evidence suggests that Arctic soils may also be relevant sources of nitrous oxide (N 2 O). Here we show that N 2 O emissions from subarctic peatlands increase as the permafrost thaws. In our study, the highest postthaw emissions occurred from bare peat surfaces, a typical landform in permafrost peatlands, whe… Show more

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Cited by 137 publications
(166 citation statements)
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“…Furthermore, headwater aquatic primary production (algae) is often phosphorus limited, resulting in rapid nitrification of what little ammonium makes it to the stream channel, though nitrogen demand increases as rivers meet the sea McClelland et al, 2012). There is evidence that rapid climate change at high latitudes and associated permafrost degradation are increasing nitrogen availability and potentially induce shifts in the nitrogen cycle (Jones et al, 2005;Abbott et al, 2015;Voigt et al, 2017). Particularly, increased nutrient delivery to riparian zones and stream networks from degrading permafrost could enhance or suppress nitrogen uptake depending on the nutrient stoichiometry.…”
Section: Riparian Corridors Function As Kidneys Of River Systemsmentioning
confidence: 99%
“…Furthermore, headwater aquatic primary production (algae) is often phosphorus limited, resulting in rapid nitrification of what little ammonium makes it to the stream channel, though nitrogen demand increases as rivers meet the sea McClelland et al, 2012). There is evidence that rapid climate change at high latitudes and associated permafrost degradation are increasing nitrogen availability and potentially induce shifts in the nitrogen cycle (Jones et al, 2005;Abbott et al, 2015;Voigt et al, 2017). Particularly, increased nutrient delivery to riparian zones and stream networks from degrading permafrost could enhance or suppress nitrogen uptake depending on the nutrient stoichiometry.…”
Section: Riparian Corridors Function As Kidneys Of River Systemsmentioning
confidence: 99%
“…We collected 16 intact peat mesocosms ( Ø = 10 cm, length ~80 cm) from vegetated (eight mesocosms with typical, low‐statured palsa vegetation) and naturally bare (eight mesocosms without vascular plants and only covered sporadically with lichens) parts of the palsa complex, using a custom‐made steel corer (Figure S1) (Voigt, Marushchak et al, ). Due to the comparatively small surface area, and to minimize root damage during sampling, patches with larger vascular plants such as B. nana L. were not included for mesocosm collection.…”
Section: Methodsmentioning
confidence: 99%
“…The vegetation and moisture scenarios used in this study are referred to as DB (dry, bare), DV (dry, vegetated), WB (wet, bare), and WV (wet, vegetated). Step‐wise thawing was achieved by placing the mesocosms in a saltwater‐filled and glycol‐circulated bath at temperatures below 0°C, as described earlier (Voigt, Marushchak et al, ). In short, we sequentially unfroze the mesocosms from top to bottom in 5–20 cm increments during six thawing stages, each lasting four weeks (Table S1).…”
Section: Methodsmentioning
confidence: 99%
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