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Walz, Josefine (2016): Anaerobic carbon dioxide and methane production data of control and freeze-thaw permafrost-affected soils of the northeast Siberian polygonal tundra [dataset]. University of Hamburg, Germany, PANGAEA, https://doi.org/10.1594/PANGAEA.864823, In supplement to: Walz, Josefine; Knoblauch, Christian; Böhme, Luise; Pfeiffer, Eva-Maria (2017): Regulation of soil organic matter decomposition in permafrost-affected Siberian tundra soils - Impact of oxygen availability, freezing and thawing, temperature, and labile organic matter. Soil Biology and Biochemistry, 110, 34-43, https://doi.org/10.1016/j.soilbio.2017.03.001

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Keyword(s):
active layer; carbon dioxide; Methane; permafrost
Coverage:
Latitude: 72.371800 * Longitude: 126.498660
Minimum DEPTH, soil: 0.055 m * Maximum DEPTH, soil: 0.780 m
Event(s):
Samoylov_Polygon2 * Latitude: 72.371800 * Longitude: 126.498660 * Location: Samoylov Island, Lena Delta, Siberia * Method/Device: Experiment (EXP)
Comment:
We anaerobically incubated soil samples from a polygon center (P2, 72° 22.3 N, 126° 29.9 E) on Samoylov, Northeast Siberia at 4°C for 60 days. We used three soil layers ((i) surface active layer, (ii) bottom active layer, (iii) permafrost) and two treatments ((i) control which remained at 4°C for 60 days, (ii) FT with two 30-day periods at 4°C separated by one frost event (-18°C)). For each sample we used 3 aliquots. CO2 and CH4 production were measured via gas chromatography.
Parameter(s):
#NameShort NameUnitPrincipal InvestigatorMethod/DeviceComment
1CommentCommentWalz, Josefine
2DEPTH, soilDepth soilmWalz, JosefineGeocode
3Depth, soil, minimumDepth soil minmWalz, Josefine
4Depth, soil, maximumDepth soil maxmWalz, Josefine
5Day of experimentDOEdayWalz, Josefineday of incubation
6Carbon dioxide, production, anaerobic, CO2-C per mass soil organic carbonCO2-C/SOC anaerobmg/gWalz, Josefinecontrol
7Carbon dioxide, production, anaerobic, standard deviationCO2 prod anaerob std dev±Walz, Josefinecontrol
8Carbon dioxide, production rate, anaerobic, CO2-C per mass soil organic carbonCO2-C/SOC rate anaerobmg/g/dayWalz, Josefinecontrol
9Carbon dioxide, production, anaerobic, standard deviationCO2 prod anaerob std dev±Walz, Josefinerate; control
10Methane, production, anaerobic, CH4-C per mass soil organic carbonCH4-C/SOC anaerobmg/gWalz, Josefinecontrol
11Methane, production, anaerobic, standard deviationCH4 prod anaerob std dev±Walz, Josefinecontrol
12Methane, production rate, anaerobic, CH4-C per mass soil organic carbonCH4-C/SOC rate anaerobmg/g/dayWalz, Josefinecontrol
13Methane, production, anaerobic, standard deviationCH4 prod anaerob std dev±Walz, Josefinerate; control
14Carbon dioxide, production, anaerobic, CO2-C per mass soil organic carbonCO2-C/SOC anaerobmg/gWalz, Josefinefreeze-thaw
15Carbon dioxide, production, anaerobic, standard deviationCO2 prod anaerob std dev±Walz, Josefinefreeze-thaw
16Carbon dioxide, production rate, anaerobic, CO2-C per mass soil organic carbonCO2-C/SOC rate anaerobmg/g/dayWalz, Josefinefreeze-thaw
17Carbon dioxide, production, anaerobic, standard deviationCO2 prod anaerob std dev±Walz, Josefinerate; freeze-thaw
18Methane, production, anaerobic, CH4-C per mass soil organic carbonCH4-C/SOC anaerobmg/gWalz, Josefinefreeze-thaw
19Methane, production, anaerobic, standard deviationCH4 prod anaerob std dev±Walz, Josefinefreeze-thaw
20Methane, production rate, anaerobic, CH4-C per mass soil organic carbonCH4-C/SOC rate anaerobmg/g/dayWalz, Josefinefreeze-thaw
21Methane, production, anaerobic, standard deviationCH4 prod anaerob std dev±Walz, Josefinerate; freeze-thaw
License:
Creative Commons Attribution 3.0 Unported (CC-BY-3.0)
Size:
1590 data points

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