@misc{https://doi.org/10.1594/pangaea.919217,
doi = {10.1594/PANGAEA.919217},
url = {https://doi.pangaea.de/10.1594/PANGAEA.919217},
author = {Voigt,
Carolina and van Delden,
Lona and Marushchak,
Maija E and Biasi,
Christina and Abbott,
Benjamin W and Elberling,
Bo and Siciliano,
Steven D and Sonnentag,
Oliver and Stewart,
Katherine J and Yang,
Yuanhe and Martikainen,
Pertti J},
keywords = {Event label,
Sample code/label,
Nitrous oxide,
flux,
in mass nitrous oxide,
Permafrost extent,
Zone,
Ecosystem,
Vegetation type,
Location,
Country,
Area/locality,
Site,
LATITUDE,
LONGITUDE,
Number of measurement seasons,
Year of observation,
Month,
Day,
Organic carbon,
soil,
Nitrogen,
soil,
Carbon/Nitrogen ratio,
Ammonium,
Nitrate,
pH,
soil,
Soil organic matter,
Density,
active layer,
bulk,
Soil moisture,
Soil water content,
gravimetric,
Soil water content,
volumetric,
Water holding capacity,
Water filled pore space,
Water filled pore space,
calculated,
Temperature,
air,
annual mean,
Temperature,
air,
Temperature,
soil,
Precipitation,
annual mean,
Thaw depth of active layer,
mean,
Thaw depth of active layer,
maximum,
Type of study,
Hemeroby/disturbance,
Experimental treatment,
Disturbance Type,
Number of measurements,
Replicates,
Original value,
Original unit,
Analytical method,
Type of chamber,
Time in minutes,
Number of points,
Presence/absence,
Publication of data,
Reference of data},
language = {en},
title = {Nitrous oxide fluxes from permafrost regions},
publisher = {PANGAEA},
year = {2020},
copyright = {Creative Commons Attribution 4.0 International} }