Spatial variation and linkages of soil and vegetation in the Siberian Arctic tundra – coupling field observations with remote sensing data

Abstract: Abstract. Arctic tundra ecosystems will have a key role in future climate change due to intensifying permafrost thawing, plant growth and ecosystem carbon exchange, but monitoring these changes may be challenging due to the heterogeneity 20 of Arctic landscapes. We examined spatial variation and linkages of soil and plant attributes in a site of Siberian Arctic tundra in Tiksi, northeast Russia, and evaluated possibilities to capture this variation by remote sensing for the benefit of carbon exchange measureme… Show more

“…The mean annual temperature and precipitation at Tiksi in 1981-2010 were -12.7 °C and 323 mm, respectively (AARI, 2018). The study area is within the continuous permafrost zone; the depth of the active soil layer typically varied within 0.2-0.4 m in early Julymid-August 2014 (Mikola et al, 2018). The landscape around the EC tower represents the coastal tundra zone of eastern Siberia with a high diversity of plant species and communities (Nyman, 2015;Juutinen et al, 2017;Mikola et al, 2018).…”

“…The land cover classification was based on seven visually judged plant community types (PCTs) augmented by two nonvegetated surfaces: (1) wet fen, (2) dry fen, (3) bog, (4) graminoid tundra, (5) flood meadow, (6) shrub tundra, (7) lichen tundra, (8) bare ground and (9) water (Mikola et al, 2018). The PCTs were identified within an area of 1 km 2 around the EC tower on the basis of an extensive vegetation and soil survey.…”

“…The internal and external classification accuracy of the land cover classification were 80 and 49 %, respectively. For details, see Mikola et al (2018).…”

“…TWI is defined as a function of the upslope contributing area and the local terrain slope, and thus it serves as a proxy for potential soil moisture. For details of the DEM and TWI data, see Mikola et al (2018). All maps have a 2 m pixel size, and in this study they were limited to a circle with a radius of 1.4 km from the EC tower, which defines the domain of the present study.…”

“…Arctic tundra serves as a prime example of a surface that is heterogeneous with respect to biogeochemical processes. The vegetation, soil and land cover structure of tundra areas are fragmented, the landscape typically comprising patches of different plant communities, water bodies and other land cover types (Stow et al, 2004;Virtanen and Ek, 2014;Mikola et al, 2018). Such heterogeneity concerns both the composition and configuration of surface properties.…”

Interpreting eddy covariance data from heterogeneous Siberian tundra: land cover-specific methane fluxes and spatial representativeness

“…The mean annual temperature and precipitation at Tiksi in 1981-2010 were -12.7 °C and 323 mm, respectively (AARI, 2018). The study area is within the continuous permafrost zone; the depth of the active soil layer typically varied within 0.2-0.4 m in early Julymid-August 2014 (Mikola et al, 2018). The landscape around the EC tower represents the coastal tundra zone of eastern Siberia with a high diversity of plant species and communities (Nyman, 2015;Juutinen et al, 2017;Mikola et al, 2018).…”

“…The land cover classification was based on seven visually judged plant community types (PCTs) augmented by two nonvegetated surfaces: (1) wet fen, (2) dry fen, (3) bog, (4) graminoid tundra, (5) flood meadow, (6) shrub tundra, (7) lichen tundra, (8) bare ground and (9) water (Mikola et al, 2018). The PCTs were identified within an area of 1 km 2 around the EC tower on the basis of an extensive vegetation and soil survey.…”

“…The internal and external classification accuracy of the land cover classification were 80 and 49 %, respectively. For details, see Mikola et al (2018).…”

“…TWI is defined as a function of the upslope contributing area and the local terrain slope, and thus it serves as a proxy for potential soil moisture. For details of the DEM and TWI data, see Mikola et al (2018). All maps have a 2 m pixel size, and in this study they were limited to a circle with a radius of 1.4 km from the EC tower, which defines the domain of the present study.…”

“…Arctic tundra serves as a prime example of a surface that is heterogeneous with respect to biogeochemical processes. The vegetation, soil and land cover structure of tundra areas are fragmented, the landscape typically comprising patches of different plant communities, water bodies and other land cover types (Stow et al, 2004;Virtanen and Ek, 2014;Mikola et al, 2018). Such heterogeneity concerns both the composition and configuration of surface properties.…”

Interpreting eddy covariance data from heterogeneous Siberian tundra: land cover-specific methane fluxes and spatial representativeness

Interannual Variability of Summer Net Ecosystem CO₂ Exchange in High Arctic Tundra

Data from: Spatial variation and linkages of soil and vegetation in the Siberian Arctic tundra – coupling field observations with remote sensing data