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- Björk, Robert G., 1974, et al.
(author)
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Climate-related soil changes in tundra ecosystems at Latnjajaure, northern Sweden – an ITEX-IPY project
- 2010
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In: International Polar Year Oslo Science Conference.
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Conference paper (peer-reviewed)abstract
- During the 90'ies, the International Tundra Experiment (ITEX) was established as a leading project in arctic and alpine ecology, and has become a model for many later network establishments. The present study capitalizes on the early efforts of ITEX and aims at assessing ecosystem changes in the alpine areas of northern Sweden above timberline, i.e. the tundra, in relation to global change. By using the "old" ITEX plots established during the early years of the program we have measured ecosystem respiration (ER), the Normalized Difference Vegetation Index, and nitrogen (N) mineralization over the growing season. In addition, have soil samples been taken to quantify changes in the carbon (C) and N pool, including 13C and 15N. After 12 to 15 years of open top chamber (OTC) treatment no statistical effect was found on the soil temperature (10 cm soil depth), although the was an overall increase in all OTC by +0.2°C. However, the soil moisture decreased significantly by 3-14%, depending on plant community, in the OTCs compared to ambient conditions. Preliminary, there was a 20-37% non-significant higher mean ER in the OTC compared to the ambient plots over the growing season. Furthermore, the OTC treatment did not affect the growing season mineralization of inorganic N, or total C and N content of the soil. The stable isotope data showed both enrichment and depletion as a consequence of the OTC treatment, but no general pattern was discerned. Thus, this non-significant higher ER is most likely of plant origin than soil, as the plant standing biomass has increased in the OTCs. This study does not support the current consensus that tundra soils will alter their C and N dynamics in response to climate change.
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| 2. |
- Elmendorf, Sarah C., et al.
(author)
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Assessments of recent tundra change based on repeated vegetation surveys.
- 2010
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In: Abstract GC53B-05 presented at 2010 Fall Meeting, AGU, San Francisco, Calif., 13-17 Dec..
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Conference paper (peer-reviewed)abstract
- Results from experimental warming studies suggest tundra vegetation will respond rapidly and dramatically to climate warming, and indeed, NDVI data from remote sensing and repeat aerial photography suggest such changes may already be occurring. NDVI changes, however, may reflect responses to a variety of processes. Repeat measurements of permanently marked plots offer an invaluable opportunity to monitor detailed changes in vegetation composition and abundance. Here, we report results from a synthesis of repeat measurements of 195 permanent plots in Arctic and alpine tundra plant communities in North America (90 plots), Europe (82 plots), Asia (10 plots), Australia (12 plots), and Antarctica (1 plot) that were revisited at least twice between 1980 and 2010, with an average timespan of 13 years between first and last sampling periods. Annual air-temperature warming over the sampling period varied considerably among sites, ranging from slight cooling to increases of nearly 2°C per decade. In our preliminary analyses, we found significant tundra-wide increases in vegetation height as well as abundance of evergreen shrubs and graminoids, but declines in mosses. We anticipated that changes in vegetation height, abundance of deciduous shrubs, and percent of vegetated ground would be highest in areas where climate warming is occurring most rapidly, but found no support for these predictions in our observational dataset. It is possible that local vegetation dynamics in these areas are affected more by other longer-term non-equilibrium processes such as recovery from glaciation, or an alternative suite of local drivers, such as snow cover, precipitation, disturbance or herbivory.
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