PERMTHAW dataset 1, including soil biochemical, GHG flux and microbiological data from the tussock tundra sites Latnjajaure and Corrvosjávri in northern Sweden
SND-ID: 2021-290-1. Version: 1. DOI: https://doi.org/10.5878/q65n-vv46
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- microbiological_data_2017_archaea16S.csv (416.7 KB)
- microbiological_data_2017_bacteria16S.csv (14.38 MB)
- microbiological_data_2017_methanogens_mcrA.csv (90.03 KB)
- microbiological_data_2017_methanotrophs_pmoA.csv (119.14 KB)
- Soil biochemical data 2017_data.csv (7.86 KB)
- Soil biochemical data 2017_readme.csv (1.45 KB)
- Fluxdata.xlsx (32 KB)
- microbiological_data_2017.xlsx (6.36 MB)
- Soil biochemical data 2017.xlsx (19.93 KB)
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Citation
Alternative title
PERMTHAW
Creator/Principal investigator(s)
Mats P. Björkman
- University of Gothenburg, Department of Earth Sciences
Christoph Keuschnig
- École Centrale de Lyon, Environmental Microbial Genomics, Laboratoire Ampère
Robert G. Björk
- University of Gothenburg, Department of Earth Sciences
Catherine Larose
- École Centrale de Lyon, Environmental Microbial Genomics, Laboratoire Ampère
Research principal
University of Gothenburg
- Department of Earth Sciences
Description
Permafrost soils contain approximately 1672 petagram carbon (C), twice the amount of the current atmosphere, and constitute 50% of the world’s belowground C pool. Along with the current change in climate these high latitudinal soils experience increased temperatures, more than any other region, with permafrost degradation as a result. Such thaw of permafrost releases ancient organic matter that has been stored in the frozen soils for centuries. Following microbial degradation, this organic matter can be released to the atmosphere as carbon dioxide (CO2) and methane (CH4), further influencing the climate systems. Thus, a changed climate leads to server alterations of the carbon (C) balance in Arctic and high altitude ecosystems. However, research up to today has mostly focused on the impact of permafrost thaw and the time horizon immediately following this degradation.
This project aims for understanding the future that lies ahead, following thaw and establishment of new non-permafrost ecosystems, and how the predicted climate variability will influence these soils on a decadal timescale. By
This project aims for understanding the future that lies ahead, following thaw and establishment of new non-permafrost ecosystems, and how the predicted climate variability will influence these soils on a decadal timescale. By using a natural occurring permafrost degradation transects, this project investigates how the C cycling changes following thaw.
Site description:
Two tussock tundra sites was used in this study: at lake Latnjajaure (68°21.2’N, 18°29.3’E and 981 m a.s.l.) and at lake Corrvosjávri (68°24.9’N, 18°38.1’E, and 814 m a.s.l.). Both sites and the initial vegetation description and method for vegetation survey (repeated in this study) are described in Molau 2010.
At each site 9 soil collar (diameter of 20cm) was installed in groups of three.
Data:
Vegetation data, see Molau 2010.
CH4 and CO2 measurements were conducted with an ultraportable greenhouse gas analyser (Los Gatos Research, San Jose, California, U.S.) connected to a transparent chamber (height: 20 cm, diameter 20cm).
Soil temperatures (hand held thermometer) and soil moisture (Delta-T device) was measured along with each flux measurement.
Soil temperatures were also measured at -2 and -30 cm using a soil probe and at TinyTag logger and used for comparison using temperatures averaged for each measurement period.
Soil biogeochemical and microbial data was sampled at surface (0-5cm) and deep (15-30cm) soils using a soil corer at bi-weekly interval during growing-season 2017. Flux measurements were conducted at bi-weekly intervals also in 2016 and 2018.
Molau U. 2010. Long-term impacts of observed and induced climate change on tussock tundra near its southern limit in northern Sweden. Plant Ecol Divers 3:29–34.
Formats:
.xlsx and sheetwise semicolon-separated .csv (UTF-8).
Column headings are verbose where possible. Refer to the soil data readme sheet for further heading details. Show less..
Data contains personal data
No
Language
Time period(s) investigated
2016 – 2018
Data format / data structure
Responsible department/unit
Department of Earth Sciences
Contributor(s)
Stéphane Doleac - University of Gothenburg, Department of Earth Sciences
Mario Rudner - University of Gothenburg, Department of Earth Sciences
Leif Klemedtsson
- University of Gothenburg, Department of Earth Sciences
Argus Pesqueda - University of Gothenburg, Department of Earth Sciences
Bo Elberling
- University of Copenhagen, Center for Permafrost (CENPERM), Department of Geosciences and Natural Resource Management
Funding 1
- Funding agency: Horizon 2020 Framework Programme - Marie Skłodowska-Curie Individual Fellowships (IF-EF)
- Funding agency's reference number: 657627
- Project name on the application: Permafrost thaw – decadal responses to climate change
Funding 2
- Funding agency: Helge Ax:son Johnsons stiftelse
Funding 3
-
Funding agency:
Carl Trygger Foundation
Funding 4
-
Funding agency:
FORMAS (Swedish Research Council for Environment Agricultural Sciences and Spatial Planning)
- Funding agency's reference number: 2016-01187
- Project name on the application: Thawing permafrost soils – long-term impacts on ecosystems carbon and nitrogen dynamics
Funding 5
-
Funding agency:
Wilhelm och Martina Lundgrens stiftelser
Funding 1
- Funding agency: Horizon 2020 Framework Programme - Marie Skłodowska-Curie Individual Fellowships (IF-EF)
- Funding agency's reference number: 657627
- Project name on the application: Permafrost thaw – decadal responses to climate change
Funding 2
- Funding agency: Helge Ax:son Johnsons stiftelse
Funding 3
-
Funding agency:
Carl Trygger Foundation
Funding 4
-
Funding agency:
FORMAS (Swedish Research Council for Environment Agricultural Sciences and Spatial Planning)
- Funding agency's reference number: 2016-01187
- Project name on the application: Thawing permafrost soils – long-term impacts on ecosystems carbon and nitrogen dynamics
Funding 5
-
Funding agency:
Wilhelm och Martina Lundgrens stiftelser
Funding 6
- Funding agency: BECC - Biodiversity and Ecosystem services in a Changing Climate
Funding 7
- Funding agency: SITES - Swedish Infrastructure for Ecosystem Science
Funding 8
-
Funding agency:
Knut and Alice Wallenberg Foundation
Research area
Climate research (Standard för svensk indelning av forskningsämnen 2011)
Environmental sciences (Standard för svensk indelning av forskningsämnen 2011)
Microbiology (Standard för svensk indelning av forskningsämnen 2011)
Ecology (Standard för svensk indelning av forskningsämnen 2011)
Biota (INSPIRE topic categories)
Environment (INSPIRE topic categories)
Molau, U. (2010). Long-term impacts of observed and induced climate change on tussock tundra near its southern limit in northern Sweden. In PLANT ECOLOGY & DIVERSITY (Vol. 3, Issue 1, pp. 29–34).
DOI:
https://doi.org/10.1080/17550874.2010.487548
Keuschnig, C., Larose, C., Rudner, M., Pesqueda, A., Doleac, S., Elberling, B., Björk, R. G., Klemedtsson, L., & Björkman, M. P. (2022). Reduced methane emissions in former permafrost soils driven by vegetation and microbial changes following drainage. Global Change Biology, 00, 1– 15. https://doi.org/10.1111/gcb.16137
DOI:
https://doi.org/10.1111/gcb.16137
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