Citation:

PANGAEA.972634 (dataset in review)

Name: Incubation of soils from across a permafrost thaw gradient, in Peera Palsa (Finland)
License: https://creativecommons.org/licenses/by/4.0/
Keywords: Aerobic incubation; Anaerobic incubation; carbon dioxide production; Laboratory experiment; methane production; Palsa; Permafrost; Soil profile; sphagnum

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Abstract:

This dataset reports measurements from a yearlong laboratory incubation of soils sourced from within the discontinuous permafrost zone in northern Finland. Using an aerial imagery chronosequence documenting the aerial mass loss, we identified four thaw stages and sampled three replicate cores from each thaw stage habitat from our field site (Peera palsa). In September 2022, soil cores were collected from four stages of permafrost thaw habitats with the years since the thaw sequence began: Intact Palsa (2021- Present Day), Intermediate Stage (1997-2012), Recent Thaw Stage (1960-1997), and Outside of 1960 area boundary (1960+). The cores from each thaw stage were taken from surface to depths ranging from 15 to 233.5 cm below surface using an Eijelkamp peat corer for the active layer and a SIPRE (Snow, Ice and Permafrost Research Establishment style corer) for the permafrost soil horizon. The cores were subdivided by soil horizon and then sampled from geochemical data to supplement the incubation gas measurements. One core for each horizon was further subsampled every 10cm for detailed geochemical analysis, and the results from these "long cores" can be seen in the second datasheet. The soil horizons were homogenized within each thaw stage group then incubated anaerobically for 384 days in two temperature treatment groups (4, 20°C) and two experimental treatments in the intact palsa thaw stage (subsets of samples were incubated aerobically, other subsets received an addenda of pond water collected at Peera palsa). Gas production from the sample incubations was measured on a gas chromatograph (7890A, Agilent Technologies, USA) with flame ionization detection (FID) for CO2 and CH4 concentrations. The rate of respiration from the samples were calculated per gram carbon and per gram soil as described in the method of Robertson., et al. (1999) and reported here, along with other relevant parameters.

Keyword(s):

Aerobic incubation; Anaerobic incubation; carbon dioxide production; Laboratory experiment; methane production; Palsa; Permafrost; Soil profile; sphagnum

Related to:

Ahti, T; Hämet-Ahti, L; Jalas, L (1968): Vegetation zones and their sections in northwestern Europe. Annales Botanici Fennici, 5(3), 169–211

Baysinger, Mackenzie; Verdonen, Mariana; Kumpula, Timo; Reif, Jakob; Treat, Claire C: Geochemical measurements from permafrost soils across thaw stages in Peera palsa (Finland) [dataset]. PANGAEA, https://doi.pangaea.de/10.1594/PANGAEA.972636

Bosiö, Julia; Johansson, Margareta; Callaghan, Terry V; Johansen, Bernt; Christensen, Torben R (2012): Future vegetation changes in thawing subarctic mires and implications for greenhouse gas exchange—a regional assessment. Climatic Change, 115(2), 379-398, https://doi.org/10.1007/s10584-012-0445-1

Malmer, Nils; Johansson, Torbjörn; Olsrud, Maria; Christensen, Torben R (2005): Vegetation, climatic changes and net carbon sequestration in a North‐Scandinavian subarctic mire over 30 years. Global Change Biology, 11(11), 1895-1909, https://doi.org/10.1111/j.1365-2486.2005.01042.x

Mauquoy, Dmitri; van Geel, Bas (2007): PLANT MACROFOSSIL METHODS AND STUDIES | Mire and Peat Macros. Encyclopedia of Quaternary Science, Elsevier, 2315-2336

Mollenhauer, Gesine; Grotheer, Hendrik; Gentz, Torben; Bonk, Elizabeth; Hefter, Jens (2021): Standard operation procedures and performance of the MICADAS radiocarbon laboratory at Alfred Wegener Institute (AWI), Germany. Nuclear Instruments & Methods in Physics Research Section B-Beam Interactions with Materials and Atoms, 496, 45-51, https://doi.org/10.1016/j.nimb.2021.03.016

Robertson, G Philip; Coleman, David C; Bledsoe, Caroline S; Sollins, Phillip (1999): Standard Soil Methods for Long-Term Ecological Research. Oxford University Press

von Post, L (1922): Sveriges Geologiska Undersöknings torvinventering och några av dess hittills vunna resultat. Svenska mosskulturföreningens tidskrift, 37

Project(s):

Permafrost Research (AWI_Perma)

Funding:

European Research Council (ERC), grant/award no. 851181 : The role of non-growing season processes in the methane and nitrous oxide budgets in pristine northern ecosystems

Coverage:

Latitude: 68.877961 * Longitude: 21.079261

Date/Time Start: 2022-09-10T00:00:00 * Date/Time End: 2022-10-02T00:00:00

Minimum DEPTH, soil: 0.0550 m * Maximum DEPTH, soil: 0.7167 m

Event(s):

FN-Land_2022_Lapland_IncSite * Latitude: 68.877961 * Longitude: 21.079261 * Date/Time Start: 2022-09-10T00:00:00 * Date/Time End: 2022-10-02T00:00:00 * Campaign: (FluxWIN-PALSA) * Basis: AWI Arctic Land Expedition * Method/Device: Core (CORE)

Parameter(s):

#	Name	Short Name	Unit	Principal Investigator	Method/Device	Comment
1	Type of study	Study type		Baysinger, Mackenzie
2	Sample code/label	Sample label		Baysinger, Mackenzie		Identifier for each sample
3	LATITUDE	Latitude		Baysinger, Mackenzie		Geocode
4	LONGITUDE	Longitude		Baysinger, Mackenzie		Geocode
5	Zone	Zone		Baysinger, Mackenzie		Vegzone biome, described in Ahti, Hämet-Ahti, & Jalas, 1968
6	Site	Site		Baysinger, Mackenzie
7	Country	Country		Baysinger, Mackenzie
8	Year of sampling	Year sampl		Baysinger, Mackenzie
9	State of permafrost	State		Baysinger, Mackenzie		Short description of thaw stage, with years since start of thaw sequence
10	Depth, description	Depth desc		Baysinger, Mackenzie		Depth; groups where Top = 0cm - End of first observed horizon, Middle = End of first soil horizon to top of next horizon, Permafrost(if applicable) = The top 12cm of the permafrost soil horizon
11	Incubation temperature	Inc Temp	°C	Baysinger, Mackenzie
12	Experimental treatment	Exp treat		Baysinger, Mackenzie		1 = Received Pond water treatment, 0 = Did not receive pond water treatment
13	Headspace	Hs		Baysinger, Mackenzie
14	Replicate	Repl		Baysinger, Mackenzie		Laboratory replicates of vials receiving the same experiemental treatment (n=3)
15	Day of experiment	DOE	day	Baysinger, Mackenzie		From start of incubation (0) to 384 days of total incubation time
16	Habitat	Habitat		Baysinger, Mackenzie		Abbreviated description of thaw stage
17	Vegetation type	Vegetation type		Baysinger, Mackenzie		Abbreviated description of vegetation, as descirbed in Malmer et al 2005, Bösio et al 2012
18	Major vegetation	Major vegetation		Baysinger, Mackenzie		General description of surface vegetation and observed topography
19	Soil horizon	Soil hori		Baysinger, Mackenzie		General description of soil within the soil horizon group
20	Soil type	Soil type		Baysinger, Mackenzie		O = organic soil, M= mineral soil. Defined by mineral having less than 20% carbon content
21	pH, soil	pH soil		Baysinger, Mackenzie	pH meter (Orion Versa Star Pro, Thermo Fisher Scientific)
22	Conductivity, electrical	Cond electr	µS/cm	Baysinger, Mackenzie	pH meter (Orion Versa Star Pro, Thermo Fisher Scientific)
23	Soil water content, volumetric	vol SWC	%	Baysinger, Mackenzie
24	Density, wet bulk	WBD	g/cm³	Baysinger, Mackenzie
25	Carbon, total	TC	%	Baysinger, Mackenzie	Carbon and nitrogen and sulfur (CNS) isotope element analyzer, Elementar, Vario EL III
26	Carbon, organic, total	TOC	%	Baysinger, Mackenzie	Carbon and nitrogen and sulfur (CNS) isotope element analyzer, Elementar, Vario EL III
27	Nitrogen, total	TN	%	Baysinger, Mackenzie	Carbon and nitrogen and sulfur (CNS) isotope element analyzer, Elementar, Vario EL III
28	Carbon/Nitrogen ratio	C/N		Baysinger, Mackenzie	Carbon and nitrogen and sulfur (CNS) isotope element analyzer, Elementar, Vario EL III
29	Depth, soil, minimum	Depth soil min	m	Baysinger, Mackenzie		Depth; Top of soil core where 0 = vegetative surface
30	Depth, soil, maximum	Depth soil max	m	Baysinger, Mackenzie		Depth; bottom of soil core segment where 0 = vegetative surface
31	DEPTH, soil	Depth soil	m	Baysinger, Mackenzie		Geocode – Depth; average of core segment below vegetative surface
32	Von Post Humification Scale	Von Post grade		Baysinger, Mackenzie		Described in von Post, 1922
33	Macrofossil debris	Macrofossil debris		Baysinger, Mackenzie		Described in Mauquoy & van Geel, 2007
34	Latitude 2	Latitude 2		Baysinger, Mackenzie		Long core
35	Longitude 2	Longitude 2		Baysinger, Mackenzie		Long core
36	Latitude 2	Latitude 2		Baysinger, Mackenzie		Spatial Replicate Core 1
37	Longitude 2	Longitude 2		Baysinger, Mackenzie		Spatial Replicate Core 1
38	Latitude 2	Latitude 2		Baysinger, Mackenzie		Spatial Replicate Core 2
39	Longitude 2	Longitude 2		Baysinger, Mackenzie		Spatial Replicate Core 2
40	Carbon dioxide, production rate, CO2-C per mass soil	CO2-C/soil rate	µg/g/day	Baysinger, Mackenzie	Gas chromatograph, Agilent, 7890A; with flame ionization detection (FID)
41	Methane, production rate, CH4-C per mass soil	CH4-C/soil rate	µg/g/day	Baysinger, Mackenzie	Gas chromatograph, Agilent, 7890A; with flame ionization detection (FID)
42	Carbon dioxide, production rate, CO2-C per mass carbon	CO2-C/C rate	µg/g/day	Baysinger, Mackenzie	Gas chromatograph, Agilent, 7890A; with flame ionization detection (FID)
43	Methane, production rate, CH4-C per mass carbon	CH4-C/C rate	µg/g/day	Baysinger, Mackenzie	Gas chromatograph, Agilent, 7890A; with flame ionization detection (FID)

License:

Creative Commons Attribution 4.0 International (CC-BY-4.0) (License comes into effect after moratorium ends)

Status:

Curation Level: Enhanced curation (CurationLevelC)

Size:

66536 data points

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