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Treat, Claire C; Jones, Miriam C; Camill, Philip; Gallego-Sala, Angela V; Garneau, Michelle; Harden, Jennifer W; Hugelius, Gustaf; Klein, Eric S; Kokfelt, Ulla; Kuhry, Peter; Loisel, Julie; Mathijssen, Paul J H; O'Donnell, Jonathan A; Oksanen, Pirita O; Ronkainen, Tiina M; Sannel, A Britta K; Talbot, Julie; Tarnocai, Charles; Väliranta, Minna (2016): (Table S1) Site locations of cores and descriptions. PANGAEA, https://doi.org/10.1594/PANGAEA.863689, In supplement to: Treat, CC et al. (2016): Effects of permafrost aggradation on peat properties as determined from a pan-Arctic synthesis of plant macrofossils. Journal of Geophysical Research: Biogeosciences, 121(1), 78-94, https://doi.org/10.1002/2015JG003061

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Related to:
Allard, Michel; Seguin, M K (1987): The Holocene evolution of permafrost near the tree line, on the eastern coast of Hudson Bay (northern Quebec). Canadian Journal of Earth Sciences, 24(11), 2206-2222, https://doi.org/10.1139/e87-209
Andersson, Rina A; Kuhry, Peter; Meyers, Philip; Zebühr, Yngve; Crill, Patrick; Mörth, Magnus (2011): Impacts of paleohydrological changes on n-alkane biomarker compositions of a Holocene peat sequence in the eastern European Russian Arctic. Organic Geochemistry, 42(9), 1065-1075, https://doi.org/10.1016/j.orggeochem.2011.06.020
Andreev, Andrei A; Klimanov, Vladimir A; Sulerzhitsky, Leopold D (2001): Vegetation and climate history of the Yana River lowland, Russia, during the last 6400 yr. Quaternary Science Reviews, 20(1-3), 259-266, https://doi.org/10.1016/S0277-3791(00)00118-9
Andreev, Andrei A; Klimanov, Vladimir A; Sulerzhitsky, Leopold D (1997): Younger Dryas pollen records from central and southern Yakutia. Quaternary International, 41-42, 111-117, https://doi.org/10.1016/S1040-6182(96)00042-0
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Arlen-Pouliot, Y; Bhiry, Najat (2005): Palaeoecology of a palsa and a filled thermokarst pond in a permafrost peatland, subarctic Québec, Canada. The Holocene, 15(3), 408-419, https://doi.org/10.1191/0959683605hl818rp
Bauer, Ilka E; Vitt, Dale H (2011): Peatland dynamics in a complex landscape: Development of a fen-bog complex in the Sporadic Discontinuous Permafrost zone of northern Alberta, Canada. Boreas, 40(4), 714-726, https://doi.org/10.1111/j.1502-3885.2011.00210.x
Beaulieu-Audy, Véronique; Garneau, Michelle; Richard, Pierre J H; Asnong, Hans (2009): Holocene palaeoecological reconstruction of three boreal peatlands in the La Grande Riviere region, Quebec, Canada. The Holocene, 19(3), 459-476, https://doi.org/10.1177/0959683608101395
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Blyakharchuk, Tatyana A; Sulerzhitsky, Leopold D (1999): Holocene vegetational and climatic changes in the forest zone of Western Siberia according to pollen records from the extrazonal palsa bog Bugristoye. The Holocene, 9(5), 621-628, https://doi.org/10.1191/095968399676614561
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Elias, Scott A (1982): Paleoenvironmental Interpretation of Holocene Insect Fossils from Northeastern Labrador, Canada. Arctic, Antarctic, and Alpine Research, 14(4), 311-319, https://doi.org/10.2307/1550794
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Ellis, Christopher James; Rochefort, Line (2006): Long-term sensitivity of a High Arctic wetland to Holocene climate change. Journal of Ecology, 94(2), 441-454, https://doi.org/10.1111/j.1365-2745.2005.01085.x
Fillion, M-E; Bhiry, Najat; Touazi, M (2014): Differential Development of Two Palsa Fields in a Peatland Located Near Whapmagoostui-Kuujjuarapik, Northern Québec, Canada. Arctic, Antarctic, and Alpine Research, 46(1), 40-54, https://doi.org/10.1657/1938-4246-46.1.40
Garneau, Michelle (1992): Analyses macrofossiles d'un dépot de tourbe dans la région de Hot Weather Creek, péninsule de Fosheim, île d'Ellesmere, Territoires du Nord-Ouest. Géographie physique et Quaternaire, 46(3), 285, https://doi.org/10.7202/032915ar
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Hayes, Marilou (2011): Validation du signal d18O dans la cellulose de bryophytes de tourbieres comme indicateur paleoclimatique et son application dans la reconstitution paleaoenvironnementale d'une tourbiere a palses. PhD Thesis, University Du Quebec A Montreal, Montreal, Que, CA, 148 pp, hdl:10013/epic.48328.d001
Holmquist, James R; MacDonald, Glen M; Gallego-Sala, Angela V (2014): Peatland Initiation, Carbon Accumulation, and 2 ka Depth in the James Bay Lowland and Adjacent Regions. Arctic, Antarctic, and Alpine Research, 46(1), 19-39, https://doi.org/10.1657/1938-4246-46.1.19
Hugelius, Gustaf; Routh, Joyanto; Kuhry, Peter; Crill, Patrick (2012): Mapping the degree of decomposition and thaw remobilization potential of soil organic matter in discontinuous permafrost terrain. Journal of Geophysical Research: Biogeosciences, 117(G2), https://doi.org/10.1029/2011JG001873
Hunt, Stephanie; Yu, Zicheng; Jones, Miriam C (2013): Lateglacial and Holocene climate, disturbance and permafrost peatland dynamics on the Seward Peninsula, western Alaska. Quaternary Science Reviews, 63, 42-58, https://doi.org/10.1016/j.quascirev.2012.11.019
Jankovská, Vlasta; Andreev, Andrei A; Panova, Nata (2006): Holocene environmental history on the eastern slope of the Polar Ural Mountains, Russia. Boreas, 35(4), 650-661, https://doi.org/10.1111/j.1502-3885.2006.tb01171.x
Jasinski, J P Paul; Warner, Barry G; Andreev, Andrei A; Aravena, Ramon; Gilbert, S E; Zeeb, B A; Smol, John P; Velichko, Andrei A (1998): Holocene environmental history of a peatland in the Lena River valley, Siberia. Canadian Journal of Earth Sciences, 35(6), 637-648, https://doi.org/10.1139/e98-015
Johnston, Carmel E; Ewing, Stephanie A; Harden, Jennifer W; Varner, Ruth; Wickland, Kimberly P; Koch, Joshua C; Fuller, C C; Manies, Kristen; Jorgenson, M Torre (2014): Effect of permafrost thaw on CO2 and CH4 exchange in a western Alaska peatland chronosequence. Environmental Research Letters, 9(8), 085004, https://doi.org/10.1088/1748-9326/9/8/085004
Jones, Miriam C; Booth, Robert K; Yu, Zicheng; Ferry, Paul (2013): A 2200-Year Record of Permafrost Dynamics and Carbon Cycling in a Collapse-Scar Bog, Interior Alaska. Ecosystems, 16(1), 1-19, https://doi.org/10.1007/s10021-012-9592-5
Jones, Miriam C; Grosse, Guido; Jones, Benjamin M; Walter Anthony, Katey M (2012): Peat accumulation in drained thermokarst lake basins in continuous, ice-rich permafrost, northern Seward Peninsula, Alaska. Journal of Geophysical Research: Biogeosciences, 117(G2), n/a-n/a, https://doi.org/10.1029/2011JG001766
Jones, Miriam C; Harden, Jennifer W; O'Donnell, Jonathan A; Manies, Kristen; Jorgenson, M Torre; Treat, Claire C; Ewing, Stephanie A (2016): Rapid carbon loss and slow recovery following permafrost thaw in boreal peatlands. Global Change Biology, https://doi.org/10.1111/gcb.13403
Kettles, I M; Garneau, Michelle; Jetté, H (2000): Macrofossil, pollen, and geochemical records of peatlands in the Knosheo Lake and Detour Lake areas, northern Ontario. Geological Survey of Canada Bulletin, 545, 28, https://doi.org/10.4095/211326
Kettles, I M; Robinson, Stephen D; Bastien, D-F; Garneau, Michelle; Hall, G E M (2003): Physical, geochemical, macrofossil, and ground penetrating radar information on fourteen permafrost-affected peatlands in the Mackenzie Valley, Northwest Territories. Geological Survey of Canada Open File 4007, Ottawa, https://doi.org/10.4095/214221
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Kuhry, Peter (2008): Palsa and peat plateau development in the Hudson Bay Lowlands, Canada: timing, pathways and causes. Boreas, 37(2), 316-327, https://doi.org/10.1111/j.1502-3885.2007.00022.x
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LaFarge-England, Catherine; Vitt, Dale H; England, John (1991): Holocene Soligenous Fens on a High Arctic Fault Block, Northern Ellesmere Island (82 degrees N), N.W.T., Canada. Arctic, Antarctic, and Alpine Research, 23(1), 80, https://doi.org/10.2307/1551441
Lamarre, Alexandre; Garneau, Michelle; Asnong, Hans (2012): Holocene paleohydrological reconstruction and carbon accumulation of a permafrost peatland using testate amoeba and macrofossil analyses, Kuujjuarapik, subarctic Québec, Canada. Review of Palaeobotany and Palynology, 186, 131-141, https://doi.org/10.1016/j.revpalbo.2012.04.009
Loisel, Julie; Garneau, Michelle (2010): Late Holocene paleoecohydrology and carbon accumulation estimates from two boreal peat bogs in eastern Canada: Potential and limits of multi-proxy archives. Palaeogeography, Palaeoclimatology, Palaeoecology, 291(3-4), 493-533, https://doi.org/10.1016/j.palaeo.2010.03.020
Loisel, Julie; Yu, Zicheng (2013): Recent acceleration of carbon accumulation in a boreal peatland, south central Alaska. Journal of Geophysical Research: Biogeosciences, 118(1), 41-53, https://doi.org/10.1029/2012jg001978
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Coverage:
Median Latitude: 61.840524 * Median Longitude: -131.455340 * South-bound Latitude: 47.680000 * West-bound Longitude: 19.050000 * North-bound Latitude: 82.200000 * East-bound Longitude: -62.350000
Minimum DEPTH, sediment/rock: 0.195 m * Maximum DEPTH, sediment/rock: 7.350 m
Event(s):
Aero_1 (Aero_core1) * Latitude: 54.100000 * Longitude: -72.520000 * Elevation: 162.0 m * Recovery: 110 cm * Location: Canada * Method/Device: Peat corer (PEATC) * Comment: Details peat core Aero core1 : Coring year: 2005 ; peatland type: fen ; basal age depth: 109.5 cm; basal age: 4790 uncalib.; basal age: 5485 calBP; n dates: 14 ; Core microtopography: string ; carbon rate site: Y3 ; peat properties site: Y ; peat properties sample size: 1 cm^3
Antoine_Lake * Latitude: 61.730000 * Longitude: -121.750000 * Elevation: 190.0 m
Baillie_Bog * Latitude: 64.710000 * Longitude: -105.580000 * Elevation: 300.0 m
Parameter(s):
#NameShort NameUnitPrincipal InvestigatorMethod/DeviceComment
1Event labelEventTreat, Claire C
2SiteSiteTreat, Claire C
3CoreCoreTreat, Claire C
4LATITUDELatitudeTreat, Claire CGeocode
5LONGITUDELongitudeTreat, Claire CGeocode
6Height above sea floor/altitudeHeightmTreat, Claire C
7DEPTH, sediment/rockDepthmTreat, Claire CGeocode – basal depth
8AGEAgeka BPTreat, Claire CGeocode – basal age 14C
9Age, errorAge e±Treat, Claire C
10Age, upper confidence levelAge UCLa ADTreat, Claire Cmin age 95 % CI
11Age, lower confidence levelAge LCLa ADTreat, Claire Cmax age 95 % CI
12Age modelAge modelkaTreat, Claire CMedian
13Laboratory code/labelLab labelTreat, Claire C
14Numbern#Treat, Claire CNumber of dates
15AnalysisAnalysisTreat, Claire CBulk density
16AnalysisAnalysisTreat, Claire C% OM
17AnalysisAnalysisTreat, Claire C% C
18AnalysisAnalysisTreat, Claire C% N
19AnalysisAnalysisTreat, Claire CC:N
20AnalysisAnalysisTreat, Claire CCacc_noQC
21AnalysisAnalysisTreat, Claire CCaccumulation (1/kya)
22AnalysisAnalysisTreat, Claire CPeat Type
23AnalysisAnalysisTreat, Claire CEcosystem Type
24Reference/sourceReferenceTreat, Claire C
25IdentificationIDTreat, Claire CReference number
26IdentificationIDTreat, Claire CAuth-Site-CoreID
27CommentCommentTreat, Claire Cx = in Loisel et al., 2014
Size:
6266 data points

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