Metadata Records

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Title Geographical coordinates Keywords
Can-Peat Sub-Project - Determining Potential for Restoration & Reclamation To Mitigate GHG from Disturbed Peatlands
North: 55.294
South: 46.747
East: -68.0
West: -114.884
carbon dioxide methane vegetation reclamation/restoration land-use
Geochemistry of Sandhill Fen (SF4 C3) peat core from Canada
North: 53.8261
South: 53.8261
East: -104.625
West: -104.625
soil carbon peat properties fen
Geochemistry of Joey_core7 peat core from Canada
North: 55.46
South: 55.46
East: -98.16
West: -98.16
soil carbon peat properties Bog Permafrost nitrogen
Geochemistry of Joey_core5 peat core from Canada
North: 55.46
South: 55.46
East: -98.16
West: -98.16
soil carbon peat properties Bog Permafrost nitrogen
Peat chemistry: Raw data and quality control, Seba Beach peat samples used for microbial analyses and microcosms, 2016-2017
North: 53.55
South: 53.55
East: -114.73333333333333
West: -114.73333333333333
peat properties
CO2, H, H2O fluxes from a mixed Acadian forest
North: 46.0092
South: 46.0092
East: -66.3627
West: -66.3627
carbon dioxide
Mapping peat environments
North: 50.794144
South: 45.443707
East: -59.472728
West: -79.478398
mapping mining Bog
Global Peat C and N data (2018-2020)
North: 83.15
South: 41.909
East: -52.619
West: -141.010
soil carbon nitrogen
CO2, H, H2O, CH4 fluxes from Attawapiskat River Bog permanent wetland
North: 52.6950
South: 52.6950
East: -83.9452
West: -83.9452
carbon dioxide methane peat properties Bog
Major Peat Resource Potential Map
North: 60.00
South: 49.00
East: -102.00
West: -110.00
mapping land-use metals oil and gas
CO2, H, H2O, CH4 fluxes from Attawapiskat River Fen permanent wetland
North: 52.7008
South: 52.7008
East: -83.9550
West: -83.9550
carbon dioxide methane peat properties Fen
CO2, CH4, H, H2O fluxes from Bouleau Peatland permanent wetland
North: 50.5244
South: 50.5244
East: -63.2064
West: -63.2064
carbon dioxide methane bog
Geochemistry of Joey_core12 peat core from Canada
North: 55.47
South: 55.47
East: -98.15
West: -98.15
soil carbon peat properties Bog Permafrost nitrogen
Geochemistry of KUJU (PD2) peat core from Canada
North: 55.23
South: 55.23
East: -77.70
West: -77.70
soil carbon peat properties Bog Permafrost
Peat carbon, δ14C, macrofossil, and humification data from a thawing permafrost peatland in western Canada
North: 59.5
South: 59.5
East: -117.2
West: -117.2
peat properties soil carbon Bog Biogeochemistry Permafrost
Physicochemical properties of 63 peat samples with methanogenic and methanotrophic sequence count above the rarefaction threshold
North: 53.47559844767098
South: 53.4464826061887
East: -114.85026231521887
West: -114.87984827452631
peat properties methane dissolved organic carbon
Net ecosystem carbon balance of a peat bog undergoing restoration: integrating CO2 and CH4 fluxes from eddy covariance and aquatic evasion with DOC drainage fluxes
North: 49.129350
South: 49.129350
East: -122.984917
West: -122.984917
carbon dioxide methane reclamation/restoration Bog drainage
Geochemistry of Joey_core2 peat core from Canada
North: 55.47
South: 55.47
East: -98.16
West: -98.16
soil carbon peat properties Bog Permafrost nitrogen
Carbon dioxide, hydrogen, and water fluxes from mixed deciduous Borden Forest site in Ontario
North: 44.3184
South: 44.3184
East: -79.9341
West: -79.9341
carbon dioxide
Carbon Dioxide, Hydrogen, and Water Fluxes from a Subarctic Northern Fen West of Hudson Bay
North: 58.6658
South: 58.6658
East: -93.8300
West: -93.8300
carbon dioxide Fen
Carbon Dioxide, Methane, Hydrogen, and Water Fluxes from a Northern Subarctic Fen
North: 58.6658
South: 58.6658
East: -93.8300
West: -93.8300
carbon dioxide methane Fen
Drainage reduces the resilience of a boreal peatland
North: 52.693333
South: 52.693333
East: -83.944722
West: -83.944722
carbon dioxide vegetation hydrology effects of disturbance Bog drainage
Carbon Dioxide, Methane, Hydrogen, and Water fluxes from a Subarctic Northern Fen West of Hudson Bay
North: 58.6658
South: 58.6658
East: -93.8304
West: -93.8304
carbon dioxide methane Fen
Presence of Access Roads Results in Reduced Growing Season Carbon Uptake in Adjacent Boreal Peatlands (2016-2017)
North: 56.451758032796285
South: 56.451758032796285
East: -117.10142669953595
West: -117.10142669953595
reclamation/restoration methane carbon dioxide vegetation Fen Bog
Carbon Dioxide, Hydrogen, and Water fluxes from a balsam fir forest in New Brunswick
North: 45.8847
South: 45.8847
East: -67.3569
West: -67.3569
carbon dioxide
Road impact on methane (2016-2017)
North: 56.45109202548657
South: 56.45109202548657
East: -117.10309534038201
West: -117.10309534038201
methane vegetation effects of disturbance Fen Bog
Carbon Dioxide, Methane, Hydrogen, and Water fluxes from a Pine-Sphagnum Bog in Vancouver
North: 49.1190
South: 49.1190
East: -122.9951
West: -122.9951
carbon dioxide reclamation/restoration methane effects of disturbance Bog
Hydrometeorological measurements in peatland-dominated, discontinuous permafrost at Scotty Creek, Northwest Territories, Canada
North: 61.297711512380936
South: 61.297711512380936
East: -121.2979080344027
West: -121.2979080344027
meteorology hydrology Permafrost
Carbon Dioxide, Methane, Hydrogen, and Water Fluxes from a Disturbed Raised Bog in Vancouver
North: 49.1293
South: 49.1293
East: -122.9849
West: -122.9849
carbon dioxide reclamation/restoration methane effects of disturbance peat properties Bog
Plant community structure within a reclamation field trial and forested reference sites in a post-mine environment (2016-2019)
North: 50.01951045977301
South: 50.01951045977301
East: -79.71465023923965
West: -79.71465023923965
reclamation/restoration peat properties vegetation mining
Effects of simulated wastewater nutrient amendments on Sphagnum productivity and decomposition within a subarctic ladder fen (2015-2016)
North: 54.76353619323497
South: 54.76353619323497
East: -83.00881815938476
West: -83.00881815938476
vegetation hydrology decomposition fen
Distribution of peatlands in Canada using National Forest Inventory forest structure and ancillary land cover data (2011)
North: 83.15
South: 41.909
East: -52.619
West: -141.010
mapping peat properties management
Geochemistry of Lac Le Caron (LLCMap1) peat core from Canada
North: 52.283333
South: 52.283333
East: -75.833333
West: -75.833333
soil carbon peat properties meteorology bog
Geochemistry of Vallee (BS3A) peat core from Canada
North: 51.4897
South: 51.4897
East: -57.1939
West: -57.1939
soil carbon peat properties Bog
Carbon Dioxide, Methane, Hydrogen, and Water fluxes from a Tidal Salt Marsh in British Columbia
North: 49.0887
South: 49.0887
East: -122.8954
West: -122.8954
carbon dioxide methane hydrology marsh
Micrometeorological and freeze-thaw data at Scotty Creek, NT 2001-2017 [Canada]
North: 61.31216284619792
South: 61.31216284619792
East: -121.30163477934484
West: -121.30163477934484
hydrology meteorology peat properties Permafrost
Wetland Regions (2009)
North: 83.15
South: 41.909
East: -52.619
West: -141.010
mapping
Carbon Dioxide, Methane, Nitrous Oxide, Hydrogen, and Water Fluxes from a Southwestern Manitoba Marsh
North: 50.3623
South: 50.3623
East: -100.2024
West: -100.2024
carbon dioxide methane nitrous oxide Marsh
Potential Impacts: Sensitivity of Peatlands to Climate Change
North: 83.15
South: 41.909
East: -52.619
West: -141.010
mapping climate change
Mines, Energy and Communication Networks in Canada - CanVec Series - Resources Management Features (2017)
North: 83.15
South: 41.909
East: -52.619
West: -141.010
mapping Oil and gas mining
Using marsh organs to test seed recruitment in tidal freshwater marshes
North: 49.098832
South: 49.098832
East: -123.090082
West: -123.090082
vegetation Climate change Marsh
Ecosystem Components: Wetland Diversity (2009)
North: 83.15
South: 41.909
East: -52.619
West: -141.010
mapping Ecology
Peatland map
North: 83.15
South: 41.909
East: -52.619
West: -141.010
mapping
Carbon Dioxide, Methane, Hydrogen, Nitrous Oxide, and Water Fluxes from a Freshwater Marsh in Southwest Manitoba
North: 50.3706
South: 50.3706
East: -100.5339
West: -100.5339
carbon dioxide methane nitrous oxide Marsh
Geochemistry of Covey Hill (core 1) peat core from Canada
North: 45
South: 45
East: -73.49
West: -73.49
soil carbon peat properties Bog
Changes in dissolved organic carbon quality and quantity: Implications for aquatic ecosystems and drinking water quality for northern communities
North: 68.349
South: 61.148
East: -111.582
West: -133.745247
hydrology dissolved organic carbon water quality climate change
Geochemistry of JBL 2008 3 (JBL3) peat core from Canada
North: 52.87
South: 52.87
East: -89.93
West: -89.93
soil carbon peat properties Bog
Geochemistry of Burnt Village (core 1) peat core from Canada
North: 51.13
South: 51.13
East: -55.93
West: -55.93
soil carbon peat properties Bog nitrogen
Carbon Dioxide Fluxes from a Boreal Mixedwood Forest in Ontario
North: 48.2167
South: 48.2167
East: -82.1556
West: -82.1556
carbon dioxide remote sensing vegetation meteorology
Carbon Dioxide, Hydrogen, and Water Fluxes from a Northern Ontario Peatland
North: 51.5902
South: 51.5902
East: -81.7684
West: -81.7684
carbon dioxide meteorology
Carbon Dioxide, Methane, Hydrogen, and Water fluxes from a Southern Arctic Boreal Woodland
North: 68.3203
South: 68.3203
East: -133.5188
West: -133.5188
carbon dioxide meteorology methane Permafrost
Carbon Dioxide Fluxes from a Mixed Grass Prarie in Alberta
North: 49.7093
South: 49.7093
East: -112.9402
West: -112.9402
carbon dioxide
Physical Land Classification (PLC)
North: 54.850698
South: 51.825589
East: -109.884957
West: -118.003216
mapping peat properties
2016 Bois-des-Bel Hydrophysical Properties
North: 47.96
South: 47.96
East: -69.43
West: -69.43
reclamation/restoration hydrology Bog
Bog Dynamics - Kouchibouguac (2009-2011, 2017-2019)
North: 46.95
South: 46.70
East: -64.84
West: -65.13
vegetation hydrology effects of disturbance ecology
Organic Soils (2002)
North: 60.00
South: 49.04
East: -110.03
West: -120.03
peat properties mapping agriculture
Geochemistry of Lac Le Caron (LLC_T1) peat core from Canada
North: 52.2875
South: 52.2875
East: -75.839167
West: -75.839167
soil carbon peat properties Bog
Alberta Land Inventory (ALI) and Canada Land Inventory (CLI) Landform
North: 60.00
South: 49.04
East: -110.03
West: -120.03
mapping peat properties land-use
Carbon Dioxide, Methane, Hydrogen, and Water Fluxes from a Flooded Wetland in Southern Ontatio
North: 43.9201
South: 43.9201
East: -80.4052
West: -80.4052
carbon dioxide land-use methane hydrology Marsh
Groundwater sampling in the Kwakshua Watersheds of Calvert and Hecate Islands, BC (2016-2019) - Version 1.0
North: 51.728
South: 51.658
East: -128.087
West: -127.979
hydrology dissolved organic carbon Biogeochemistry
Geochemistry of Goldeye peat core from Canada
North: 52.46
South: 52.46
East: -116.19
West: -116.19
soil carbon peat properties fen
Geochemistry of Lac Le Caron (LLC_L1) peat core from Canada
North: 52.2875
South: 52.2875
East: -75.839167
West: -75.839167
peat properties soil carbon bog
Methane flux from northern Alberta fens (2011-2014)
North: 56.38
South: 56.94
East: -111.55
West: -111.24
methane Fen
Ground Penetrating Radar (GPR) raw data and CS616 water content reflectometer probes output
North: 53.47559844767098
South: 53.4464826061887
East: -114.85026231521887
West: -114.87984827452631
hydrology
2016 Bois-des-Bel Hydrophysical Properties
North: 47.969254781347374
South: 47.96547178317978
East: -69.42652913832511
West: -69.43179968406069
reclamation/restoration hydrology peat properties Bog
Geochemistry of Lac Le Caron (LLC_T4) peat core from Canada
North: 52.2875
South: 52.2875
East: -75.839167
West: -75.839167
soil carbon peat properties bog
Carbon Dioxide Fluxes from a Subarctic Boreal Evergreen Forest in Northern Manitoba
North: 55.8796
South: 55.8796
East: -98.4808
West: -98.4808
carbon dioxide
Geochemistry of Lac Le Caron (LLC_L4) peat core from Canada
North: 52.2875
South: 52.2875
East: -75.839167
West: -75.839167
soil carbon peat properties bog
Predicted 21st Century Non-growing Season Net Ecosystem Exchanges of CO2 from the Mer Bleue Bog: Support Vector Regression Model Outputs for RCP2.6, RCP4.5 and RCP8.5 
North: 45.3936
South: 45.3936
East: -75.5122
West: -75.5122
carbon dioxide modeling Climate change Non-Growing Season machine learning
CIMP 199: Water quality of peatland ponds and streams on a latitudinal transect (2019)
North: 68.868
South: 55.79
East: -115.163
West: -134.856
hydrology metals Permafrost water quality
Carbon Dioxide and Water Fluxes from an Albertan Cattle Ranch
North: 50.8671
South: 50.8671
East: -111.9045
West: -111.9045
carbon dioxide land-use effects of disturbance
Carbon Dioxide and Water Fluxes from a Subarctic Grassland with Scattered Wetlands in Alberta
North: 50.9056
South: 50.9056
East: -111.8823
West: -111.8823
carbon dioxide effects of disturbance
Lichens: a limit to peat growth? (2013-2014)
North: 52.856206544540676
South: 52.70047177941428
East: -83.91462304460296
West: -83.9530318437757
vegetation carbon dioxide
Project Returns for Identification and Characterization of Abandoned Padded Wellsites Using Remote Sensing
North: 60.00
South: 49.04
East: -110.03
West: -120.03
reclamation/restoration remote sensing effects of disturbance land-use Oil and gas
Environmental and plant community composition and functional trait data across peatlands of the Forest Dynamics Plot at Scotty Creek, NT
North: 61.3
South: 61.3
East: -121.3
West: -121.3
vegetation Permafrost Ecology
Four Component Radiation Data at Scotty Creek, NWT, Canada 2004-2019
North: 61.3
South: 61.3
East: -121.3
West: -121.3
peat properties Permafrost climate change
Permafrost thaw in boreal peatlands is rapidly altering forest community composition (2012 and 2018)
North: 61.310556
South: 61.310556
East: -121.293333
West: -121.293333
vegetation Permafrost Climate change
Geochemistry of Lac Le Caron (LLC_C) peat core from Canada
North: 52.28
South: 52.28
East: -75.83
West: -75.83
soil carbon peat properties Bog
Carbon Dioxide Fluxes in a Central Manitoba Evergreen Forest with Fire Damage
North: 55.8792
South: 55.8792
East: -98.4839
West: -98.4839
carbon dioxide reclamation/restoration vegetation effects of disturbance soil carbon Wildfire
Carbon Dioxide Fluxes from an Evergreen Forest with Burn Damage in Central Manitoba
North: 55.9058
South: 55.9058
East: -98.5247
West: -98.5247
carbon dioxide reclamation/restoration soil carbon land-use vegetation Wildfire
Carbon Dioxide Fluxes from an Evergreen Forest with Burn Damage in Central Manitoba
North: 55.9117
South: 55.9117
East: -98.3822
West: -98.3822
carbon dioxide conservation soil carbon effects of disturbance reclamation/restoration Wildfire
Carbon Dioxide Fluxes from an Evergreen Forest in Central Manitoba Recovering from Fire - Wet Site
North: 55.9144
South: 55.9144
East: -98.3806
West: -98.3806
carbon dioxide reclamation/restoration soil carbon effects of disturbance peat properties Wildfire
Carbon Dioxide Fluxes in a Central Manitoba Boreal Evergreen Forest Recovering from Fire
North: 55.8631
South: 55.8631
East: -98.4850
West: -98.4850
carbon dioxide reclamation/restoration soil carbon effects of disturbance peat properties Wildfire
Carbon Dioxide Fluxes from an Evergreen Forest Recovering from a Fire in Central Manitoba
North: 55.9167
South: 55.9167
East: -98.9644
West: -98.9644
carbon dioxide land-use peat properties effects of disturbance soil carbon Wildfire
Carbon Dioxide Flux from a Subarctic Evergreen Forest in Central Manitoba Recovering from a Fire
North: 56.6358
South: 56.6358
East: -99.9483
West: -99.9483
carbon dioxide reclamation/restoration soil carbon effects of disturbance peat properties Wildfire
Carbon Dioxide Fluxes from a Subarctic Boreal Evergreen Forest in Central Manitoba Recovering from a Fire
North: 55.8981
South: 55.8981
East: -98.2161
West: -98.2161
carbon dioxide reclamation/restoration soil carbon effects of disturbance peat properties Wildfire
Carbon Dioxide Fluxes from a Western Boreal Mature Aspen Forest in Saskatchewan
North: 53.6289
South: 53.6289
East: -106.1978
West: -106.1978
carbon dioxide
Carbon Dioxide Fluxes from a Western Boreal Subarctic Black Spruce Forest in Saskatchewan
North: 53.9872
South: 53.9872
East: -105.1178
West: -105.1178
carbon dioxide
CH4 flux, [CH4] in pore water and environmental factors, Seba Beach peatlands
North: 53.47559844767098
South: 53.4464826061887
East: -114.85026231521887
West: -114.87984827452631
methane
Graminoids vary in functional traits, carbon dioxide and methane fluxes in a restored peatland: implications for modeling carbon storage
North: 53.457222
South: 53.457222
East: -114.884444
West: -114.884444
reclamation/restoration methane vegetation biomass carbon dioxide Bog Ecology
Green leaf phenological characteristics of boreal peatland vegetation impacted by linear disturbances
North: 56.397561
South: 56.362222
East: -116.795833
West: -116.891000
effects of disturbance vegetation Seismic Lines
Greenhouse gas and water chemistry data for northern lakes in western Canada (2018-2019)
North: 78.80
South: 48.99
East: -101.39
West: -136.53
methane carbon dioxide Permafrost
Greenhouse gas, chemistry, and macrofossil data for a peatland lake in northern Alberta (2017-2018)
North: 59.48
South: 59.48
East: -117.18
West: -117.18
methane carbon dioxide hydrology meteorology Permafrost
Forest management impacts on greenhouse gas fluxes from riparian soils along headwater streams
North: 49.16
South: 49.16
East: -122.34
West: -122.34
methane carbon dioxide nitrous oxide peat properties Forestry
Water quality and greenhouse gas fluxes for stormwater detained in a constructed wetland
North: 49.263
South: 49.26
East: -123.25
West: -123.25
methane carbon dioxide dissolved organic carbon constructed fen
Greenhouse gases and dissolved organic matter concentrations and composition, and water chemical and geographic properties data from Canadian and Chilean peatland pools (2019-2020)
North: 50.192366
South: 46.78081277659033
East: -61.557945
West: -71.05463322467415
vegetation methane carbon dioxide dissolved organic carbon
Cross-sector comparison of methane emissions from anthropogenic sources: A case study in Canada
North: 55.44
South: 54.95
East: -117.97
West: -119.84
methane effects of disturbance agriculture Oil and Gas
Active and inactive oil and gas sites contribute to methane emissions in western Saskatchewan, Canada
North: 51.475
South: 50.264
East: -109.168
West: -107.768
methane policy
High peatland methane emissions following permafrost thaw: enhanced acetoclastic methanogenesis during early successional stages
North: 59.5
South: 59.5
East: -117.2
West: -117.2
methane carbon dioxide soil carbon hydrology peat properties Permafrost Bog
Boreal beaver pond diffusive CO2 and CH4 emissions data from Abitibi and Saguenay [2010-2011]
North: 48.94
South: 47.79
East: -79.47
West: -70.65
carbon dioxide methane
Geochemistry of Mosaik C (MOS_C) peat core from Canada
North: 51.98
South: 51.98
East: -75.40
West: -75.40
soil carbon peat properties Bog
Riparian cottonwood trees and adjacent river sediments have different microbial communities and produce methane with contrasting carbon isotope compositions
North: 49.83755255532749
South: 49.83755255532749
East: -113.15678228560955
West: -113.15678228560955
carbon dioxide methane dissolved organic carbon
Soil properties and seedling growth data for: "Soil properties as constraints to seedling regeneration beyond alpine treelines in the Canadian Rocky Mountains"
North: 52.87071162938249
South: 50.60709253683592
East: -115.00141078549643
West: -118.09423923790052
vegetation peat properties
Geochemistry of La Grande Riviere (L1T1C2) peat core from Canada
North: 53.9
South: 53.9
East: -78.766667
West: -78.766667
soil carbon peat properties fen
Geochemistry of La Grande Riviere (LG2) peat core from Canada
North: 53.65
South: 53.65
East: -77.73
West: -77.73
soil carbon peat properties fen
Geochemistry of LEBEL peat core from Canada
North: 49.10
South: 49.10
East: -68.25
West: -68.25
soil carbon peat properties Bog
Resident species with larger size metrics do not recruit more offspring from the seed bank in old-field meadow vegetation
North: 44.55
South: 44.55
East: -76.35
West: -76.35
vegetation effects of disturbance
Carbon Dioxide Fluxes from a Subarctic Western Boreal Forest in Saskatchewan
North: 53.9163
South: 53.9163
East: -104.6920
West: -104.6920
carbon dioxide
Carbon Dioxide Fluxes from Eastern Boreal Forest in Quebec
North: 49.7598
South: 49.7598
East: -74.5711
West: -74.5711
carbon dioxide
Carbon Dioxide Fluxes from an Eastern Boreal Evergreen Forest in Quebec
North: 49.2671
South: 49.2671
East: -74.0365
West: -74.0365
carbon dioxide
Carbon Dioxide Fluxes from a Subarctic Eastern Boreal Forest in Quebec
North: 49.6925
South: 49.6925
East: -74.3421
West: -74.3421
carbon dioxide
A survey of invasive plants on grassland soil microbial communities and ecosystem services
North: 51.666670
South: 51.666670
East: -106.550000
West: -106.550000
vegetation methane peat properties nitrous oxide carbon dioxide
Dissolved Organic Carbon characteristic data from Boreal Plains lakes in Western Canada
North: 56.12627072827371
South: 55.83057365604561
East: -115.08569777284129
West: -115.70227348609085
hydrology dissolved organic carbon
Geochemistry of MORT peat core from Canada
North: 50.266667
South: 50.266667
East: -63.666667
West: -63.666667
soil carbon peat properties Bog
Geochemistry of MANIC (MAN) peat core from Canada
North: 49.118
South: 49.118
East: -68.303333
West: -68.303333
soil carbon peat properties bog
Salinity, not genetic incompatibilities, limits the establishment of the invasive hybrid cattail Typha × glauca in coastal wetlands
North: 49.022
South: 43.436
East: -59.696
West: -89.762
vegetation carbon dioxide Invasive species
Geochemistry of Wylde Lake Bog (WYL) peat core from Canada
North: 43.904944
South: 43.904944
East: -80.407278
West: -80.407278
soil carbon peat properties nitrogen bog
Growth of jack pine and black spruce in response to leachates from lichen, Sphagnum spp. and feather mosses
North: 46.77910764705349
South: 46.77910764705349
East: -71.28298689136255
West: -71.28298689136255
vegetation Ecology Biogeochemistry Microbiology
Agri-Environmental Indicators (AEI) 
North: 83.15
South: 41.909
East: -52.619
West: -141.010
land-use carbon dioxide peat properties methane hydrology
The Turkey Lakes Watershed Study
North: 47.068787741072406
South: 47.039608911140974
East: -84.38826514191483
West: -84.43298833378496
hydrology water quality
Geochemistry of La Grande Riviere (LC-T1-C2) peat core from Canada
North: 53.566667
South: 53.566667
East: -76.133333
West: -76.133333
soil carbon peat properties bog
Geochemistry of Lac Le Caron (LLCRiP2) peat core from Canada
North: 52.283333
South: 52.283333
East: -75.833333
West: -75.833333
soil carbon peat properties bog
Geochemistry of Sterne Bog (STE_C) peat core from Canada
North: 52.05
South: 52.05
East: -75.17
West: -75.17
soil carbon peat properties Bog
Gas Transfer Velocities Evaluated Using Carbon Dioxide as a Tracer Show High Streamflow to Be a Major Driver of Total CO2 Evasion Flux for a Headwater Stream
North: 49.45
South: 49.45
East: -122.93
West: -122.93
hydrology carbon dioxide
The Effects of Temperature and Soil Moisture on CO2 and CH4 Flux
North: 67.60587333904357
South: 47.39837592883582
East: -82.5610734374375
West: -138.56279090428282
carbon dioxide methane peat properties
GLOWCAD: A global database of woody tissue carbon concentrations/fractions
North: 83.15
South: 41.909
East: -52.619
West: -141.010
vegetation carbon
Geochemistry of Baie bog (BAIE) peat core from Canada
North: 49.10
South: 49.10
East: -68.25
West: -68.25
soil carbon peat properties Bog
Carbon Dioxide, Methane, Hydrogen, and Water Fluxes from a Brackish Marsh on the Coast of British Columbia
North: 49.1313
South: 49.1313
East: -123.1964
West: -123.1964
carbon dioxide methane marsh
Carbon Dioxide, Methane, Hydrogen, and Water Fluxes from a Shrubbed Bog in Newfoundland
North: 48.2604
South: 48.2604
East: -58.6632
West: -58.6632
carbon dioxide hydrology methane reclamation/restoration Bog
Geochemistry of Mosaik T1 (MOS_T1) peat core from Canada
North: 51.98
South: 51.98
East: -75.40
West: -75.40
soil carbon peat properties bog
Carbon Dioxide, Methane, and Water Fluxes from a Bog in Northwest Territories
North: 61.3089
South: 61.3089
East: -121.2984
West: -121.2984
carbon dioxide meteorology methane peat properties Bog
Carbon Dioxide and Water Fluxes from a Boreal Evergreen Forest in Northwest Territories
North: 61.3079
South: 61.3079
East: -121.2992
West: -121.2992
carbon dioxide peat properties effects of disturbance
Carbon Dioxide Fluxes from a Previously Burnt Evergreen Boreal Forest in Saskatchewan
North: 54.4850
South: 54.4850
East: -105.8176
West: -105.8176
carbon dioxide biomass effects of disturbance Wildfire
Carbon Dioxide Fluxes from a Previously Burnt Boreal Evergreen Forest in Saskatchewan 1989
North: 54.2539
South: 54.2539
East: -105.8775
West: -105.8775
carbon dioxide effects of disturbance peat properties meteorology Wildfire
Carbon Dioxide Fluxes from a Previously Burnt Boreal Evergreen Forest in Saskatchewan 1998
North: 54.0916
South: 54.0916
East: -106.0053
West: -106.0053
carbon dioxide peat properties effects of disturbance Wildfire
Carbon Dioxide Fluxes in a Subarctic Western Boreal Forest in Saskatchewan 2001
North: 53.9080
South: 53.9080
East: -104.6560
West: -104.6560
effects of disturbance carbon dioxide
Carbon Dioxide Fluxes in a Subarctic Western Boreal Forest in Saskatchewan 2002
North: 53.9450
South: 53.9450
East: -104.6490
West: -104.6490
carbon dioxide effects of disturbance
Carbon Dioxide, Methane, Hydrogen, and Water Fluxes from a Boreal Evergreen Forest-Peatland in the Northwest Territories
North: 63.1534
South: 63.1534
East: -123.2522
West: -123.2522
carbon dioxide peat properties methane effects of disturbance hydrology Permafrost
Geochemistry of Shuttle (SHU) peat core from Canada 2012
North: 59.86
South: 59.86
East: -97.64
West: -97.64
peat properties soil carbon Permafrost Bog
Geochemistry of KJ2-3 peat core from Canada 2009
North: 51.59
South: 51.59
East: -81.76
West: -81.76
peat properties soil carbon fen
Geochemistry of Lake785 peat core from Canada
North:  59.11
South:  59.11
East: -97.4
West: -97.4
peat properties soil carbon Permafrost Bog
Geochemistry of Lake369 peat core from Canada
North: 59.58
South: 59.58
East: -98.57
West: -98.57
peat properties soil carbon Permafrost Bog
Geochemistry of PLAINE (PLA) peat core from Canada 2009
North: 50.27
South: 50.27
East: -63.54
West: -63.54
peat properties soil carbon Bog
Geochemistry of Wylde Lake Bog (WYL) peat core from Canada
North: 43.904944
South: 43.904944
East: -80.407278
West: -80.407278
peat properties soil carbon Bog
Geochemistry of Unit (UNI) peat core from Canada 2012
North: 59.42
South: 59.42
East: -97.48
West: -97.48
peat properties soil carbon Permafrost Bog
Geochemistry of JBL 2008 3 (JBL3) peat core from Canada 2008
North: 52.87
South: 52.87
East: -89.93
West: -89.93
peat properties soil carbon Bog
Geochemistry of Martin (core1) peat core from Canada
North: 61.80
South: 61.80
East: -121.40
West: -121.40
peat properties soil carbon Permafrost Bog
Geochemistry of Joey_core17 peat core
North: 55.47
South: 55.47
East: -98.16
West: -98.16
soil carbon peat properties wildfire climate change nitrogen
Geochemistry of Aero (AERO-5) peat core from Canada
North: 54.1006
South: 54.1006
East: -72.5163
West: -72.5163
peat properties soil carbon
Geochemistry of VC04-06 peat core from Canada
North: 52.71
South: 52.71
East: -84.18
West: -84.18
peat properties soil carbon nitrogen
Geochemistry of Aero (AERO-M4) peat core from Canada
North: 54.1006
South: 54.1006
East: -72.5164
West: -72.5164
soil carbon peat properties Fen
Carbon Dioxide, Methane, Hydrogen, and Water Fluxes from Northern Yukon Open Shrublands
North: 68.7462
South: 68.7462
East: -133.5017
West: -133.5017
carbon dioxide methane meteorology Permafrost
Carbon Dioxide Fluxes from a Subarctic Peat Fen in Western Alberta
North: 54.9538
South: 54.9538
East: -112.4670
West: -112.4670
carbon dioxide Fen
Carbon Dioxide Fluxes from a Subarctic Poor Fen in Western Alberta
North: 55.5375
South: 55.5375
East: -112.3343
West: -112.3343
carbon dioxide Fen
Carbon Dioxide Fluxes from a Subarctic Rich Fen in Western Alberta
North: 54.4700
South: 54.4700
East: -113.3200
West: -113.3200
carbon dioxide Fen
Geochemistry of Baie2 peat core from Canada [dataset]. PANGAEA
North: 49.06
South: 49.06
East: -68.23
West: -68.23
soil carbon peat properties bog
Increasing contribution of peatlands to boreal evapotranspiration in a warming climate
North: 83.15
South: 41.909
East: -52.619
West: -141.010
vegetation meteorology evapotranspiration
Geochemistry of Framboise Bog (FBB12) peat core from Canada
North: 45.72
South: 45.72
East: -60.55
West: -60.55
peat properties soil carbon bog
Geochemistry of La Grande Riviere (L2T2C2-2) peat core from Canada
North: 53.65
South: 53.65
East: -77.73
West: -77.73
soil carbon peat properties bog
Geochemistry of OURS_M3 peat core from Canada
North: 54.05
South: 54.05
East: -72.46
West: -72.46
soil carbon peat properties fen
Geochemistry of Left Boot Bog (MRB13_9 ) peat core from Canada
North: 55.9265
South: 55.9265
East: -112.0638
West: -112.0638
meteorology vegetation bog
Geochemistry of Aero (AERO-1) peat core from Canada
North: 54.1
South: 54.1
East: -72.52
West: -72.52
peat properties soil carbon fen
Geochemistry of Ours (Core 1) peat core from Canada
North: 54.05
South: 54.05
East: -72.45
West: -72.45
soil carbon peat properties Fen
Geochemistry of Port McNeill (PMB) peat core from Canada
North: 50.5725
South: 50.5725
East: -127.0722
West: -127.0722
soil carbon peat properties bog nitrogen
Geochemistry of OURS_M5 peat core from Canada
North: 54.05
South: 54.05
East: -72.46
West: -72.46
soil carbon peat properties Fen
Geochemistry of Aero (AERO-M2) peat core from Canada
North: 54.1006
South: 54.1006
East: -72.516389
West: -72.516389
soil carbon peat properties Fen
High-resolution LiDAR Digital Elevation Model (DEM), Canopy Height Model (CHM), and hyperspectral reflectance orthomosaic tiles of Burns Bog, Delta, British Columbia, Canada
North: 49.17
South: 49.04
East: -122.87
West: -123.09
remote sensing bog
Geochemistry of Martin (core1) peat core from Canada
North: 61.8
South: 61.8
East: -121.4
West: -121.4
peat properties soil carbon
Geochemistry of Petite Bog (PTB) peat core from Canada
North: 45.14
South: 45.14
East: -63.94
West: -63.94
soil carbon peat properties nitrogen
Vegetation height derived from Sentinel-1 and Sentinel-2 satellite data (2015-2018) for tundra regions
North: 73.703890
South: 56.3
East: -76.000000
West: -60.410560
vegetation remote sensing
Geochemistry of Jeffrey's Bog (JRB12) peat core from Canada
North: 48.21
South: 48.21
East: -58.82
West: -58.82
soil carbon peat properties bog
Geochemistry of Lake785 peat core from Canada
North: 59.11
South: 59.11
East: -97.40
West: -97.40
soil carbon peat properties nitrogen
Geochemistry of La Grande core L3T1C2 peat core
North: 53.57
South: 53.57
East: -76.13
West: -76.13
peat properties soil carbon
Geochemistry of KJ2-3 peat core from Canada
North: 51.59
South: 51.59
East: -81.76
West: -81.76
peat properties soil carbon fen
Geochemistry of Aero (AERO-4) peat core from Canada
North: 54.1006
South: 54.1006
East: -72.516389
West: -72.516389
soil carbon peat properties fen
Geochemistry of Mer Bleue (MB) peat core from Canada
North: 45.683
South: 45.683
East: -75.800
West: -75.800
soil carbon peat properties bog
Geochemistry of Aero (AERO-2) peat core from Canada
North: 54.1006
South: 54.1006
East: -72.516389
West: -72.516389
soil carbon peat properties fen
Geochemistry of Beretta (MRB13_3) peat core from Canada
North: 66.6785
South: 66.6785
East: -130.9732
West: -130.9732
soil carbon peat properties nitrogen permafrost
Geochemistry of Selwyn peat core from Canada
North: 59.88
South: 59.88
East: -104.20
West: -104.20
soil carbon peat properties nitrogen permafrost
Geochemistry of Mariana (MF03-3) peat core from Canada
North: 56.02
South: 56.02
East: -111.93
West: -111.93
soil carbon peat properties fen
Geochemistry of OURS, core 4 (OURS_4) peat core from Canada
North: 54.05
South: 54.05
East: -72.46
West: -72.46
soil carbon peat properties fen
Geochemistry of Villagedale Bog (VDB12) peat core from Canada
North: 43.55
South: 43.55
East: -65.53
West: -65.53
peat properties soil carbon bog
Geochemistry of Burns Bog peat core from Canada
North: 49.1145
South: 49.1145
East: -122.9647
West: -122.9647
soil carbon peat properties bog
Geochemistry of Nordan's Pond Bog (NDN02/1) peat core from Canada
North: 49.15
South: 49.15
East: -53.583
West: -53.583
soil carbon peat properties bog
Geochemistry of Surrey Bog (SUR) peat core from Canada
North: 49.205
South: 49.205
East: -122.746
West: -122.746
peat properties soil carbon Bog
Hydrometeorological observations at three boreal forest sites (aspen, jack pine, and black spruce) located in central Saskatchewan, Canada
North: 53.629
South: 53.987
East: -106.198
West: -104.692
vegetation carbon dioxide meteorology
Basin Geometry and Mountain Snowpack Responses to Climate Change: Data, Code, and Figures
North: 55
South: 47
East: -123
West: -112
hydrology climate change
Geochemistry of OURS, core 5 (OURS_5) peat core from Canada
North: 54.05
South: 54.05
East: -72.46
West: -72.46
peat properties soil carbon fen
Geochemistry of Romaine (HP3A) peat core from Canada
North: 50.2647
South: 50.2647
East: -63.682
West: -63.682
soil carbon peat properties Bog
Geochemistry of Beretta (MRB13_3) peat core from Canada
North: 66.6785
South: 66.6785
East: -130.9732
West: -130.9732
peat properties soil carbon nitrogen
Geochemistry of Patuanak (PAT) peat core from Canada
North: 55.85
South: 55.85
East: -107.68
West: -107.68
soil carbon peat properties
Geochemistry of Mariana_coreMF03-2 peat core
North: 55.90
South: 55.90
East: -112.09
West: -112.09
peat properties soil carbon nitrogen fen
Environmental and gross primary production observations for a mature black spruce site located in central Saskatchewan, Canada
North: 53.987
South: 53.987
East: -105.117
West: -105.117
vegetation meteorology remote sensing carbon dioxide
Stem radius change from Picea mariana and Larix laricina at the Old Black Spruce site, Boreal Research Ecosystem and Monitoring Sites (BERMS)
North: 53.98
South: 53. 98
East: -105.12
West: -105.12
vegetation
Geochemistry of NW-BG_core3 peat core
North: 65.21
South: 65.21
East: -127.01
West: -127.01
peat properties soil carbon Bog
Geochemistry of Sundance_coreSF03-2 peat core
North: 53.58
South: 53.58
East: -116.75
West: -116.75
peat properties soil carbon fen
Geochemistry of Sundance_coreSF03-3 peat core
North: 53.58
South: 53.58
East: -116.75
West: -116.75
soil carbon peat properties fen
Geochemistry of Lake785_core4 peat core
North: 59.11
South: 59.11
East: -97.40
West: -97.40
soil carbon peat properties nitrogen bog Permafrost
Geochemistry of NW-BG_core10 peat core
North: 65.21
South: 65.21
East: -127.00
West: -127.00
soil carbon peat properties bog
National Terrestrial Ecosystem Monitoring System (NTEMS) for Canada
North: 69.71
South: 41.909
East: -52.619
West: -141.010
land-use effects of disturbance mapping remote sensing wildfire
Geochemistry of Lake396_core3 peat core
North: 59.58
South: 59.58
East: -98.57
West: -98.57
peat properties soil carbon nitrogen bog Permafrost
Postfire soil carbon accumulation does not recover boreal peatland combustion loss in some hydrogeological settings
North: 56.55
South: 56.03
East: -113.83
West: -115.26
soil carbon peat properties Wildfire
Geochemistry of NW-BG_core8 peat core
North: 65.21
South: 65.21
East: -127.01
West: -127.01
soil carbon peat properties bog
Geochemistry of Mariana_coreMF03-1 peat core
North: 56.57328
South: 56.57328
East: -111.27550
West: -111.27550
peat properties soil carbon fen
Geochemistry of Slave_Lake peat core
North: 55.06
South: 55.06
East: -114.13
West: -114.13
soil carbon meteorology peat properties nitrogen bog
Geochemistry of NW-BG_core2 peat core
North: 65.21
South: 65.21
East: -127.01
West: -127.01
soil carbon peat properties Bog
Geochemistry of Ennadai_core1 peat core
North: 60.83
South: 60.83
East: -101.55
West: -101.55
soil carbon peat properties nitrogen Permafrost
Geochemistry of Mosaik L4 (MOS_L4) peat core from Canada
North: 51.98
South: 51.98
East: -75.40
West: -75.40
peat properties soil carbon Bog
Geochemistry of Mosaik T4 (MOS_T4) peat core from Canada
North: 51.98
South: 51.98
East: -75.40
West: -75.40
soil carbon peat properties Bog
Geochemistry of Mosaik L1 (MOS_L1) peat core from Canada
North: 51.98
South: 51.98
East: -75.40
West: -75.40
peat properties soil carbon Bog
Geochemistry of Sterne Bog (STE_L4) peat core from Canada
North: 52.043611
South: 52.043611
East: -75.173056
West: -75.173056
soil carbon peat properties Bog
Geochemistry of Sterne Bog (STE_L2) peat core from Canada
North: 52.043611
South: 52.043611
East: -75.173056
West: -75.173056
soil carbon peat properties Bog
Geochemistry of Sterne Bog (STE_T2) peat core from Canada
North: 52.043611
South: 52.043611
East: -75.173056
West: -75.173056
soil carbon peat properties Bog
Geochemistry of Sterne Bog (STE_T4) peat core from Canada
North: 52.043611
South: 52.043611
East: -75.173056
West: -75.173056
soil carbon peat properties Bog
Geochemistry of VM2-5 peat core
North: 52.721
South: 52.721
East: -83.935
West: -83.935
peat properties soil carbon fen
Geochemistry of VM3-2 peat core
North: 52.713
South: 52.713
East: -84.173
West: -84.173
soil carbon peat properties fen
Ecosystem scale evapotranspiration and CO2 exchange in burned and unburned peatlands: Implications for the ecohydrological resilience of carbon stocks
North: 56.107
South: 56.107
East: -115.561
West: -115.561
carbon dioxide hydrology methane peat properties Wildfire bog evapotranspiration
Geochemistry of VM4-1 peat core
North: 52.707
South: 52.707
East: -84.1850
West: -84.1850
soil carbon peat properties Bog
Geochemistry of KJ4-3 peat core
North: 51.587
South: 51.587
East: -81.779
West: -81.779
soil carbon peat properties
Seasonal ground ice impacts on spring ecohydrological conditions in a western boreal plains peatland
North: 56.37
South: 56.37
East: -111.24
West: -111.24
soil carbon meteorology peat properties hydrology fen
Wildfire overrides hydrological controls on boreal peatland methane emissions
North: 56.938926893850514
South: 56.938926893850514
East: -111.54887853583233
West: -111.54887853583233
carbon dioxide hydrology methane soil carbon peat properties Wildfire fen
Nitrous oxide fluxes from permafrost regions
North: 83.15
South: 41.909
East: -52.619
West: -141.010
nitrous oxide hydrology vegetation meteorology soil carbon Permafrost nitrogen
Quantifying bulk density of boreal peat using X-ray computed tomography
North: 50.5244
South: 50.5244
East: -63.2064
West: -63.2064
peat properties biomass
Macrofossil, peat composition, LOI, radiocarbon, and permafrost data from a drained thermokarst lake, Old Crow Flats, Yukon
North: 67.55
South: 67.55
East: -139.91
West: -139.91
peat properties effects of disturbance vegetation radiocarbon dating Permafrost drainage
Growing season evapotranspiration in boreal fens in the Athabasca Oil Sands Region: Variability and environmental controls
North: 56.94
South: 56.40
East: -111.24
West: -112.05
peat properties meteorology hydrology fen evapotranspiration
Hydraulic redistribution and hydrological controls on aspen transpiration and establishment in peatlands following wildfire
North: 56.10011961642731
South: 56.10011961642731
East: -116.53333349072224
West: -116.53333349072224
soil carbon hydrology peat properties vegetation meteorology Wildfire
Hydrogeologic setting overrides any influence of wildfire on pore water dissolved organic carbon concentration and quality at a boreal fen
North: 56.933333
South: 56.933333
East: -111.548900
West: -111.548900
peat properties effects of disturbance meteorology hydrology dissolved organic carbon Wildfire fen
Replication data for: Emission factors for gaseous species measured at the individual burn level using I-CIMS and Vocus PTR-MS
North: 69.37
South: 47.34
East: -141.02
West: -52.619
methane carbon dioxide wildfire emission factors climate change
Differential response of carbon cycling to long-term nutrient input and altered hydrological conditions in a continental Canadian peatland
North: 43.92
South: 43.92
East: -80.41
West: -80.41
carbon dioxide vegetation methane peat properties water quality dissolved inorganic carbon
Carbon dioxide and methane exchange dynamics from boreal peatland soils under controlled moisture and substrate amendments
North: 53.48
South: 43.42
East: -115.59
West: -80.63
carbon dioxide methane effects of disturbance biogeochemistry
Ecosystem Classification of the Hudson Bay Lowlands
North: 83.1139
South: 41.6755
East: -52.6174
West: -141.003
mapping remote sensing
Deeper burning in a boreal fen peatland 1‐year post‐wildfire accelerates recovery trajectory of carbon dioxide uptake
North: 56.22
South: 56.22
East: -111.14
West: -111.14
carbon dioxide peat properties hydrology vegetation soil carbon Wildfire Fen
Bioreactivity of Dissolved Organic Carbon in Ponds on Degrading Ice-Wedge Polygonal Terrain, Bylot Island, Nunavut, Canada (2017)
North: 73.15
South: 73.15
East: -79.96
West: -79.96
hydrology dissolved organic carbon dissolved organic matter nitrogen
Understanding the peak growing season ecosystem water‐use efficiency at four boreal fens in the Athabasca oil sands region
North: 56.366667
South: 56.316667
East: -111.550000
West: -111.650000
peat properties meteorology hydrology fen
Subalpine forest water use behaviour and evapotranspiration during two hydrologically contrasting growing seasons in the Canadian Rockies
North: 50.8257
South: 50.8257
East: -115.19
West: -115.19
soil carbon hydrology vegetation meteorology evapotranspiration
Ebullition measurements and supporting data from a calcareous fen in southern Ontario
North: 43.42
South: 43.41
East: -80.10
West: -80.12
methane meteorology fen
Boreal conifer swamp carbon stocks and fluxes, Alberta, Canada
North: 56.96
South: 56.96
East: -111.56
West: -111.56
soil carbon methane peat properties carbon dioxide vegetation nitrogen swamp
Evaluating the hydrological response of a boreal fen following the removal of a temporary access road
North: 57.216667
South: 57.216667
East: -110.883333
West: -110.883333
soil carbon hydrology peat properties vegetation reclamation/restoration fen
The impact of variable horizon shade on the growing season energy budget of a subalpine headwater wetland
North: 50.82
South: 50.82
East: -115.21
West: -115.21
meteorology hydrology
Regulation of peatland evaporation following wildfire; the complex control of soil tension under dynamic evaporation demand
North: 56.107
South: 56.107
East: -115.561
West: -115.561
peat properties meteorology hydrology Wildfire evaporation
Fall 2015 geochemical dataset of peat cores around Handle and Daigle Lake, Northwest Territories, Canada
North: 62
South: 62
East: -114
West: -114
peat properties vegetation metals
Analysis of growing season carbon and water fluxes of a subalpine wetland in the Canadian Rocky Mountains: Implications of shade on ecosystem water use efficiency
North: 50.82
South: 50.82
East: -115.21
West: -115.21
meteorology hydrology carbon dioxide marsh
Peat Application Area
North: 60.095171
South: 48.906914
East: -108.457295
West: -120.750607
mapping conservation land-use
Decomposition of peat and plant material from a thawing palsa
North: 55.21
South: 55.2
East: -77.3
West: -77.31
methane vegetation carbon dioxide dissolved organic carbon Biogeochemistry decomposition
The influence of system heterogeneity on peat-surface temperature dynamics
North: 55.81
South: 55.81
East: -115.11
West: -115.11
soil carbon peat properties microtopography fen
July 2016 Assessment of the Temporal Response of Peatland Testate Amoebae to Legacy Mine Contamination near Hambone Lake on Tundra Mine property, Northwest Territories, Canada
North: 64.0501
South: 64.0479
East: -111.1445
West: -111.1485
effects of disturbance peat properties metals mining
Quantifying relative contributions of source waters from a subalpine wetland to downstream water bodies
North: 50.774910598754275
South: 50.774910598754275
East: -115.34630626516356
West: -115.34630626516356
vegetation meteorology hydrology Climate change
Spontaneous revegetation of a peatland in southern Manitoba: linking revegetation success and environment variables
North: 49.58
South: 49.59
East: -96.6
West: -96.8
vegetation meteorology peat properties hydrology ecology
Hydrology drives chemical synchronicity in subarctic tundra ponds
North: 58.73600313075861
South: 58.73600313075861
East: -93.82588019096798
West: -93.82588019096798
hydrology biogeochemistry Climate change
Changes to the hydrology of a boreal fen following the placement of an access road and below ground pipeline
North: 56.933333
South: 56.933333
East: -111.533333
West: -111.533333
soil carbon hydrology peat properties vegetation fen Linear disturbances
Mercury contamination in permafrost in the Jean Marie River First Nation Lands (dehcho region)
North: 62
South: 61
East: -120
West: -122
peat properties effects of disturbance metals permafrost
Quantifying the spatial variability of melting seasonal ground ice and its influence on potential evapotranspiration spatial variability in a boreal peatland
North: 56.375100
South: 56.375100
East: -111.234247
West: -111.234247
peat properties meteorology hydrology evapotranspiration fen
Long and short term carbon (C) accumulation rates in forests and peatlands along a climatic gradient in northwestern Canada
North: 68.3133
South: 68.3111
East: -133.3832
West: -133.3834
soil carbon peat properties nitrogen climate change
Site assessments, geographical and climatic characteristics
North: 68.3
South: 56.4
East: -111
West: -133.4
soil carbon mapping vegetation meteorology peat properties Climate change permafrost
Carbon and Nutrient Stoichiometric Relationships in the Soil–Plant Systems of Disturbed Boreal Forest Peatlands within Athabasca Oil Sands Region, Canada
North: 56.933333
South: 56.316667
East: -111.233333
West: -111.650000
soil carbon reclamation/restoration peat properties effects of disturbance vegetation
Key processes in GHG production and consumption
North: 68.316524
South: 56.400063
East: -111.031688
West: -133.43274
carbon dioxide methane biomass Permafrost
Evolution of ecosystem-scale surface energy fluxes of a newly constructed boreal upland-fen watershed
North: 56.933056
South: 56.933056
East: -111.416667
West: -111.416667
meteorology vegetation hydrology reclamation/restoration soil carbon constructed fen
Effects of microforms on the evaporation of peat‐bryophyte‐litter column in a montane peatland in Canadian Rocky Mountain
North: 51.06
South: 51.06
East: -114.87
West: -114.87
peat properties meteorology hydrology microtopography fen evaporation
Quantifying the vertical water exchange of dominant tree species in a reclaimed landscape in the Athabasca oil sands region, Alberta
North: 56.933056
South: 56.933056
East: -111.416667
West: -111.416667
peat properties effects of disturbance meteorology reclamation/restoration hydrology constructed fen
Forest stand complexity controls ecosystem‐scale evapotranspiration dynamics: Implications for landscape flux simulations
North: 55.81
South: 55.81
East: -115.11
West: -115.11
meteorology hydrology modeling evapotranspiration fen
Net ecosystem exchange (NEE) of a permafrost peat plateau
North: 73.1
South: 73.1
East: -80
West: -80
carbon dioxide methane remote sensing peat properties dissolved organic carbon Climate change
Long-term changes in organic matter and mercury transport to lakes in the sporadic discontinuous permafrost zone related to peat subsidence
North: 61.3513
South: 59.5357
East: -117.721
West: -121.5051
soil carbon peat properties effects of disturbance Climate change Permafrost metals
CIMP 223: Water chemistry at the inflow and outflow of beaver ponds in the NWT and northern AB
North: 63.084
South: 57.386
East: -116.69
West: -123.243
hydrology water quality metals dissolved organic carbon
Tracking the impacts of recent warming and thaw of permafrost peatlands on aquatic ecosystems: a multi-proxy approach using remote sensing and lake sediments (CIMP164)
North: 62
South: 60
East: -116
West: -122
remote sensing climate change Permafrost dissolved organic carbon
Forest and peatland C stocks across a climatic gradient
North: 68.7
South: 56.4
East: -111
West: -133.4
soil carbon vegetation permafrost Dissolved organic carbon Climate change
Development of a Subarctic Peatland Linked to Slope Dynamics at Lac Wiyâshâkimî (Nunavik, Canada)
North: 56.27828
South: 56.27828
East: -74.47513
West: -74.47513
peat properties soil carbon Paleoecology
Paleoecology Data in Southwest Yukon
North: 62.34
South: 62.33
East: -140.83
West: -140.84
soil carbon Paleoecology
Distribution and activity of ice wedges across the forest-tundra transition, western Arctic Canada - CIMP164
North: 70.4793
South: 68.2247
East: -130.2302
West: -136.247
remote sensing hydrology climate change permafrost
Technical Services Advisory Group Climate Change Adaptation Program
North: 56
South: 50
East: -112
West: -113
traditional knowledge vegetation hydrology effects of disturbance land-use Climate change water quality
Regional distribution of arsenic in near-surface soils in the Yellowknife area (CIMP168)
North: 62.6621
South: 62.1639
East: -113.5832
West: -115.2192
peat properties effects of disturbance metals
Environmental Change and Terrestrial Resource Use by the Thule and Inuit of Labrador, Canada
North: 56.666918
South: 56.666918
East: -61.131324
West: -61.131324
soil carbon effects of disturbance peat properties vegetation climate change Paleoecology
Assessing the Effects of Climate Change and Land Use on Northern Labrador Forest Stands Based on Paleoecological Data
North: 56.90694
South: 56.46389
East: -61.62639
West: -62.07667
vegetation Climate change Paleoecology
Peat Profile Database
North: 83.15
South: 41.909
East: -52.619
West: -141.010
soil carbon peat properties biogeochemistry
Ring of Fire Environmental Monitoring
North: 53.84
South: 52.28
East: -85.05
West: -87.13
vegetation hydrology water quality monitoring
Southern Digital Landcover - Saskatchewan
North: 53.77
South: 48.84
East: -101.01
West: -110.76
mapping land-use agriculture
Northern Digital Landcover - Saskatchewan
North: 60.18
South: 53.77
East: -101.01
West: -110.76
carbon dioxide land-use agriculture wildfire forestry
Bog Dynamics - Kouchibouguac
North: 46.96
South: 46.70
East: -64.82
West: -65.14
effects of disturbance hydrology vegetation water quality bog Invasive species
A peatland productivity and decomposition parameter database
North: 83.15
South: 41.909
East: -52.619
West: -141.010
vegetation biomass decomposition
Environmental drivers of Sphagnum growth in peatlands across the Holarctic region
North: 83.15
South: 41.909
East: -52.619
West: -141.010
vegetation biomass meteorology
PEATCLSM(Tb): A land surface data assimilation product for peatlands using PEATCLSM and brightness temperature (Tb) satellite observations (Northern Hemisphere output)
North: 83.15
South: 41.909
East: -52.619
West: -141.010
remote sensing hydrology
Wildfire behaviour data for an experimental crown fire in thinned boreal black spruce, Alberta, Canada, 2019-05-11
North: 55.71
South: 55.71
East: -113.57
West: -113.57
vegetation wildfire
PEATGRIDS: Mapping global peat thickness and carbon stock via digital soil mapping approach, dataset
North: 83.15
South: 41.909
East: -52.619
West: -141.010
soil carbon mapping remote sensing
Global ensemble peatland, bare rock and bare sand extent at 100 m to 1 km spatial resolution based on multisource data
North: 83.15
South: 41.909
East: -52.619
West: -141.010
mapping remote sensing
The role of peatland degradation, protection and restoration for climate change mitigation in the SSP scenarios
North: 83.15
South: 41.909
East: -52.619
West: -141.010
reclamation/restoration effects of disturbance climate change management
Supplementary files from Comparing UAS LiDAR and Structure-from-Motion Photogrammetry for peatland mapping and virtual reality (VR) visualization
North: 45.42
South: 45.37
East: -75.57
West: -75.44
mapping methane bog
Peatland evaporation across hemispheres: contrasting controls and sensitivity to climate warming driven by plant functional types
North: 45.42
South: 45.37
East: -75.57
West: -75.44
hydrology meteorology climate change evaporation bog
Global wetland loss reconstruction over 1700-2020
North: 83.15
South: 41.909
East: -52.619
West: -141.010
mapping land-use
Terrestrial dissolved organic carbon in northern permafrost from 2000 – 2022
North: 83.15
South: 41.909
East: -52.619
West: -141.010
soil carbon Permafrost dissolved organic carbon climate change
Dataset and code for "Wildfire and degradation accelerate northern peatland carbon release" (NCLIM-22071425B)
North: 83.15
South: 41.909
East: -52.619
West: -141.010
carbon dioxide methane modeling wildfire
Alberta Biodiversity Monitoring Institute: Mapping Portal
North: 59.997765192688895
South: 49.00599247379366
East: -109.99891432568134
West: -120.00342248489095
mapping vegetation biodiversity wildlife hydrology wildfire effects of disturbance land-use
Reduced Net CO2 Uptake During Dry Summers in a Boreal Shield Peatland
North: 45.52
South: 45.52
East: -80.04
West: -80.04
carbon dioxide Bog Climate change
Assessing moss transplant methods to enhance Sphagnum moss recovery in post-wildfire hydrophobic peat
North: 55.98
South: 55.98
East: -115.19
West: -115.19
vegetation reclamation/restoration fen wildfire
Coupling a peatland hydrological model with a snowmelt module in order to model the snowmelt runoff in a boreal ombrotrophic peatland in eastern Quebec (Canada)
North: 50.525
South: 50.525
East: -63.207
West: -63.207
hydrology modeling
Unfolding a peatland’s story: Assessing the restoration outcomes and driving factors from a disturbed minerotrophic peatland in Eastern Canada
North: 48.32
South: 48.32
East: -68.83
West: -68.83
reclamation/restoration vegetation fen
Short-term soil responses and site conditions to inverted mounding on peatland linear features in Alberta, Canada
North: 55.11
South: 55.11
East: -118.76
West: -118.76
peat properties hydrology reclamation/restoration Seismic Lines
Intraspecific trait variability in four geographically widespread peatland plant species in Canada
North: 59.99
South: 41.909
East: -57.19
West: -120.01
vegetation
Large Carbon Losses From Burned Permafrost Peatlands During Post-Fire Succession
North: 59.595
South: 59.441
East: −117.176
West: −117.286
soil carbon carbon dioxide methane permafrost wildfire
Future Trajectories of Peatland Permafrost Under Climate and Ecosystem Change in Northeastern Canada
North: 56.47
South: 51.43
East: -56.44
West: -61.72
effects of disturbance Climate change Permafrost
Simulating ecosystem carbon dioxide fluxes and their associated influencing factors for a restored peatland
North: 47.96
South: 47.96
East: -69.44
West: -69.43
carbon dioxide modeling methane reclamation/restoration meteorology bog extraction
Fuel loads and peat smouldering carbon loss increase following drainage in a forested boreal peatland
North: 53.38
South: 53.38
East: -114.82
West: -114.82
soil carbon effects of disturbance drainage Wildfire Extraction
Methane fluxes from Peace River peatland seismic lines
North: 56.23
South: 56.23
East: -117.34
West: -117.34
methane effects of disturbance meteorology seismic lines
Hydrology controls thermokarst and alters carbon cycling and methane emissions in peatlands near the southern limit of permafrost: Model Inputs and Outputs
North: 61.3
South: 61.3
East: -121.3
West: -121.3
methane meteorology hydrology peat properties modeling Permafrost vegetation
Ecosystem-scale methane emissions from peatlands of the Hudson Bay Lowlands
North: 54.94
South: 52.70
East: -83.46
West: -83.95
methane carbon dioxide meteorology
Seismic line disturbance alters soil physical and chemical properties across boreal forest and peatland soils
North: 56.353658974171694
South: 55.37030146395719
East: -111.15472558957455
West: -111.58965694490121
peat properties reclamation/restoration effects of disturbance seismic lines
Insights into Allogenic and Autogenic Controls on the Nature and Distribution of Bog Islands in Patterned Peatlands
North: 50.00
South: 50.00
East: -96.16
West: -96.16
peat properties hydrology
Bioclimatic, terrain, and specific peatland composition are major drivers of woodland caribou winter habitat suitability in northern Ontario
North: 54.91
South: 47.64
East: -80.02
West: -92.07
wildlife modeling meteorology vegetation
A global development and dynamics of peatland restoration: a bibliometric analysis
North: 83.15
South: 41.909
East: -52.61
West: -141.010
remote sensing Climate change
Intelligent tinkering: Do active restoration treatments promote initial ecosystem recovery after narrow linear disturbances in forested boreal fens?
North: 55.67
South: 54.68
East: -110.00
West: -111.65
vegetation reclamation/restoration modeling seismic lines
Shrub abundance contributes to shifts in dissolved organic carbon concentration and chemistry in a continental bog exposed to drainage and warming
North: 55.3714644530683
South: 55.321909487892306
East: -112.48440193149736
West: -112.53970938744624
carbon dioxide peat properties methane vegetation hydrology climate change drainage
Controls on soil carbon dioxide and methane fluxes from a peat swamp vary by hydrogeomorphic setting
North: 43.372417
South: 43.372417
East: -80.108583
West: -80.108583
carbon dioxide meteorology methane hydrology peat properties swamp
Methane emissions from fens in Alberta’s boreal region: reference data for functional evaluation of restoration outcomes
North: 56.937952280779896
South: 56.379302933778895
East: -111.2345494402574
West: -111.55845473663787
carbon dioxide hydrology methane peat properties meteorology fen
Reclaimed Oil Sands Exploration sites Alberta - Carbon Flux and Environmental Variables
North: 55.0696571762317
South: 55.05469800704043
East: -110.4843405402933
West: -110.49328825193773
carbon dioxide hydrology methane peat properties effects of disturbance Vegetation oil and gas reclamation/restoration
Greenhouse Gas Emissions Dynamics in Restored Fens After In-Situ Oil Sands Well Pad Disturbances of Canadian Boreal Peatlands
North: 56.383597
South: 56.383597
East: -116.778731
West: -116.778731
carbon dioxide hydrology methane peat properties meteorology Vegetation reclamation/restoration fen
Post-extraction restored peatland methane production and emission
North: 47.967208
South: 47.967208
East: -69.428639
West: -69.428639
carbon dioxide peat properties methane reclamation/restoration soil carbon Extraction
Dissolved organic carbon production and transport within a constructed fen watershed in the Athabasca Oil Sands Region, Alberta, Canada
North: 56.932400
South: 56.932400
East: -111.417250
West: -111.417250
meteorology reclamation/restoration hydrology peat properties dissolved organic carbon oil and gas constructed fen
2019 Nikanotee Fen DOC Data
North: 56.932400
South: 56.932400
East: -111.417250
West: -111.417250
peat properties hydrology effects of disturbance vegetation dissolved organic carbon oil and gas constructed fen
Relationship between soil CO2 fluxes and soil moisture: Anaerobic sources explain fluxes at high water content
North: 43.3838
South: 43.3838
East: -80.3847
West: -80.3847
carbon dioxide peat properties modeling
Coastal Labrador peatland permafrost inventory
North: 58.638370
South: 51.422931
East: -55.765940
West: -63.351862
mapping Permafrost
Dissolved organic matter and bacterial data for a degradation experiment using winter water from a subarctic thermokarstic peatland lake in Nunavik, Québec, Canada
North: 55.225018
South: 55.225018
East: -77.696580
West: -77.696580
hydrology Dissolved organic matter Permafrost
Climate station data from Whapmagoostui-Kuujjuarapik Region in Nunavik, Quebec, Canada
North: 55.600000
South: 55.276440
East: -77.216660
West: -77.746250
meteorology
Concentrations of dissolved methane, carbon dioxide and oxygen in thermokarst lakes and ponds in palsa peatlands, northern Québec, Canada
North: 57.73
South: 55.21
East: -77.70
West: -76.11
carbon dioxide methane Permafrost biogeochemistry
Botanical and environmental survey data collected from 85 ombrotrophic peatland pools distributed across three distinct climatic regions in Eastern Canada
North: 62.72111931084139
South: 44.857156572476356
East: -57.22575915116785
West: -79.63415316285474
reclamation/restoration vegetation hydrology
Bridging the gap from peat to ponds: terrestrial and aquatic greenhouse gas emissions in an evolving permafrost-associated boreal peatland
North: 55.226551
South: 55.226551
East: -77.695773
West: -77.695773
carbon dioxide methane nitrous oxide Permafrost
Multilabel Classification of Peatland Plant Species from High-Resolution Drone Images
North: 49.71
South: 45.05
East: -66.45
West: -79.07
modeling remote sensing vegetation
Botanical and environmental survey data from 168 Sphagnum peatlands across three climatic regions in Eastern Canada
North: 62.72111931084139
South: 44.857156572476356
East: -57.22575915116785
West: -79.63415316285474
vegetation Ecology
Mapping Invasive Highbush Blueberry in Richmond Nature Park: A Multi-temporal Normalized Difference Vegetation Index (NDVI) and Spectral Analysis Approach for Peatland Conservation
North: 49.177009914581824
South: 49.17044150285006
East: -123.09190030756446
West: -123.10283566734907
mapping vegetation remote sensing conservation Invasive species Bog
Ecosystem scale carbon dioxide and methane emissions from extracted peatlands in Alberta and Quebec, Canada
North: 53.670193
South: 53.4587
East: -114.8737
West: -115.160329
carbon dioxide methane meteorology
Overwintering fires can occur in both peatlands and upland forests with varying ecological impacts
North: 78.82805271196608
South: 59.96266126343798
East: -102.10409554609429
West: -136.35187106894026
vegetation wildfire
Dataset for Examining the Effects of Nutrient Pulses on Biogeochemical Cycling in Subarctic Peatlands in the Context of Permafrost Thaw and Wildfires
North: 61.30822
South: 61.30183
East: -121.298318
West: -121.301337
carbon dioxide methane nitrous oxide bog fen biogeochemistry
Permafrost thaw in boreal peatlands is rapidly altering forest community composition
North: 61.310556
South: 61.310556
East: -121.293333
West: -121.293333
peat properties vegetation Permafrost Climate change
Peatland / Tourbiere polygons
North: 48.021836666744136
South: 44.83706289931603
East: -63.77335834055858
West: -69.0567392724191
mapping
Contrasting effects of road dust and atmospheric dust on carbon accumulation in ombrotrophic peatlands
North: 50.24
South: 50.24
East: -63.31
West: -63.31
effects of disturbance peat properties soil carbon
CIMP 223: Water chemistry of streams and rivers in permafrost peatland catchments of NWT and northern AB
North: 63.234
South: 57.335
East: -112.771
West: -123.5
hydrology dissolved organic carbon Permafrost Water quality
Methane fluxes from Peace River peatland seismic lines
North: 56.39
South: 56.20
East: -116.79
West: -116.93
methane effects of disturbance
Greenhouse gas fluxes and their climatic controls from permafrost peatlands undergoing succession after permafrost thaw
North: 59.4845
South: 59.4845
East: −117.1765
West: −117.1765
carbon dioxide methane Permafrost
Rate of permafrost thaw and associated plant community dynamics in peatlands of northwestern Canada
North: 66.16
South: 60.00
East: -114.39
West: -128.68
vegetation hydrology peat properties Permafrost Climate change
Reciprocal Transplant Experiment Reveals Insights into C Sequestration in Mountain Peatlands with Contrasting Climate Conditions
North: 51.68158385463311
South: 51.061574303427065
East: -116.41445898023838
West: -114.87125008443363
meteorology carbon dioxide hydrology methane fen
A Peatland Sub-Class Map for the Canadian Boreal Forest
North: 68.64597131617901
South: 41.909
East: -52.619
West: -140.97021100535886
mapping remote sensing bog fen Permafrost
Observational and model input data for streamflow modeling of mine-impacted peatlands in the James Bay Lowlands, ON
North: 52.821667
South: 52.821667
East: -83.911111
West: -83.911111
meteorology hydrology effects of disturbance modeling Climate change Mining
Gas flux measurements of drained peatlands in eastern Quebec
North: 47.790556
South: 47.790556
East: -69.517222
West: -69.517222
carbon dioxide methane effects of disturbance Extraction drainage
Permafrost thaw causes large carbon loss in boreal peatlands while changes to peat quality are limited
North: 61.297572328592054
South: 61.297572328592054
East: -121.29775031282645
West: -121.29775031282645
soil carbon peat properties Climate change Permafrost
Carbon emissions from extracted peatlands in Alberta, Canada
North: 53.557
South: 53.557
East: -114.736
West: -114.736
carbon dioxide methane
Improved estimates of carbon dioxide emissions from drained peatlands support a reduction in emission factor
North: 83.15
South: 41.909
East: -52.619
West: -141.010
carbon dioxide effects of disturbance peat properties Emission factors drainage
Patterns of Discontinuous Permafrost Thaw in Peatlands
North: 61.2976083553501
South: 61.2976083553501
East: -121.29776090792849
West: -121.29776090792849
modeling hydrology climate change Permafrost
Experimental determination of methane production and consumption potential in unrestored, restored and natural peatlands
North: 53.473519
South: 53.473519
East: -114.862036
West: -114.862036
methane effects of disturbance
Plant community dynamics and carbon sequestration in Sphagnum-dominated peatlands in the era of global change
North: 43.96200011200539
South: 43.96200011200539
East: -80.39966001995782
West: -80.39966001995782
soil carbon peat properties vegetation Ecology nitrogen
Assessing environmental attributes and effects of climate change on Sphagnum peatland distributions in North America using single- and multi-species models
North: 83.15
South: 41.909
East: -52.619
West: -141.010
modeling meteorology vegetation soil carbon
CIMP 177: The influence of forest fires on metal deposition to lakes and peatlands in the North Slave Region, NWT
North: 63.001
South: 61.893
East: -113.469
West: -116.537
effects of disturbance hydrology Wildfire Water quality
Recent changes in carbon source-sink relationships and greenhouse gas emissions in forest and peatland ecosystems along the Mackenzie Valley region of Canada 2012
North: 78.80
South: 58.5119449072896
East: -101.3944968890042
West: -136.52976303551856
vegetation carbon dioxide methane climate change Permafrost
Alberta Bog Net Nitrogen Mineralization, 2013-2015
North: 56.37445146387556
South: 54.77109857180812
East: -112.1989313753438
West: -115.28295120874444
effects of disturbance Bog Nitrogen
Cellulose in situ Decomposition in a Bog Exposed to Increasing Nitrogen Treatments, 2012-2014
North: 55.895
South: 55.895
East: -112.094
West: -112.094
effects of disturbance Bog Nitrogen decomposition
Cellulose, Peat, and Mixed Vegetation in situ Decomposition in a Fen Exposed to Increasing Nitrogen Treatments, 2012-2015
North: 55.897
South: 55.897
East: -112.094
West: -112.094
effects of disturbance Fen Nitrogen decomposition
Data associated with a study on freshwater phenanthrene removal by three emergent wetland plants conducted in a microcosm experiment at the IISD Experimental Lakes Area, ON, Canada, in 2022
North: 49.71
South: 49.64
East: -93.72
West: -93.78
vegetation effects of disturbance reclamation/restoration
Long-term monitoring of peatlands located near oil sands mining activities surrounding Fort McMurray, Alberta, Canada (2009-2019)
North: 57.2746741014888
South: 55.985300216109565
East: -111.04283053733893
West: -115.18703200113546
vegetation effects of disturbance Bog Oil and gas Nitrogen
Vegetation regeneration in minerotropic rich peatlands burned between 2011 and 2016 in the Northwest Territories
North: 62.27
South: 60.83
East: -116.05
West: -117.61
vegetation wildfire
Utikuma Region Alberta High Resolution Lidar-Multispectral Peatland and Ecotone Classification
North: 56.11
South: 56
East: -115.31
West: -115.55
remote sensing mapping land-use
Seasonal Monitoring of Smith Creek and Scotty Creek, 2019-2021
North: 63.174
South: 61.416
East: -121.455
West: -123.337
hydrology Permafrost dissolved organic carbon water quality
Above- and Belowground Carbon Losses from Boreal Peatlands During the Horse River Wildfire
North: 56.526818
South: 56.526818
East: -111.293123
West: -111.293123
soil carbon Wildfire
Quantifying litterfall and its carbon and nitrogen content in Beverly swamp
North: 43.38202
South: 43.38202
East: -80.09329
West: -80.09329
soil carbon peat properties swamp nitrogen
Utikuma Region Alberta lidar canopy height model time series
North: 56.11
South: 56.00
East: -115.31
West: -115.55
remote sensing wildfire
Data for Multilabel Classification of Peatland Plant Species from High-Resolution Drone Images
North: 62.72111931084139
South: 44.857156572476356
East: -57.22575915116785
West: -79.63415316285474
remote sensing vegetation
Baker Creek Research Catchment Hydrometeorological and Hydrological Data
North: 62.715894
South: 62.491562
East: -114.312572
West: -114.574885
hydrology meteorology
Provincially Significant Peatlands (Manitoba)
North: 60.01
South: 49.03
East: -89.11
West: -102.07
mapping
DOC exports from peatland sites, a global review: annual biogeochemical and climatic dataset
North: 56.516700
South: 44.091700
East: -98.816700
West: -65.216700
effects of disturbance dissolved organic carbon
Radiocarbon dates of peatland initiation across the northern high latitudes
North: 83.15
South: 41.909
East: -52.619
West: -141.010
peat properties Radiocarbon dating
Peat properties for cores including sampling depths, bulk density, carbon, nitrogen, LOI, dominant vegetation type, plant macrofossils, peat environmental class
North: 83.15
South: 41.909
East: -52.619
West: -141.010
peat properties vegetation soil carbon Radiocarbon dating
Geochemistry of Mosaik RiP2 (MOSRiP2) peat core from Canada
North: 51.966667
South: 51.966667
East: -75.400000
West: -75.400000
peat properties soil carbon Bog
Geochemistry of KUJU (BF2) peat core from Canada
North: 55.230000
South: 55.230000
East: -77.700000
West: -77.700000
soil carbon fen Permafrost
Geochemistry of Utikuma (UTI) peat core from Canada
North: 55.84
South: 55.84
East: -115.09
West: -115.09
soil carbon peat properties fen
Geochemistry of Joey (core15) peat core from Canada
North: 55.47
South: 55.47
East: -98.15
West: -98.15
soil carbon peat properties bog Permafrost
Geochemistry of JBL2 peat core from Canada
North: 52.02
South: 52.02
East: -90.13
West: -90.13
peat properties soil carbon bog Permafrost
Geochemistry of PLAINE (PLA) peat core from Canada
North: 50.27
South: 50.27
East: -63.54
West: -63.54
peat properties soil carbon Bog
Geochemistry of Baie (BC2A) peat core from Canada
North: 49.0964
South: 49.0964
East: -68.2434
West: -68.2434
peat properties soil carbon bog
Geochemistry of Lebel (BC1A) peat core from Canada
North: 49.1090
South: 49.1090
East: -68.2397
West: -68.2397
peat properties soil carbon Bog
Geochemistry of Old Black Spruce Fen (OBS3 C3) peat core from Canada
North: 53.998300
South: 53.998300
East: -105.115300
West: -105.115300
soil carbon peat properties
Geochemistry of JBL8 peat core from Canada
North: 50.47
South: 50.47
East: -89.93
West: -89.93
soil carbon peat properties Bog Permafrost
Geochemistry of Morts (HP2A) peat core from Canada
North: 50.2642
South: 50.2642
East: -63.6693
West: -63.6693
soil carbon peat properties Bog
Geochemistry of JBL 2008 7 (JBL7) peat core from Canada
North: 54.4
South: 54.4
East: -89.52
West: -89.52
soil carbon peat properties Bog Permafrost
Geochemistry of Plaine (HP1A) peat core from Canada
North: 50.2742
South: 50.2742
East: -63.5414
West: -63.5414
soil carbon peat properties Bog
Geochemistry of Red Bay (BS1A) peat core from Canada
North: 51.7591
South: 51.7591
East: -56.4146
West: -56.4146
soil carbon peat properties Bog
Geochemistry of JBL1 peat core from Canada
North: 51.07
South: 51.07
East: -89.80
West: -89.80
soil carbon peat properties Bog Permafrost
Geochemistry of JBL 2008 6 (JBL6) peat core from Canada
North: 54.7725
South: 54.7725
East: -89.319444
West: -89.319444
soil carbon peat properties Bog Permafrost
Data for: "Limitations of a frozen feast: Light availability affects boreal plant access to novel nitrogen released from permafrost thaw"
North: 78.82805271196608
South: 59.96266126343798
East: -102.10409554609429
West: -136.35187106894026
vegetation permafrost nitrogen
Data for: Response of boreal plant communities and forest floor carbon fluxes to experimental nutrient additions
North: 61.3000
South: 61.3000
East: -121.3000
West: -121.3000
vegetation carbon dioxide methane permafrost
The Boreal–Arctic Wetland and Lake Dataset (BAWLD)
North: 83.15
South: 41.909
East: -52.619
West: -141.010
mapping modeling permafrost
Data for "Greater variation in boreal plant community composition and community-level traits at local- than regional-scale"
North: 68.5337
South: 53.9833
East: -105.1167
West: -133.5333
vegetation
Geochemistry of Caribou (MRB13_4) peat core from Canada
North: 66.6785
South: 66.6785
East: -130.9732
West: -130.9732
soil carbon peat properties nitrogen permafrost
Geochemistry of T1_core1 peat core
North: 68.32
South: 68.32
East: -133.42
West: -133.42
peat properties soil carbon bog