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| Title | Geographical coordinates | Keywords |
|---|---|---|
| Can-Peat Sub-Project - Determining Potential for Restoration & Reclamation To Mitigate GHG from Disturbed Peatlands |
North: 55.294South: 46.747East: -68.0West: -114.884 |
carbon dioxide methane vegetation reclamation/restoration land-use |
| 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: 45.3936South: 45.3936East: -75.5122West: -75.5122 |
carbon dioxide modeling Bog Non-growing season Machine learning |
| Peat chemistry: Raw data and quality control, Seba Beach peat samples used for microbial analyses and microcosms, 2016-2017 |
North: 53.55South: 53.55East: -114.73333333333333West: -114.73333333333333 |
peat properties |
| CO2, H, H2O fluxes from a mixed Acadian forest |
North: 46.0092South: 46.0092East: -66.3627West: -66.3627 |
carbon dioxide |
| Mapping peat environments |
North: 50.794144South: 45.443707East: -59.472728West: -79.478398 |
mapping mining Bog |
| Global Peat C and N data (2018-2020) |
North: 83.15South: 41.909East: -52.619West: -141.010 |
carbon accounting soil carbon nutrients |
| CO2, H, H2O, CH4 fluxes from Attawapiskat River Bog permanent wetland |
North: 52.6950South: 52.6950East: -83.9452West: -83.9452 |
carbon dioxide methane peat properties Bog |
| Major Peat Resource Potential Map |
North: 60.00South: 49.00East: -102.00West: -110.00 |
mapping land-use base metals oil sands |
| CO2, H, H2O, CH4 fluxes from Attawapiskat River Fen permanent wetland |
North: 52.7008South: 52.7008East: -83.9550West: -83.9550 |
carbon dioxide methane peat properties Fen |
| CO2, CH4, H, H2O fluxes from Bouleau Peatland permanent wetland |
North: 50.5244South: 50.5244East: -63.2064West: -63.2064 |
carbon dioxide methane ombrotrophic |
| Peat carbon, δ14C, macrofossil, and humification data from a thawing permafrost peatland in western Canada |
North: 59.5South: 59.5East: -117.2West: -117.2 |
peat properties soil carbon Thermokarst bog Biogeochemistry Permafrost peat plateau |
| Physicochemical properties of 63 peat samples with methanogenic and methanotrophic sequence count above the rarefaction threshold. DOC – dissolved organic carbon (mg g-1), EC – electrical conductivity |
North: 53.47559844767098South: 53.4464826061887East: -114.85026231521887West: -114.87984827452631 |
peat properties short chain fatty acid inons terminal electron acceptors |
| Data for: 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: 49.129350South: 49.129350East: -122.984917West: -122.984917 |
carbon dioxide methane reclamation/restoration Bog |
| Carbon dioxide, hydrogen, and water fluxes from mixed deciduous Borden Forest site in Ontario |
North: 44.3184South: 44.3184East: -79.9341West: -79.9341 |
carbon dioxide |
| Carbon Dioxide, Hydrogen, and Water Fluxes from a Subarctic Northern Fen West of Hudson Bay |
North: 58.6658South: 58.6658East: -93.8300West: -93.8300 |
carbon dioxide Fen |
| Carbon Dioxide, Methane, Hydrogen, and Water Fluxes from a Northern Subarctic Fen |
North: 58.6658South: 58.6658East: -93.8300West: -93.8300 |
carbon dioxide methane Fen |
| Data for: Drainage reduces the resilience of a boreal peatland |
North: 52.693333South: 52.693333East: -83.944722West: -83.944722 |
carbon dioxide vegetation hydrology effects of disturbance Bog |
| Carbon Dioxide, Methane, Hydrogen, and Water fluxes from a Subarctic Northern Fen West of Hudson Bay |
North: 58.6658South: 58.6658East: -93.8304West: -93.8304 |
carbon dioxide methane Fen |
| Data for Presence of Access Roads Results in Reduced Growing Season Carbon Uptake in Adjacent Boreal Peatlands (2016-2017) |
North: 56.451758032796285South: 56.451758032796285East: -117.10142669953595West: -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: 45.8847South: 45.8847East: -67.3569West: -67.3569 |
carbon dioxide |
| Road impact on methane: data (2016-2017) |
North: 56.45109202548657South: 56.45109202548657East: -117.10309534038201West: -117.10309534038201 |
methane vegetation effects of disturbance Fen Bog |
| Carbon Dioxide, Methane, Hydrogen, and Water fluxes from a Pine-Sphagnum Bog in Vancouver |
North: 49.1190South: 49.1190East: -122.9951West: -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: 61.297711512380936South: 61.297711512380936East: -121.2979080344027West: -121.2979080344027 |
meteorology hydrology Net radiation Thermokarst Permafrost |
| Carbon Dioxide, Methane, Hydrogen, and Water Fluxes from a Disturbed Raised Bog in Vancouver |
North: 49.1293South: 49.1293East: -122.9849West: -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: 50.01951045977301South: 50.01951045977301East: -79.71465023923965West: -79.71465023923965 |
reclamation/restoration peat properties vegetation mining fertilizer |
| Replication data for: Effects of simulated wastewater nutrient amendments on Sphagnum productivity and decomposition within a subarctic ladder fen (2015-2016) |
North: 54.76353619323497South: 54.76353619323497East: -83.00881815938476West: -83.00881815938476 |
peat properties nutrient enrichment fen remote resource development |
| Distribution of peatlands in Canada using National Forest Inventory forest structure and ancillary land cover data (2011) |
North: 83.15South: 41.909East: -52.619West: -141.010 |
mapping peat properties management |
| Carbon Dioxide, Methane, Hydrogen, and Water fluxes from a Tidal Salt Marsh in British Columbia |
North: 49.0887South: 49.0887East: -122.8954West: -122.8954 |
carbon dioxide methane hydrology Tidal salt marsh |
| Micrometeorological and freeze-thaw data at Scotty Creek, NT 2001-2017 [Canada] |
North: 61.31216284619792South: 61.31216284619792East: -121.30163477934484West: -121.30163477934484 |
hydrology meteorology peat properties Permafrost Incoming Shortwave Radiation Ground Heat Flux |
| Wetland Regions (2009) |
North: 83.15South: 41.909East: -52.619West: -141.010 |
mapping wetlands |
| Carbon Dioxide, Methane, Nitrous Oxide, Hydrogen, and Water Fluxes from a Southwestern Manitoba Marsh |
North: 50.3623South: 50.3623East: -100.2024West: -100.2024 |
carbon dioxide methane nitrous oxide Marsh |
| Potential Impacts: Sensitivity of Peatlands to Climate Change |
North: 83.15South: 41.909East: -52.619West: -141.010 |
mapping climate change |
| Mines, Energy and Communication Networks in Canada - CanVec Series - Resources Management Features (2017) |
North: 83.15South: 41.909East: -52.619West: -141.010 |
mapping Oil wells mining |
| Using marsh organs to test seed recruitment in tidal freshwater marshes |
North: 49.098832South: 49.098832East: -123.090082West: -123.090082 |
vegetation Climate change coastal resilience Marsh |
| Ecosystem Components: Wetland Diversity (2009) |
North: 83.15South: 41.909East: -52.619West: -141.010 |
mapping Ecology Wetlands |
| Peatland map |
North: 83.15South: 41.909East: -52.619West: -141.010 |
mapping |
| Carbon Dioxide, Methane, Hydrogen, Nitrous Oxide, and Water Fluxes from a Freshwater Marsh in Southwest Manitoba |
North: 50.3706South: 50.3706East: -100.5339West: -100.5339 |
carbon dioxide methane nitrous oxide Marsh |
| Changes in dissolved organic carbon quality and quantity: Implications for aquatic ecosystems and drinking water quality for northern communities |
North: 68.349South: 61.148East: -111.582West: -133.745247 |
carbon accounting DOC water quality |
| Carbon Dioxide Fluxes from a Boreal Mixedwood Forest in Ontario |
North: 48.2167South: 48.2167East: -82.1556West: -82.1556 |
carbon dioxide remote sensing vegetation meteorology |
| Carbon Dioxide, Hydrogen, and Water Fluxes from a Northern Ontario Peatland |
North: 51.5902South: 51.5902East: -81.7684West: -81.7684 |
carbon dioxide meteorology |
| Carbon Dioxide, Methane, Hydrogen, and Water fluxes from a Southern Arctic Boreal Woodland |
North: 68.3203South: 68.3203East: -133.5188West: -133.5188 |
carbon dioxide meteorology methane Permafrost |
| Carbon Dioxide Fluxes from a Mixed Grass Prarie in Alberta |
North: 49.7093South: 49.7093East: -112.9402West: -112.9402 |
carbon dioxide |
| Physical Land Classification (PLC) |
North: 54.850698South: 51.825589East: -109.884957West: -118.003216 |
mapping peat properties Landform Surficial geology |
| 2016 Bois-des-Bel Hydrophysical Properties |
North: 47.96South: 47.96East: -69.43West: -69.43 |
reclamation/restoration hydrology Bog Sphagnum Hydraulic Conductivity |
| Bog Dynamics - Kouchibouguac (2009-2011, 2017-2019) |
North: 46.95South: 46.70East: -64.84West: -65.13 |
vegetation hydrology effects of disturbance Community dynamics Nutrients Ombrotrophic |
| Organic Soils (2002) |
North: 60.00South: 49.04East: -110.03West: -120.03 |
peat properties agriculture Soil-Health Soil-Types |
| Alberta Land Inventory (ALI) and Canada Land Inventory (CLI) Landform |
North: 60.00South: 49.04East: -110.03West: -120.03 |
mapping peat properties Surficial geology Landform |
| Carbon Dioxide, Methane, Hydrogen, and Water Fluxes from a Flooded Wetland in Southern Ontatio |
North: 43.9201South: 43.9201East: -80.4052West: -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: 51.728903South: 51.658489East: -128.087022West: -127.979119 |
hydrology DOC Groundwater Biogeochemistry |
| Methane flux from northern Alberta fens (2011-2014) |
North: 56.38South: 56.94East: -111.55West: -111.24 |
peat properties Fen Methane Flux |
| Ground Penetrating Radar (GPR) raw data and CS616 water content reflectometer probes output |
North: 53.47559844767098South: 53.4464826061887East: -114.85026231521887West: -114.87984827452631 |
hydrology subsurface volumetric gas content |
| 2016 Bois-des-Bel Hydrophysical Properties |
North: 47.969254781347374South: 47.96547178317978East: -69.42652913832511West: -69.43179968406069 |
reclamation/restoration hydrology peat properties Sphagnum Hydraulic conductivity Bog |
| Carbon Dioxide Fluxes from a Subarctic Boreal Evergreen Forest in Northern Manitoba |
North: 55.8796South: 55.8796East: -98.4808West: -98.4808 |
carbon dioxide |
| 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: 45.3936South: 45.3936East: -75.5122West: -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: 68.868South: 55.79East: -115.163West: -134.856 |
hydrology Mercury Permafrost water quality |
| Carbon Dioxide and Water Fluxes from an Albertan Cattle Ranch |
North: 50.8671South: 50.8671East: -111.9045West: -111.9045 |
carbon dioxide land-use effects of disturbance wetlands |
| Carbon Dioxide and Water Fluxes from a Subarctic Grassland with Scattered Wetlands in Alberta |
North: 50.9056South: 50.9056East: -111.8823West: -111.8823 |
carbon dioxide effects of disturbance wetlands |
| Data from: Lichens: a limit to peat growth? (2013-2014) |
North: 52.856206544540676South: 52.70047177941428East: -83.91462304460296West: -83.9530318437757 |
peat properties carbon dioxide Sphagnum Lichens leachates |
| Project Returns for Identification and Characterization of Abandoned Padded Wellsites Using Remote Sensing |
North: 60.00South: 49.04East: -110.03West: -120.03 |
reclamation/restoration remote sensing Padded wells Land cover Abandoned wells |
| Environmental and plant community composition and functional trait data across peatlands of the Forest Dynamics Plot at Scotty Creek, NT |
North: 61.3South: 61.3East: -121.3West: -121.3 |
vegetation Permafrost Plant community composition Plant functional traits |
| Four Component Radiation Data at Scotty Creek, NWT, Canada 2004-2019 |
North: 61.3South: 61.3East: -121.3West: -121.3 |
peat properties Permafrost Energy balance Subarctic |
| Permafrost thaw in boreal peatlands is rapidly altering forest community composition (2012 and 2018) |
North: 61.310556South: 61.310556East: -121.293333West: -121.293333 |
vegetation Permafrost Climate change |
| Carbon Dioxide Fluxes in a Central Manitoba Evergreen Forest with Fire Damage |
North: 55.8792South: 55.8792East: -98.4839West: -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: 55.9058South: 55.9058East: -98.5247West: -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: 55.9117South: 55.9117East: -98.3822West: -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: 55.9144South: 55.9144East: -98.3806West: -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: 55.8631South: 55.8631East: -98.4850West: -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: 55.9167South: 55.9167East: -98.9644West: -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: 56.6358South: 56.6358East: -99.9483West: -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: 55.8981South: 55.8981East: -98.2161West: -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: 53.6289South: 53.6289East: -106.1978West: -106.1978 |
carbon dioxide |
| Carbon Dioxide Fluxes from a Western Boreal Subarctic Black Spruce Forest in Saskatchewan |
North: 53.9872South: 53.9872East: -105.1178West: -105.1178 |
carbon dioxide |
| CH4 flux, [CH4] in pore water and environmental factors, Seba Beach peatlands |
North: 53.47559844767098South: 53.4464826061887East: -114.85026231521887West: -114.87984827452631 |
methane |
| Graminoids vary in functional traits, carbon dioxide and methane fluxes in a restored peatland: implications for modeling carbon storage |
North: 53.457222South: 53.457222East: -114.884444West: -114.884444 |
reclamation/restoration methane vegetation biomass carbon dioxide Plant traits Bog Ecophysiology |
| Green leaf phenological characteristics of boreal peatland vegetation impacted by linear disturbancesCopy record link |
North: 56.397561South: 56.362222East: -116.795833West: -116.891000 |
effects of disturbance vegetation Seismic Lines Vegetation greenness |
| Greenhouse gas and water chemistry data for northern lakes in western Canada (2018-2019) |
North: 78.80South: 48.99981996371706East: -101.3944968890042West: -136.52976303551856 |
methane carbon dioxide Permafrost Lake |
| Greenhouse gas, chemistry, and macrofossil data for a peatland lake in northern Alberta (2017-2018) |
North: 59.48South: 59.48East: -117.18West: -117.18 |
methane carbon dioxide Permafrost lake macrofossil |
| Forest management impacts on greenhouse gas fluxes from riparian soils along headwater streams |
North: 49.16South: 49.16East: -122.34West: -122.34 |
methane carbon dioxide nitrous oxide peat properties headwater streams forest harvest riparian buffer |
| Data for: Water quality and greenhouse gas fluxes for stormwater detained in a constructed wetland |
North: 49.26357°South: 49.26357°East: -123.25083°West: -123.25083° |
methane carbon dioxide DOC Stormwater constructed wetland |
| 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: 50.192366South: 46.78081277659033East: -61.557945West: -71.05463322467415 |
vegetation methane carbon dioxide Water chemistry DOC Peatland pools |
| Cross-sector comparison of methane emissions from anthropogenic sources: A case study in Canada |
North: 55.44South: 54.95East: -117.97West: -119.84 |
methane agriculture Oil and Gas Landfill |
| Active and inactive oil and gas sites contribute to methane emissions in western Saskatchewan, Canada |
North: 51.475152741086106South: 50.2644945927194East: -109.16855210945086West: -107.76869946809806 |
methane Venting Flaring Methane regulations |
| High peatland methane emissions following permafrost thaw: enhanced acetoclastic methanogenesis during early successional stages |
North: 59.5South: 59.5East: -117.2West: -117.2 |
methane Permafrost Thermokarst Isotopes |
| Boreal beaver pond diffusive CO2 and CH4 emissions data from Abitibi and Saguenay [2010-2011] |
North: 48.94001691514623South: 47.79East: -79.47010873402797West: -70.65 |
carbon dioxide methane Beaver ponds |
| Riparian cottonwood trees and adjacent river sediments have different microbial communities and produce methane with contrasting carbon isotope compositions |
North: 49.83755255532749South: 49.83755255532749East: -113.15678228560955West: -113.15678228560955 |
carbon dioxide methane Riparian Sediments Isotopes |
| Soil properties and seedling growth data for: "Soil properties as constraints to seedling regeneration beyond alpine treelines in the Canadian Rocky Mountains" |
North: 52.87071162938249South: 50.60709253683592East: -115.00141078549643West: -118.09423923790052 |
vegetation peat properties |
| Data from: Resident species with larger size metrics do not recruit more offspring from the seed bank in old-field meadow vegetation |
North: 44.55South: 44.55East: -76.35West: -76.35 |
vegetation Seed Bank Seed Size Leaf Size |
| Carbon Dioxide Fluxes from a Subarctic Western Boreal Forest in Saskatchewan |
North: 53.9163South: 53.9163East: -104.6920West: -104.6920 |
carbon dioxide |
| Carbon Dioxide Fluxes from Eastern Boreal Forest in Quebec |
North: 49.7598South: 49.7598East: -74.5711West: -74.5711 |
carbon dioxide |
| Carbon Dioxide Fluxes from an Eastern Boreal Evergreen Forest in Quebec |
North: 49.2671South: 49.2671East: -74.0365West: -74.0365 |
carbon dioxide |
| Carbon Dioxide Fluxes from a Subarctic Eastern Boreal Forest in Quebec |
North: 49.6925South: 49.6925East: -74.3421West: -74.3421 |
carbon dioxide |
| Data from: A survey of invasive plants on grassland soil microbial communities and ecosystem services |
North: n/aSouth: n/aEast: n/aWest: n/a |
vegetation methane peat properties nitrous oxide carbon dioxide Invasive species Soil communities wetlands |
| Dissolved Organic Carbon characteristic data from Boreal Plains lakes in Western Canada |
North: 56.12627072827371South: 55.83057365604561East: -115.08569777284129West: -115.70227348609085 |
hydrology Water chemistry DOC |
| Salinity, not genetic incompatibilities, limits the establishment of the invasive hybrid cattail Typha × glauca in coastal wetlands |
North: 49.02205815341967South: 43.43656754571372,East: -59.696151126867974West: -89.76211066803423 |
vegetation carbon dioxide Invasive species Coastal wetlands |
| Growth of jack pine and black spruce in response to leachates from lichen, Sphagnum spp. and feather mosses |
North: 46.77910764705349South: 46.77910764705349East: -71.28298689136255West: -71.28298689136255 |
vegetation Ecology Biochemistry Microbiology |
| Agri-Environmental Indicators (AEI) |
North: 83.15South: 41.909East: -52.619West: -141.010 |
land-use carbon dioxide peat properties methane hydrology Earth sciences |
| The Turkey Lakes Watershed Study |
North: 47.068787741072406South: 47.039608911140974East: -84.38826514191483West: -84.43298833378496 |
hydrology Air pollution Groundwater Water Quality |
| Data for: 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: 49.45South: 49.45East: -122.93West: -122.93 |
hydrology carbon dioxide water-atmosphere exchange carbon cycle headwaters |
| The Effects of Temperature and Soil Moisture on CO2 and CH4 Flux |
North: 67.60587333904357South: 47.39837592883582East: -82.5610734374375West: -138.56279090428282 |
carbon dioxide methane peat properties |
| GLOWCAD: A global database of woody tissue carbon concentrations/fractions |
North: 83.15South: 41.909East: -52.619West: -141.010 |
carbon accounting wood chemistry Wood carbon greenhouse gas inventory |
| Carbon Dioxide, Methane, Hydrogen, and Water Fluxes from a Brackish Marsh on the Coast of British Columbia |
North: 49.1313South: 49.1313East: -123.1964West: -123.1964 |
carbon dioxide methane Tidal marsh |
| Carbon Dioxide, Methane, Hydrogen, and Water Fluxes from a Shrubbed Bog in Newfoundland |
North: 48.2604South: 48.2604East: -58.6632West: -58.6632 |
carbon dioxide hydrology methane reclamation/restoration Bog |
| Carbon Dioxide, Methane, and Water Fluxes from a Bog in Northwest Territories |
North: 61.3089South: 61.3089East: -121.2984West: -121.2984 |
carbon dioxide meteorology methane peat properties Bog |
| Carbon Dioxide and Water Fluxes from a Boreal Evergreen Forest in Northwest Territories |
North: 61.3079South: 61.3079East: -121.2992West: -121.2992 |
carbon dioxide peat properties effects of disturbance |
| Carbon Dioxide Fluxes from a Previously Burnt Evergreen Boreal Forest in Saskatchewan |
North: 54.4850South: 54.4850East: -105.8176West: -105.8176 |
carbon dioxide biomass effects of disturbance Wildfire |
| Carbon Dioxide Fluxes from a Previously Burnt Boreal Evergreen Forest in Saskatchewan 1989 |
North: 54.2539South: 54.2539East: -105.8775West: -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: 54.0916South: 54.0916East: -106.0053West: -106.0053 |
carbon dioxide peat properties effects of disturbance Wildfire |
| Carbon Dioxide Fluxes in a Subarctic Western Boreal Forest in Saskatchewan 2001 |
North: 53.9080South: 53.9080East: -104.6560West: -104.6560 |
effects of disturbance carbon dioxide |
| Carbon Dioxide Fluxes in a Subarctic Western Boreal Forest in Saskatchewan 2002 |
North: 53.9450South: 53.9450East: -104.6490West: -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: 63.1534South: 63.1534East: -123.2522West: -123.2522 |
carbon dioxide peat properties methane effects of disturbance hydrology Permafrost |
| Geochemistry of Shuttle (SHU) peat core from Canada 2012 |
North: 59.86South: 59.86East: -97.64West: -97.64 |
peat properties soil carbon Permafrost Bog |
| Geochemistry of KJ2-3 peat core from Canada 2009 |
North: 51.59South: 51.59East: -81.76West: -81.76 |
peat properties soil carbon fen |
| Geochemistry of Lake785 peat core from Canada |
North: 59.11South: 59.11East: -97.4West: -97.4 |
peat properties soil carbon C-PEAT Permafrost Bog |
| Geochemistry of Lake369 peat core from Canada |
North: 59.58South: 59.58East: -98.57West: -98.57 |
peat properties soil carbon Permafrost Bog |
| Geochemistry of PLAINE (PLA) peat core from Canada 2009 |
North: 50.27South: 50.27East: -63.54West: -63.54 |
peat properties soil carbon C-PEAT Plateau bog |
| Geochemistry of Wylde Lake Bog (WYL) peat core from Canada |
North: 43.904944South: 43.904944East: -80.407278West: -80.407278 |
peat properties soil carbon Bog |
| Geochemistry of Unit (UNI) peat core from Canada 2012 |
North: 59.42South: 59.42East: -97.48West: -97.48 |
peat properties soil carbon Permafrost Bog |
| Geochemistry of JBL 2008 3 (JBL3) peat core from Canada 2008 |
North: 52.87South: 52.87East: -89.93West: -89.93 |
peat properties soil carbon Bog |
| Carbon Dioxide, Methane, Hydrogen, and Water Fluxes from Northern Yukon Open Shrublands |
North: 68.7462South: 68.7462East: -133.5017West: -133.5017 |
carbon dioxide methane meteorology Permafrost |
| Carbon Dioxide Fluxes from a Subarctic Peat Fen in Western Alberta |
North: 54.9538South: 54.9538East: -112.4670West: -112.4670 |
carbon dioxide Fen |
| Carbon Dioxide Fluxes from a Subarctic Poor Fen in Western Alberta |
North: 55.5375South: 55.5375East: -112.3343West: -112.3343 |
carbon dioxide Fen |
| Carbon Dioxide Fluxes from a Subarctic Rich Fen in Western Alberta |
North: 54.4700South: 54.4700East: -113.3200West: -113.3200 |
carbon dioxide Fen |
| Age determination of Martin (core1) peat core from Canada |
North: 61.8South: 61.8East: -121.4West: -121.4 |
peat properties |
| Geochemistry of Martin (core1) peat core from Canada |
North: 61.8South: 61.8East: -121.4West: -121.4 |
peat properties soil carbon |
| Vegetation height derived from Sentinel-1 and Sentinel-2 satellite data (2015-2018) for tundra regions |
North: 73.703890South: 56.3East: -76.000000West: 60.410560 |
vegetation Tundra |
| Hydrometeorological observations at three boreal forest sites (aspen, jack pine, and black spruce) located in central Saskatchewan, Canada |
North: 53.629South: 53.987East: -106.198West: -104.692 |
vegetation Boreal forest Hydrometeorology Black spruce |
| Basin Geometry and Mountain Snowpack Responses to Climate Change: Data, Code, and Figures |
North: 55South: 47East: -123West: -112 |
hydrology elevation hypsometry climate change |
| Environmental and gross primary production observations for a mature black spruce site located in central Saskatchewan, Canada |
North: 53.987South: 53.987East: -105.117West: -105.117 |
vegetation Gross primary production Photosynthetically active radiation Black spruce |
| Stem radius change from Picea mariana and Larix laricina at the Old Black Spruce site, Boreal Research Ecosystem and Monitoring Sites (BERMS) |
North: 53.98South: 53. 98East: -105.12West: -105.12 |
vegetation stem radius change tree hydraulics boreal forest |
| 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: 45.3936South: 45.3936East: -75.5122West: -75.5122 |
carbon dioxide Climate change Non-growing season Bog |
| Postfire soil carbon accumulation does not recover boreal peatland combustion loss in some hydrogeological settings |
North: 56.55South: 56.03East: -113.83West: -115.26 |
soil carbon peat properties Wildfire black spruce |
| Ecosystem scale evapotranspiration and CO2 exchange in burned and unburned peatlands: Implications for the ecohydrological resilience of carbon stocks |
North: 56.107South: 56.107East: -115.561West: -115.561 |
carbon dioxide hydrology methane peat properties Wildfire ombrotrophic |
| Seasonal ground ice impacts on spring ecohydrological conditions in a western boreal plains peatland |
North: 56 220 30.36South: 56 220 30.36East: 111 140 3.29West: 111 140 3.29 |
soil carbon meteorology peat properties hydrology seasonal ground ice fen |
| Wildfire overrides hydrological controls on boreal peatland methane emissions |
North: 56.938926893850514South: 56.938926893850514East: -111.54887853583233West: -111.54887853583233 |
carbon dioxide hydrology methane soil carbon peat properties Wildfire fen |
| Growing season evapotranspiration in boreal fens in the Athabasca Oil Sands Region: Variability and environmental controls |
North: 56.94South: 56.39873845897099East: -111.24113334442687West: -112.05265492840006 |
peat properties meteorology hydrology fen saline fen |
| Hydraulic redistribution and hydrological controls on aspen transpiration and establishment in peatlands following wildfire |
North: 56.10011961642731South: 56.10011961642731East: -116.53333349072224West: -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: 56.933333South: 56.933333East: -111.548900West: -111.548900 |
peat properties meteorology hydrology DOC Wildfire fen |
| Deeper burning in a boreal fen peatland 1‐year post‐wildfire accelerates recovery trajectory of carbon dioxide uptake |
North: 56.22South: 56.22East: -111.14West: -111.14 |
carbon dioxide peat properties hydrology vegetation soil carbon Wildfire Fen |
| Understanding the peak growing season ecosystem water‐use efficiency at four boreal fens in the Athabasca oil sands region |
North: 56.366667South: 56.316667East: -111.550000West: -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: 50.8257South: 50.8257East: -115.19West: -115.19 |
soil carbon hydrology vegetation meteorology |
| Evaluating the hydrological response of a boreal fen following the removal of a temporary access road |
North: 57.216667South: 57.216667East: -110.883333West: -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: 50.82South: 50.82East: -115.21West: -115.21 |
meteorology hydrology Energy budget Subapline wetland |
| Regulation of peatland evaporation following wildfire; the complex control of soil tension under dynamic evaporation demand |
North: 56.107South: 56.107East: -115.561West: -115.561 |
peat properties meteorology hydrology Wildfire evapotranspiration |
| 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: 50.82South: 50.82East: -115.21West: -115.21 |
meteorology hydrology carbon dioxide marsh meadow |
| The influence of system heterogeneity on peat-surface temperature dynamics |
North: 55.81South: 55.81East: -115.11West: -115.11 |
soil carbon peat properties thermal dynamics microtopography fen |
| Quantifying relative contributions of source waters from a subalpine wetland to downstream water bodies |
North: 50.774910598754275South: 50.774910598754275East: -115.34630626516356West: -115.34630626516356 |
vegetation meteorology hydrology Isotopes Subapline wetland |
| Hydrology drives chemical synchronicity in subarctic tundra ponds |
North: 58.73600313075861South: 58.73600313075861East: -93.82588019096798West: -93.82588019096798 |
hydrology Tundra ponds biogeochemistry Climate change |
| Changes to the hydrology of a boreal fen following the placement of an access road and below ground pipeline |
North: 56.933333South: 56.933333East: -111.533333West: -111.533333 |
soil carbon hydrology peat properties vegetation fen Linear disturbances |
| Quantifying the spatial variability of melting seasonal ground ice and its influence on potential evapotranspiration spatial variability in a boreal peatland |
North: 56.375100South: 56.375100East: -111.234247West: -111.234247 |
peat properties meteorology hydrology seasonal ground ice evapotranspiration fen |
| Carbon and Nutrient Stoichiometric Relationships in the Soil–Plant Systems of Disturbed Boreal Forest Peatlands within Athabasca Oil Sands Region, Canada |
North: 56.933333South: 56.316667East: -111.233333West: -111.650000 |
soil carbon reclamation/restoration peat properties effects of disturbance vegetation CNP stoichiometry |
| Evolution of ecosystem-scale surface energy fluxes of a newly constructed boreal upland-fen watershed |
North: 56.933056South: 56.933056East: -111.416667West: -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: 51.06South: 51.06East: -114.87West: -114.87 |
peat properties meteorology hydrology microtopography montane peatland |
| Quantifying the vertical water exchange of dominant tree species in a reclaimed landscape in the Athabasca oil sands region, Alberta |
North: 56.933056South: 56.933056East: -111.416667West: -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: 55.81South: 55.81East: -115.11West: -115.11 |
meteorology hydrology modeling evapotranspiration fen |
| Coastal Labrador peatland permafrost inventory |
North: 58.638370South: 51.422931East: -55.765940West: -63.351862 |
mapping thermokarst 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: 55.225018South: 55.225018East: -77.696580West: -77.696580 |
hydrology Dissolved organic matter Permafrost thermokarst |
| Climate station data from Whapmagoostui-Kuujjuarapik Region in Nunavik, Quebec, Canada |
North: 55.600000South: 55.276440East: -77.216660West: -77.746250 |
meteorology |
| Concentrations of dissolved methane, carbon dioxide and oxygen in thermokarst lakes and ponds in palsa peatlands, northern Québec, Canada |
North: 57.739567South: 55.219000East: -77.708000West: -76.114233 |
carbon dioxide methane thermokarst Permafrost biogeochemistry |
| Botanical and environmental survey data collected from 85 ombrotrophic peatland pools distributed across three distinct climatic regions in Eastern Canada |
North: 62.72111931084139South: 44.857156572476356East: -57.22575915116785West: -79.63415316285474 |
reclamation/restoration vegetation Water chemistry Aquatic plant species Pools |
| Bridging the gap from peat to ponds: terrestrial and aquatic greenhouse gas emissions in an evolving permafrost-associated boreal peatland |
North: 55.226551South: 55.226551East: -77.695773West: -77.695773 |
carbon dioxide methane nitrous oxide subsurface peat chemistry Permafrost Thermokarst ponds |
| Data for Multilabel Classification of Peatland Plant Species from High-Resolution Drone Images |
North: 49.71South: 45.05East: -66.45West: -79.07 |
modeling remote sensing vegetation shrub species |
| Botanical and environmental survey data from 168 Sphagnum peatlands across three climatic regions in Eastern Canada |
North: 62.72111931084139South: 44.857156572476356East: -57.22575915116785West: -79.63415316285474 |
vegetation Ecology Bryophytes |
| Ecosystem scale carbon dioxide and methane emissions from extracted peatlands in Alberta and Quebec, Canada |
North: 53.670193South: 53.4587East: -114.8737West: -115.160329 |
carbon dioxide methane meteorology |
| Overwintering fires can occur in both peatlands and upland forests with varying ecological impacts |
North: 78.82805271196608South: 59.96266126343798East: -102.10409554609429West: -136.35187106894026 |
vegetation wildfire Tree regeneration Carbon combustion |
| Dataset for Examining the Effects of Nutrient Pulses on Biogeochemical Cycling in Subarctic Peatlands in the Context of Permafrost Thaw and Wildfires |
North: 61.30822South: 61.30183East: -121.298318West: -121.301337 |
carbon dioxide methane nitrous oxide bog fen biogeochemical |
| Permafrost thaw in boreal peatlands is rapidly altering forest community composition |
North: 61.310556South: 61.310556East: -121.293333West: -121.293333 |
peat properties vegetation Tree demography Permafrost Climate change |
| Peatland / Tourbiere polygons |
North: 48.021836666744136South: 44.83706289931603East: -63.77335834055858West: -69.0567392724191 |
mapping |
| Contrasting effects of road dust and atmospheric dust on carbon accumulation in ombrotrophic peatlands |
North: 50.24South: 50.24East: -63.31West: -63.31 |
effects of disturbance peat properties dust |
| CIMP 223: Water chemistry of streams and rivers in permafrost peatland catchments of NWT and northern AB |
North: 63.234South: 57.335East: -112.771West: -123.5 |
hydrology DOC Permafrost Water quality |
| Methane fluxes from Peace River peatland seismic lines |
North: 56.39South: 56.20East: -116.79West: -116.93 |
methane effects of disturbance |
| Greenhouse gas fluxes and their climatic controls from permafrost peatlands undergoing succession after permafrost thaw |
North: 59.4845South: 59.4845East: −117.1765West: −117.1765 |
carbon dioxide methane Permafrost thermokarst carbon balance |
| Rate of permafrost thaw and associated plant community dynamics in peatlands of northwestern Canada |
North: 66.16South: 60.00East: -114.39West: -128.68 |
vegetation hydrology peat properties thermokarst Climate change |
| Reciprocal Transplant Experiment Reveals Insights into C Sequestration in Mountain Peatlands with Contrasting Climate Conditions |
North: 51.68158385463311South: 51.061574303427065East: -116.41445898023838West: -114.87125008443363 |
meteorology carbon dioxide hydrology methane transplanted mesocosms fen iron and sulfur supply rates |
| A Peatland Sub-Class Map for the Canadian Boreal Forest |
North: 68.64597131617901South: 41.909East: -52.619West: -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: 52.821667South: 52.821667East: -83.911111West: -83.911111 |
meteorology hydrology effects of disturbance modeling Climate change Mining |
| Replication Data for gas flux measurements of drained peatlands in eastern Quebec |
North: 47.790556South: 47.790556East: -69.517222West: -69.517222 |
carbon dioxide methane effects of disturbance Extraction Drained |
| Permafrost thaw causes large carbon loss in boreal peatlands while changes to peat quality are limited |
North: 61.297572328592054South: 61.297572328592054East: -121.29775031282645West: -121.29775031282645 |
soil carbon peat properties Climate change Permafrost |
| Carbon emissions from extracted peatlands in Alberta, Canada |
North: 53.557South: 53.557East: -114.736West: -114.736 |
carbon dioxide methane |
| Improved estimates of carbon dioxide emissions from drained peatlands support a reduction in emission factor |
North: 83.15South: 41.909East: -52.619West: -141.010 |
carbon dioxide effects of disturbance peat properties Emission factor |
| Patterns of Discontinuous Permafrost Thaw in Peatlands |
North: 61.2976083553501South: 61.2976083553501East: -121.29776090792849West: -121.29776090792849 |
modeling hydrology climate change Permafrost |
| Experimental determination of methane production and consumption potential in unrestored, restored and natural peatlands |
North: 53.473519South: 53.473519East: -114.862036West: -114.862036 |
methane effects of disturbance Methane production rates methane oxidation rates |
| Plant community dynamics and carbon sequestration in Sphagnum-dominated peatlands in the era of global change |
North: 43.96200011200539South: 43.96200011200539East: -80.39966001995782West: -80.39966001995782 |
soil carbon peat properties vegetation hummock-hollow competition nitrogen deposition |
| Assessing environmental attributes and effects of climate change on Sphagnum peatland distributions in North America using single- and multi-species models |
North: 83.15South: 41.909East: -52.619West: -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: 63.001South: 61.893East: -113.469West: -116.537 |
effects of disturbance hydrology Wildfire Water quality Heavy metals |
| 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: 78.80South: 58.5119449072896East: -101.3944968890042West: -136.52976303551856 |
vegetation carbon dioxide methane climate change Permafrost |
The Can-Peat team acknowledges Indigenous stewardship of peatlands since time immemorial. For a full map of traditional territories in Canada, please visit https://native-land.ca/