Project |
Title | Funding Agencies | Other NASA Supported Program(s) |
---|
AAC Management |
ABoVE Airborne Campaign Management & Data Products >> | NASA | TE |
Abshire (2017) |
Extending the 2017 ASCENDS Airborne Campaign into the Arctic in support of ABoVE >> | NASA | TE |
Anderson (NSF 2018) |
Bridging the scale gap between local and regional methane and carbon dioxide isotopic fluxes in the Arctic >> | NSF | |
Armstrong (TE 2018) |
Vulnerability of the Taiga-Tundra Ecotone: Predicting the Magnitude, Variability, and Rate of Change at the Intersection of Arctic and Boreal Ecosystems >> | NASA | TE |
Bartsch (2016) |
GlobPermafrost >> | ESA | |
Bartsch (ESA 2018) |
CCI Permafrost >> | ESA | |
Baskaran (LCLUC 2021) |
Analyzing the Land-Use Change Impacts of Oil and Gas Exploration Related
Infrastructure Changes on Arctic Communities >> | NASA | LCLUC |
Berner (NIP 2020) |
Mapping plant biomass distribution and change across the rapidly warming Arctic tundra biome >> | NASA | TE |
Bloom (TE 2021) |
Using CO2, CH4 and land-surface constraints to resolve sign and magnitude of northern high latitude carbon-climate feedbacks
>> | NASA | TE |
Boelman (TE 2014) |
Animals on the move: Remotely based determination of key drivers influencing movements and habitat selection of highly mobile fauna throughout the ABoVE study domain >> | NASA | TE |
Boelman (TE 2018) |
Quantifying socioecological consequences of changing snow and icescapes: A data-model fusion approach >> | NASA | TE |
Boelman (TE 2021) |
The future of the Forest-Tundra Ecotone: A synthesis that adds interactions among snow, vegetation, and wildlife to the equation >> | NASA | TE |
Bourgeau-Chavez (RRNES 2015) |
Planning and Collection of Data on Boreal Wildfire Effects: Studies of broad-scale 2014 Wildfires in NWT, Canada >> | NASA | TE, NACP |
Bourgeau-Chavez (SMAP 2015) |
Assessing and Downscaling SMAP data for Organic Soil Fuel Moisture Estimation in Boreal-Arctic Ecosystems >> | NASA | |
Bourgeau-Chavez (TE 2014) |
Understanding the Vulnerability and Resiliency of Boreal-Taiga Ecosystems to Wildfire in a Changing Climate: A study of the 2014 Northwest Territories Wildfires >> | NASA | TE, NACP |
Bourgeau-Chavez (TE 2018) |
Understanding the Interactions between Wildfire Disturbance, Landscape Hydrology and Post-Fire Recovery in Boreal-Taiga Ecosystems >> | NASA | TE, NACP |
Bourgeau-Chavez (TE 2021) |
Integrating remote sensing and modeling to better understand the vulnerability of boreal-taiga ecosystems to wildfire >> | NASA | TE |
Brinkman (TE 2014) |
Biophysical Characteristics and Mechanisms of Environmental Disturbances Influencing Human Access to Ecosystem Services in Boreal Alaska >> | NASA | TE |
Buermann (GRF 2022) |
Recent Changes in NOrthern VEgetation CaRbon CYcling - RECOVERY >> | Other | |
Butman (TE 2018) |
Crossing the divide: Inundation drives hotspots of carbon flux >> | NASA | TE, NACP |
Butman (TE 2021) |
Do changing terrestrial-aquatic interfaces in Arctic-boreal landscapes control the form, processing, and fluxes of carbon? >> | NASA | TE |
Byrne (NPP 2018) |
Constraining carbon fluxes in northern regions by combining constraints from multiple atmospheric CO2 observing systems >> | NASA | TE |
Carroll (TE 2012) |
Determining the Extent and Dynamics of Surface Water for the ABoVE Field Campaign >> | NASA | TE, NACP |
Chatterjee (TE 2016) |
GEOS-5 Forecasting and Modeling in Support of ABoVE airborne research >> | NASA | TE, NACP |
Chen (TE 2018) |
Quantifying socioeconomic impacts of changing Arctic ecosystems using ABoVE datasets in an integrated Human-Earth system modeling and data assimilation framework >> | NASA | TE |
Chen-W (2016) |
Monitoring and Assessing Cumulative Impacts on Western Canadian Arctic Ecosystems >> | NRCan, NWT CIMP, POLAR | |
Chopping (TE 2014) |
Changes in Shrub Abundance in Arctic Tundra from the Satellite High Resolution Record for the Arctic-Boreal Vulnerability Experiment and Impacts on Albedo >> | NASA | TE, NACP |
Cook (CMS 2015) |
Remote Sensing as a Bridge to Operational Forest Carbon Monitoring in Interior Alaska >> | NASA | TE, CMS |
Cook (CMS 2018) |
NASA-USFS Partnership to Advance Operational Forest Carbon Monitoring in Interior Alaska >> | NASA | TE, CMS |
Cook (TE 2014) |
Fingerprinting Three Decades of Changes in Interior Alaska (1982-2014) Using Field Measurements, Stereo Air Photos, and G-LiHT Data >> | NASA | TE, NACP |
Cooley (NIP 2020) |
Leveraging New Satellite Technologies to Constrain Feedbacks between Surface Water, Permafrost and Carbon Emissions in the Arctic >> | NASA | TE |
D'Arrigo (2016) |
Determining the Vulnerability and Resilience of Boreal Forests and Shrubs across Northwestern North America >> | NSF | |
Douglas (2016) |
Variations in Wetland Terrain Feature Conditions: The Role of Permafrost and Impacts to Military Operations >> | USACE | |
Drewry (TE 2016) |
Airborne Solar Induced Chlorophyll Fluorescence to Characterize Arctic Boreal Zone Phenology and Productivity >> | NASA | TE |
Du (TE 2021) |
High Resolution Mapping of Surface Soil Freeze Thaw Status and Active Layer Thickness for Improving the Understanding of Permafrost Dynamics and Vulnerability >> | NASA | TE |
Duncanson (TE 2018) |
Mapping boreal forest biomass density for the ABoVE domain circa 2020 with ICESat-2 >> | NASA | TE |
Duncanson (TE 2021) |
Mapping boreal forest biomass recovery rates across gradients of vegetation structure and environmental change >> | NASA | TE |
Eitel (TE 2014) |
LiDAR, passive spectral, and ecophysiological approaches to link Forest Tundra Ecotone structure and function >> | NASA | TE, NACP |
Epstein (GEO 2016) |
Ecosystem Functional Diversity of the Circumpolar Arctic Tundra >> | NASA | TE, ECON, BDEC, APPLIED |
Fichot (CARBON 2020) |
The export of terrigenous DOC from boreal terrestrial ecosystems to the Arctic Ocean and its vulnerability to environmental change >> | NASA | OBB, NACP |
Fisher (TE 2014) |
A Model-Data Integration Framework (MoDIF) for ABoVE Phase I research: simulation, scaling and benchmarking for key indicators of Arctic-boreal ecosystem dynamics >> | NASA | TE, NACP |
Frankenberg (TE 2018) |
Ecophysiological and physical mechanisms linking solar-induced fluorescence and vegetation reflectance to boreal forest productivity >> | NASA | TE |
French (TE 2018) |
Wetland status, change, and seasonal inundation dynamics for assessing the vulnerability of waterfowl habitat within the ABoVE study domain >> | NASA | TE |
French (TE 2021) |
Informing wetland policy and management for waterfowl habitat and other ecosystem services using multi-frequency synthetic aperture radar >> | NASA | TE |
Frost (TE 2014) |
Biophysical drivers and socio-ecological impacts of environmental change in the Yukon-Kuskokwim Delta region, western Alaska >> | NASA | TE |
Frost (TE 2021) |
Towards a Warmer, Less Frozen Future Arctic: Synthesis of Drivers, Ecosystem Responses, and Elder Observations along Bioclimatic Gradients in Western Alaska >> | NASA | TE |
Gamon (TE 2014) |
Evaluating growing season length and productivity across the ABoVE Domain using novel satellite indices and a ground sensor network >> | NASA | TE, NACP |
Genet (2016) |
Modeling landscape vulnerability to thermokarst disturbance and its implication for ecosystem services in the Yukon Flats National Wildlife Refuge, Alaska >> | USGS | |
Goetz (TE 2014) |
Mapping and modeling attributes of an arctic-boreal biome shift: Resource management implications within the ABoVE domain >> | NASA | TE, NACP |
Goetz (TE 2018) |
Mapping and modeling attributes of an arctic-boreal biome shift: Phase-2 applications within the ABoVE domain >> | NASA | TE, NACP |
Goetz (TE 2021) |
Mapping and modeling attributes of an Arctic - boreal biome shift: Phase-3 applications within the ABoVE domain >> | NASA | TE |
Goulden (TE 2014) |
Shifting Patterns of Boreal Forest Succession and Browning Over the Last 30 Years >> | NASA | TE |
Greaves (NESSF 2015) |
Multisensor Fusion for Mapping of Low-Stature Arctic Vegetation Communities and Woody Biomass >> | NASA | TE, BDEC |
Hajnsek (DLR 2018) |
Permafrost Airborne SAR Experiment - PERMASAR >> | DLR | |
Hebblewhite (2017) |
Fortymile caribou herd habitat relationships >> | BLM | |
Hensley (TE 2018) |
Analysis and Interpretation of UAVSAR Tomographic Data in the Arctic Boreal Region >> | NASA | TE |
Hik (2015) |
CHARS Experimental and Reference Area (ERA) >> | POLAR | |
Hu (TE 2018) |
Toward disentangling causes for the substantial increase of CO2 seasonal amplitude in the Arctic >> | NASA | TE |
Huemmrich (TE 2016) |
Causes and Consequences of Arctic Greening: The Importance of Plant Functional Types >> | NASA | TE |
Huemmrich (TE 2018) |
Clarifying linkages between canopy solar induced fluorescence (SIF) and physiological function for high latitude vegetation >> | NASA | TE |
Iversen (2012) |
Next-Generation Ecosystem Experiments (NGEE Arctic) >> | DOE | NACP |
Iwahana (TE 2016) |
Quantification of thermokarst and carbon release in ice-rich permafrost regions >> | NASA | TE |
James (NSF 2017) |
Monitoring the role of subsurface physical processes in carbon flux from a degraded permafrost site using novel multidisciplinary observations >> | NSF | |
Keeling (CARBON 2016) |
Detection, Quantification, and Analysis of Changes in Boreal and Arctic Ecosystems Using Measurements and Models of CO2 and Its Isotopes >> | NASA | TE |
Kim (SMAP 2015) |
Dynamic inundation mapping for boreal regions using SMAP, UAVSAR, and Radarsat2 >> | NASA | |
Kimball (TE 2014) |
Satellite data driven model assessment of landscape variability and environmental controls on the Arctic-Boreal carbon budget >> | NASA | TE, NACP |
Kimball (TE 2018) |
Improving Understanding and Prediction of Permafrost Active Layer Processes Using a Coupled Radar Inversion and Soil Process Model Framework. >> | NASA | TE |
Kremers (NESSF 2015) |
Is Arctic Greening Consistent with the Temperature Sensitivity of Coupled Carbon and Nitrogen Cycles? >> | NASA | TE |
Lara (TE 2021) |
ABoVE-Ground Characterization of Plant Species Succession in Retrogressive Thaw Slumps Using Imaging Spectroscopy
>> | NASA | TE |
Liu (TE 2021) |
Characterizing Arctic-Boreal Vegetation Resilience under Climate Change and Disturbances
>> | NASA | TE |
Loboda (TE 2012) |
Long-Term Multi-Sensor Record of Fire Disturbances in High Northern Latitudes >> | NASA | TE, NACP |
Loboda (TE 2014) |
Quantifying long-term impacts of single and repeated wildfire burning in North American tundra on organic soil carbon stocks and ecosystem functioning >> | NASA | TE, NACP |
Loboda (TE 2018) |
Assessing impact of climate-driven increase in wildfire emissions on air quality and health of urban and indigenous populations in Alaska >> | NASA | TE |
Ludwig (FINESST 2019) |
Hierarchical scaling of carbon fluxes from terrestrial-aquatic interfaces in the Arctic >> | NASA | TE, NACP |
Lutz (TE 2018) |
Dynamic Modeling of Ecosystem Processes and Services in North American Boreal Forests within the ABOVE Study Region >> | NASA | TE |
Mack (TE 2014) |
Increasing fire severity and the loss of legacy carbon from forest and tundra ecosystems of northwestern North America >> | NASA | TE, NACP |
Maguire (FINESST 2019) |
Toward an improved understanding of the mechanisms driving solar induced chlorophyll fluorescence across the structurally complex forest-tundra ecotone >> | NASA | TE |
Maguire (NPP 2020) |
Seasonal response of carbon uptake to direct and diffuse light regimes across the evergreen needleleaf forest biome >> | NASA | TE |
Marsh (2016) |
Hydrology, snow. permafrost and terrestrial ecology in the western Canadian Arctic >> | NSERC, POLAR,
| |
McDermott (EXO 2020) |
Environmental Distribution and Evolutionary History of Non-Methanogen Methane Synthesis >> | NASA | TE |
McKain (TE 2016) |
Arctic Carbon Atmospheric Profiles (ArcticCAP) >> | NASA | TE |
Meredith (NSF 2020) |
Advancing OCS as an independent atmospheric tracer for global photosynthesis through quantification of microbial-mediated sources and sinks in soils >> | NSF | |
Meyer (TE 2014) |
Characterizing methane emission response to the past 60 years of permafrost thaw in thermokarst lakes >> | NASA | TE, NACP |
Michalak (TE 2021) |
Quantifying climate sensitivities of photosynthesis and respiration in Arctic and boreal ecosystems from top-down observational constraints >> | NASA | TE, NACP |
Miller (CARBON 2013) |
CARVE (Carbon in Arctic Reservoirs Vulnerability Experiment) Airborne Observations of Carbon Dynamics in the Vulnerable Arctic-Boreal Ecosystems of Northwestern Canada - CARVE-CAN >> | NASA | TE, NACP |
Miller (IDS 2012) |
Permafrost Vulnerability in a Seasonally Sea Ice-free Arctic >> | NASA | NACP |
Miller (TE 2014) |
Quantifying CO2 and CH4 Fluxes from Vulnerable Arctic-Boreal Ecosystems Across Spatial and Temporal Scales >> | NASA | TE, NACP |
Miller (TE 2016) |
Imaging Arctic Methane Plumes >> | NASA | TE |
Miller (TE 2018) |
Characterizing Microtopographic Hot-spots and Landscape-scale Methane Emissions Across the ABoVE Domain >> | NASA | TE |
Miller (TE 2021) |
Enhanced Methane Emissions in Transitional Permafrost Environments: An ABoVE Phase 3 Synthesis Investigation >> | NASA | TE |
Miller-S (TE 2021) |
A synthesis and reconciliation of greenhouse gas flux estimates across the ABoVE domain >> | NASA | TE |
Moghaddam (IDS 2012) |
Regional Mapping of Soil Conditions in Northern Alaska Permafrost Landscapes Using AirMOSS and Land Model Data Assimilation, and Associated Impacts on Terrestrial Carbon Fluxes >> | NASA | NACP |
Moore (TE 2018) |
Improving mechanistic representation of Arctic carbon dynamics using data assimilation >> | NASA | TE, NACP |
Morin (2015) |
High resolution commercial satellite imagery for ABoVE >> | NASA | TE, NACP |
Morton (CMS 2013) |
A Joint USFS-NASA Pilot Project to Estimate Forest Carbon Stocks in Interior Alaska by Integrating Field, Airborne and Satellite Data >> | NASA | TE, NACP, CMS |
Moses (OBB 2020) |
Remote Sensing of Environmental Change in Arctic Coastal Aquatic Ecosystems >> | NASA | OBB |
Munger (CARBON 2016) |
Multi-scale data assimilation and model comparison for ABoVE to identify processes controlling CO2 and CH4 exchange and influencing seasonal transitions in Arctic tundra ecosystems >> | NASA | TE, NACP |
Munger (TE 2012) |
Development of a Data-Assimilation Framework for Integrating 25 Years of Surface and Airborne observations to assess patterns of net CO2 Exchange from Arctic Ecosystems >> | NASA | TE, NACP |
Myers-Smith (2017) |
ShrubTundra: Climate as a driver of shrub expansion and tundra greening / TundraTime: Plant phenology change as a driver of Arctic greening trends >> | NERC | |
Myers-Smith (2024) |
Global Change Ecology of Northern Ecosystems >> | NSERC | |
Natali (GBMF 2019) |
The Arctic Carbon Monitoring and Prediction System >> | Other, Gordon and Betty Moore Foundation | |
Natali (TE 2014) |
Winter respiration in the Arctic: Constraining current and future estimates of CO2 emissions during the non-growing season (Augmented Jul 2019) >> | NASA | TE, NACP |
Neigh (AIST 2016) |
Automated Protocols for Generating Very High-Resolution Commercial Validation Products with NASA HEC Resources >> | NASA | BDEC |
Neigh (CARBON 2016) |
Disturbance, Growth, and Recovery of Boreal Forests Spanning the Satellite Era: 3D Structure, Site Index, and Ecosystem Carbon Flux with Changing Climate >> | NASA | TE, NACP |
Nicolsky (2016) |
Augmentation of the USArray sites with temperature profilers >> | NASA | TE |
Oechel (TE 2014) |
Temporal and Spatial Patterns of and Controls on Arctic CO2 and CH4 fluxes in the ABoVE Domain >> | NASA | TE |
Olefeldt (2015) |
Impacts of climate change on greenhouse gas emissions from lakes and wetlands on the Boreal and Taiga Plains of western Canada >> | CAIP, NSERC, UANRA | |
Parazoo (IDS 2016) |
Chlorophyll Fluorescence and Soil Moisture Observations to Characterize Terrestrial Vegetation Photosynthesis and Biosphere Carbon Uptake in North America >> | NASA | TE |
Prugh (IDS 2019) |
Linking seasonal snow processes to wildlife population dynamics >> | NASA | TE |
Prugh (TE 2014) |
Assessing Alpine Ecosystem Vulnerability to Environmental Change Using Dall Sheep as an Iconic Indicator Species >> | NASA | TE |
Quinton (2017) |
Dehcho Collaborative on Permafrost (DCoP) >> | Canadian Funding, NSERC | |
Ranson (CARBON 2013) |
A High-Resolution Circumpolar Delineation of the Forest-Tundra Ecotone With Implications for Carbon Balance >> | NASA | TE, NACP, LCLUC |
Rawlins (RSWQ 2017) |
Merging Satellite Data and Models to Investigate Soil Freeze-Thaw Dynamics Influencing Terrestrial Water and Carbon Exports from the Western Arctic >> | NASA | TE, NACP |
Rocha (2016) |
NSF-LTREB: Following the reorganization and resynchronization of biogeochemical cycles after an unprecedented tundra fire >> | NSF | |
Rogers (2022) |
Permafrost Pathways: Connecting Science, People, and Policy for Arctic Justice and Global Climate >> | The Audacious Project | |
Rogers (CARBON 2016) |
Understanding the Causes and Implications of Enhanced Seasonal CO2 Exchange in Boreal and Arctic Ecosystems >> | NASA | TE, NACP |
Rogers (TE 2014) |
Developing a spatially-explicit understanding of fire-climate forcings and their management implications across the ABoVE domain >> | NASA | TE, NACP |
Schaaf (LCLUC 2017) |
Circumpolar Albedo of Northern Lands from Landsat-8 and Sentinel-2 >> | NASA | LCLUC |
Schaefer (CMAC 2014) |
PBS project: A Permafrost Benchmark System to evaluate permafrost models >> | NASA | |
Schaefer (RRNES 2015) |
YKD project--Yukon-Kuskokwim Delta: The Impact of Fire on Active Layer Thickness >> | NASA | TE |
Schaefer (TE 2012) |
Remotely-Sensed Active Layer Thickness (ReSALT) Product Derived from InSAR Data Over North American Arctic Regions >> | NASA | TE, NACP |
Schaefer (TE 2016) |
The Airborne InSAR and PolSAR Permafrost Dynamics Observatory >> | NASA | TE |
Serbin (FINESST 2021) |
Integrating Field Observations and Multi-scale Remote Sensing to Understand the Environmental and Biological Controls of Tall Shrub Distribution in Arctic Tundra >> | NASA | TE |
Siqueira (NSDT 2015) |
NISAR Ecosystems and Permafrost Science in the ABoVE Domain >> | NASA | |
Smith (TE 2016) |
Sensitivity of Arctic-Boreal surface water to permafrost state >> | NASA | TE |
Striegl (TE 2014) |
Vulnerability of inland waters and the aquatic carbon cycle to changing permafrost and climate across boreal northwestern North America >> | NASA | TE, NACP |
Sun (2020) |
Comparing ABoVE/ASCENDS airborne lidar measurements of XCO2 to those from atmospheric models & satellites >> | NASA | TE |
Tabatabaeenejad (TE 2016) |
Estimation of Belowground Biomass and Permafrost Active Layer Properties Using Radar and Lidar Measurements >> | NASA | TE |
Tank (2017) |
Arctic Fire >> | POLAR | |
Tape (TE 2021) |
Characterizing a widespread disturbance regime in the ABoVE domain: Beaver engineering >> | NASA | TE |
Touzi (2016) |
Investigation of the added value of L- and P-band PolinSAR for permafrost characterization and mapping >> | NRCan | |
Townsend (TE 2018) |
Variation in Foliar Functional Traits across Environmental Gradients in ABoVE Landscapes >> | NASA | TE |
Townsend (TE 2021) |
Functional diversity as a driver of GPP variation across the ABoVE domain >> | NASA | TE |
Turner-K (2007) |
Evaluating the influence of climate and land cover changes on water and carbon balance in Old Crow Flats, Yukon, Canada >> | NSERC | |
Varner (IDS 2016) |
From Archaea to the Atmosphere: Integrating Microbial, Isotopic and Landscape-Scale Observations to Quantify Methane Emissions from Global High-Latitude Ecosystems >> | NASA | |
Veraverbeke (2018) |
Fires Pushing Trees North >> | NWO | |
Veraverbeke (ERC 2021) |
Fire in the land of ice: climatic drivers and feedback (FireIce) >> | ERC | |
Vierling (TE 2011) |
Quantifying Thresholds in Arctic Tundra Vegetation Structure and Ecosystem Function Using LiDAR and Multispectral Remote Sensing >> | NASA | TE, NACP |
Vuyovich (THP 2020) |
SnowEx >> | NASA | |
Walker (TE 2012) |
Recovery and Archiving of Key Arctic Alaska Vegetation Map and Plot Data for Long-Term Vegetation Analyses >> | NASA | TE, NACP |
Walker (TE 2021) |
Drivers and Impacts of Reburning in boreal forest Ecosystems (DIRE) >> | NASA | TE |
Wang (TE 2021) |
Quantifying disturbance and global change impacts on multi-decadal trends in aboveground biomass and land cover across Arctic-boreal North America >> | NASA | TE |
Ward Jones (NIP 2020) |
Degrading Ice-wedges: Using Field, Airborne and Satellite Measurements to Link Fine-scale Micro-topographic Changes to Large-scale Impacts in Terrestrial Permafrost Systems >> | NASA | TE |
Watts (2018) |
Integrating Remote Sensing and Field Measurements to Identify Environmental Nonstationarity on Interior Alaska DoD Training Lands >> | SERDP | |
Watts (CSDA 2020) |
Developing high spatiotemporal resolution inundation maps to detect rapid changes in surface hydrology and methane hotspots across ecosystem gradients in Alaska >> | NASA | TE |
Watts (NIP 2017) |
Reconciling Carbon Flux Budgets in Alaska and northwest Canada through Integrated Satellite, Airborne, and Field Measurements >> | NASA | TE |
Watts (NSF 2020) |
Environmental and biological controls on carbon uptake phenology in permafrost affected boreal forests >> | NSF | |
Watts (TE 2021) |
Contributions of tundra and boreal systems to radiative forcing in North America and Russia under contemporary and future conditions >> | NASA | TE |
Webb (FINESST 2019) |
Vegetation dynamics as drivers of albedo change in northern high latitude ecosystems >> | NASA | TE |
Welker (2017) |
Nutritional Landscapes of Arctic Caribou: Observations, Experiments and Models Provide Process-Level Understanding of Forage Traits and Trajectories >> | NSF | |
Wheater (2013) |
Changing Cold Regions Network (CCRN) >> | NSERC | |
Wilcock (NSF 2020) |
Development of an Integrated Climate Resiliency Index - ICRI >> | NSF | |
Wilson (IDS 2012) (Ended) |
Characterizing Thawing Permafrost Carbon Emissions: An Integrated Pilot Study in Support of Satellite Evaluation/Design and Earth System Modeling Capabilities >> | NASA | NACP |
Woodcock (TE 2014) |
Landscape-Scale Histories and Active Monitoring of Disturbance, Seasonality and Greenness Trends for ABOVE from Landsat >> | NASA | TE |
Wu-Y (FINESST 2019) |
Monitoring Soil Water and Organic Carbon Storage Patterns at the Arctic
Foothills, Alaska, using InSAR >> | NASA | TE |
Wunch (2016) |
Atmospheric Total Column Measurements of Carbon Dioxide and Methane over the ABoVE Domain >> | U of Toronto | |
Yaacoub (NSERC 2019) |
Assessing spruce bark beetle impacts on boreal forests in southwest Yukon at various scales via a multisensor approach >> | NSERC | |
Zhuang (TE 2021) |
Role of linked hydrological, permafrost, ground ice, and land cover changes in regional carbon balance across boreal and arctic landscapes
>> | NASA | TE |
Zolkos (NSF 2020) |
Short- and long-term effects of wildfire and permafrost thaw on mercury cycling and bioavailability across a major northern river delta landscape >> | NSF | |