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National Aeronautics and Space Administration

NASA's Arctic-Boreal Vulnerability Experiment

ABoVE


ABoVE Working Groups


  • ABoVE WG Chairs Telecon Email List: above_wg_telecon@cce.nasa.gov
  • Join a WG: click "join" to send email with your name/affiliation to Web Support.
  • ABoVE Projects - Measurements - WG Members Summary Excel Report
  • Joint ABoVE Working Group Session Series
  • Contact Support to add your WG meeting to the calendar.


    Thematic WGs
    Airborne WGs
    Data Products WGs
    Programmatic WGs
    Synthesis Groups

    Thematic WGs

    Group Name Email List Members Join
    Carbon Dynamics   above_wg_carbon@cce.nasa.gov Members
    The Carbon Dynamics Working Group (CDWG) brings together observationalists, modelers and data scientists to document, study and understand rapid large-scale changes to the carbon cycle in the ABoVE Study Region. CDWG projects span scales from plot-level studies that provide process-level understanding of relevant drivers of carbon cycling to regional-scale measurements from airborne, tall towers, and spaceborne platforms. In addition, the majority of CDWG projects are highly interdisciplinary in nature - CDWG group members work closely with members from other thematic WGs to tackle one of the overarching science questions underpinning the ABoVE campaign - How are the magnitudes, fates, and land-atmosphere exchanges of carbon pools responding to environmental change, and what are the biogeochemical mechanisms driving these changes? >>
    Disturbance   above_wg_disturbance@cce.nasa.gov Members
    The Disturbance Working Group's purpose is to coordinate, collaborate and understand the research planned and ongoing in the ABoVE domain related to wildfire and insect disturbance, the interaction and drivers of these two factors and post-disturbance recovery. This working group strives to synthesize data to understand drivers, regional effects and change and also to identify data and research gaps. >>
    Hydrology, Permafrost & Wetlands   above_wg_hydrology@cce.nasa.gov Members
    The Hydrology & Permafrost component seeks to clarify processes controlling Arctic-boreal permafrost conditions and interactions with the water cycle, including the amount, distribution and status of water in the landscape. We also seek to understand the feedbacks and consequences of a changing permafrost and hydrologic regime on the regional flora, fauna, biogeochemistry and ecosystem services. The Wetlands component's purpose is to coordinate, collaborate, and understand the research happening in the ABoVE domain related to wetland mapping, monitoring, and process modeling. This working group will strive to identify common field and remote sensing methodologies and techniques in order to efficiently pool data and other resources and coordinate product development. Objectives of the working group are to synthesize data to understand regional conditions and change related to wetlands and to identify data and research gaps. >>
    Modeling Framework & Comparisons   above_wg_modeling@cce.nasa.gov Members
    The Modeling Framework & Comparisons Working Group focuses on linking and synthesizing the various modeling activities across ABoVE, with a focus on terrestrial ecosystems. >>
    Modeling Framework & Comparisons Members:
    • Fisher, Joshua -- Chapman University (Chair)
    • Huntzinger, Deborah (Debbie) -- Northern Arizona University (Chair)
    • Armstrong, Amanda -- NASA GSFC / USRA GESTAR
    • Bakian-Dogaheh, Kazem -- University of Southern California
    • Birch, Leah -- Woodwell Climate Research Center
    • Bloom, Alexis (Anthony) -- Jet Propulsion Lab, California Institute of Technology
    • Braghiere, Renato -- Caltech/NASA JPL
    • Briones, Valeria -- Woodwell Climate Research Center
    • Byrne, Brendan -- Jet Propulsion Laboratory
    • Campbell, Elizabeth -- Canadian Forest Service
    • Caraballo-Vega, Jordan -- NASA GSFC
    • Chatterjee, Abhishek -- NASA JPL
    • Chen, Min -- University of Wisconsin-Madison
    • Commane, Róisín -- Columbia University
    • Falkowski, Michael (Mike) -- NASA Headquarters
    • Foster, Adrianna -- National Center for Atmospheric Research
    • Foster, Kelsey -- Stanford University / Carnegie Institution for Science
    • Fox, Andrew (Andy) -- Joint Center for Satellite Data Assimilation
    • Gagné-Landmann, Anna -- Northern Arizona University
    • Gamon, John -- University of Nebraska
    • Genet, Helene -- Institute of Arctic Biology
    • Goetz, Scott -- Northern Arizona University
    • Griffith, Peter -- NASA GSFC
    • Hayes, Daniel -- University of Maine
    • Henderson, John -- N/A
    • Herrick, Christina -- University of New Hampshire
    • Hoy, Elizabeth (Liz) -- NASA GSFC / Global Science and Technology, Inc.
    • Hu, Lei -- NOAA / CIRES
    • Huo, Xueli -- University of Arizona
    • Jafarov, Elchin -- Woodwell Climate Research Center
    • Kalhori, Aram -- San Diego State University
    • Kaushik, Aleya -- NOAA GML/CU CIRES
    • Keeling, Ralph -- UCSD Scripps Institution of Oceanography
    • Keppel-Aleks, Gretchen -- University of Michigan
    • Kimball, John -- University of Montana
    • Larson, Erik -- Harvard
    • Liang, Wanwan -- University of Utah
    • Liu, Yanlan -- The Ohio State University
    • Ma, Shuang -- Jet Propulsion Laboratory / Caltech
    • Maglio, Ben -- University of Alaska Fairbanks
    • Marsh, Philip -- Wilfrid Laurier University, Cold Regions Research Centre
    • Michalak, Anna -- Carnegie Institution for Science
    • Miller, Charles (Chip) -- NASA JPL
    • Moore, David (Dave) -- University of Arizona
    • Morrison, Bailey -- University of California, Merced
    • Munger, J. (Bill) -- Harvard University
    • O'Meara, Luke -- Chapman University
    • Oechel, Walter (Walt) -- San Diego State University
    • Olson, Christine -- National Snow and Ice Data Center
    • Orcutt, Erica -- University of California Davis
    • Parazoo, Nicholas (Nick) -- JPL
    • Poe, Jeralyn -- Northern Arizona University
    • Potter, Christopher -- NASA ARC
    • Poulter, Benjamin (Ben) -- NASA GSFC
    • Price, David -- Canadian Forest Service, Natural Resources Canada
    • Riley, William (Bill) -- Lawrence Berkeley National Laboratory
    • Riris, Haris -- NASA GSFC
    • Rogers, Brendan -- Woodwell Climate Research Center
    • Schaedel, Christina -- Woodwell Climate Research Center
    • Schaefer, Kevin -- National Snow and Ice Data Center
    • Schiferl, Luke -- Lamont-Doherty Earth Observatory
    • Schwalm, Christopher -- Woodwell Climate Research Center
    • Serbin, Shawn -- NASA Goddard Space Flight Center
    • Shi, Mingjie -- PNNL
    • Shugart, Herman (Hank) -- University of Virginia
    • Shuman, Jacquelyn (Jackie) -- NASA Ames Research Center
    • Sun, Wu -- Carnegie Institution for Science
    • Sundquist, Shelby -- Northern Arizona University
    • Sweeney, Colm -- NOAA GML
    • Sypniewski, Jaimlyn -- Two Bears Environmental Consulting
    • Thornton, Peter -- Oak Ridge National Laboratory
    • Townsend, Philip (Phil) -- University of Wisconsin
    • Virkkala, Anna-Maria (Anna) -- Woodwell Climate Research Center
    • Watts, Jennifer -- Woodwell Climate Research Center
    • Wen, Jiaming -- Carnegie Institution for Science
    • Yi, Yonghong -- UCLA
    • Yu, Rong -- University of Nebraska
    • Zhang, Yu -- Canada Centre for Mapping and Earth Observation
    • Zhang, Zhen -- University of Maryland
    Vegetation Dynamics & Structure   above_wg_veg@cce.nasa.gov Members
    The Vegetation Dynamics component focuses on synthesizing information regarding the changes that we have observed and potentially expect to see with regard to vegetation composition, structure, and function throughout the ABoVE geographic domain, as well as circumpolarly. Prominent components of vegetation change are shrub expansion and treeline advancement, however, these are only a part of the potential dynamics. In assessing vegetation dynamics, we examine the effects climate change, disturbances (e.g. fire, thermokarst), and land use. The Vegetation Structure & Function component will discuss, synthesize, and report ABoVE science activities related to the characterization & monitoring of the 3D attributes of shrubs and forest vegetation in the ABoVE study domain. The WG will also summarize ABoVE findings related to the implications of the current state of, and changes to, vegetation structure on ABoVE dynamics. >>

     

    Airborne WGs

    Group Name Email List Members Join
    Airborne Daily    above_airborne_daily@cce.nasa.gov Members
    GMAO Weather    gmao_wx@cce.nasa.gov Members
    Airborne Data   above_wg_airborne_data@cce.nasa.gov Members
    Airborne Science   above_wg_airborne@cce.nasa.gov Members

     

    Data Products WGs

    Group Name Email List Members Join
    Core Variables & Standards     Members
    Digital Elevation Models     Members
    Geospatial Products & Standards     Members
    Planet Imagery Evaluation   above_planet_eval@cce.nasa.gov Members
    Radar Aboveground Woody Biomass     Members
    Radar Active Layer-Deep Soil Moisture     Members
    Radar Wetlands and Surface Soil Moisture     Members
    The Radar Wetlands and Surface Soil Moisture Working Group's purpose is to coordinate field collection of soil moisture and wetland extent and inundation information coincident to Radar airborne and satellite image collections. This includes development of field collection protocols, gathering information on what field data were collected at what locations and when, as well as synthesizing field data.
    Radarsat     Members
    SAR Cal/Val Data Synthesis     Members
    The goal of this working group is to create a digital compilation of field measurements across the ABoVE domain for support of airborne radar data analyses. The membership of this working group is comprised of ABoVE WG leads and researchers interested in contributing to the effort.
    Spectral Imaging   above_wg_spectral@cce.nasa.gov Members
    SIWG focuses on the use of spectral information to describe the characteristics and processes of high latitude ecosystems. We are interested in the use of optical remote sensing across the range of spatial, spectral, and temporal scales, from ground measurements, towers, drones, aircraft, and satellites, particularly those equipped for imaging spectroscopy (IS). We are also interested in the measurement and analysis of solar induced fluorescence (SIF). Slides from June 29, 2020 SIWG Telecon Presentations [pdf]

     

    Programmatic WGs

    Group Name Email List Members Join
    Collaborations and Engagement   above_wg_collab_engage@cce.nasa.gov Members
    The Collaborations and Engagement working group focuses on developing, coordinating, and maintaining science and data user partnerships across sectors and geographical areas. This WG engages with governments, Indigenous Nations, non-governmental organizations, and other institutions within the ABoVE study area. We facilitate connections between these groups and the ABoVE Science Team to collate and share scientific research results, including data products, GIS maps and measurements on topics as diverse as food security, permafrost subsidence, fire and vegetation management and ungulate ranges. The WG supports collaborations between end users and researchers to both increase the usability and use of ABoVE products as well as enhance our understanding of regional terrestrial ecology and coproduction needs. WG activities include advising and assisting the ABoVE Leadership Group and Science Team and with planning and outreach, as well as supporting coordination of activities among individual projects. >>
    Community Science     Members

     

    Synthesis Groups

    Group Name Email List Members Join
    Synthesis Carbon Group   above_synthesis_carbon@cce.nasa.gov Members
    Synthesis Multi-Disturbance Group   above_synthesis_multidist@cce.nasa.gov Members