← LeaderboardsInvestigatorsiAttributed = a PI's even-split share of each grant — a $1M grant with 2 PIs counts $500K each.
Alaska Department Of Natural Resources
$1,150,766
Total funding
2
Grants
Funding over time
peak $1M · FY2017–25$1M$750K$500K$250K$0
'17
'18
'19
'20
'21
'22
'23
'24
'25
Funding mix
By agency
DOE$1,000,000 · 1
NASA$150,766 · 1
By mechanism
—$1,150,766 · 2
Investigators at Alaska Department Of Natural Resources
InvestigatorsiAttributed = a PI's even-split share of each grant — a $1M grant with 2 PIs counts $500K each.
Exposure= the full size of every grant they're on ($1M each).
Rising Stars
First grant in the last 5 yrs
Not enough data
Emerging Leaders
6–10 yrs in
Not enough data
All-Time
Most funded here, all years
Not enough data
Largest grants
STATE OF ALASKA INITIATIVE TO CREATE A STATEWIDE CARBON CAPTURE, UTILIZATION, AND STORAGE (CCUS) DATABASE
THIS PROJECT WILL ESTABLISH A FOUNDATION FOR CARBON CAPTURE AND STORAGE BY ADDRESSING TECHNICAL CHALLENGES, ENVIRONMENTAL FACTORS, AND STAKEHOLDER ENGAGEMENT TO MEET THE NEED FOR DEVELOPMENT OF AN OFFSHORE HUB IN THE COOK INLET REGION OF ALASKA. THE PROJECT WILL ASSIST INDUSTRY AND COMMUNITIES IN EVALUATING THE VIABILITY OF STORAGE SCENARIOS AND IDENTIFYING ENVIRONMENTALLY AND SOCIALLY SENSITIVE AREAS. TO ACCOMPLISH THIS, THE PROJECT WILL GATHER, ANALYZE, AND SHARE DATA TO INFORM DEVELOPMENT OF LARGE-SCALE STORAGE FACILITIES; ENGAGE STATE AND FEDERAL AGENCY DATABASES, RESEARCH, AND PUBLICATIONS TO ASSESS REGIONALLY AVAILABLE DATA; AND DEVELOP A DATA DISTRIBUTION PLAN AND PORTAL FOR THE STATE OF ALASKA TO SHARE INFORMATION, RESEARCH, OUTREACH, AND REGULATION REGARDING CARBON STORAGE.$1,000,000
· FY2025 · Department of Energy
THIS PROPOSAL WILL BUILD ON OUR EXISTING LEGACY OF CITIZEN SCIENTIST ENGAGEMENT IN ALASKA AND EXTEND THIS ENGAGEMENT TO STAKEHOLDERS IN THE PACIFIC NORTHWEST TO STUDY VARIATIONS IN ALPINE SNOWPACKS. DURING THE PAST SEVERAL YEARS WE HAVE BUILT A HIGHLY COLLABORATIVE NETWORK OF SCIENTISTS SPANNING MULTIPLE GOVERNMENT ACADEMIC AND INDUSTRY PARTNERS. THIS WORK HAS ENABLED US TO ACQUIRE NEW INFORMATION ON THE DISTRIBUTION OF SNOW ACROSS REMOTE ALPINE REGIONS OF ALASKA. TO DATE WE HAVE INVOLVED CITIZEN SCIENTISTS INCLUDING AVALANCHE SPECIALISTS AND LOCAL RECREATIONISTS IN AN INFORMAL WAY ON A NUMBER OF SMALL-SCALE PROJECTS. HERE WE PROPOSE TO BUILD A CITIZEN-SCIENTIST INFRASTRUCTURE SUPPORTED BY SMARTPHONE AND CLOUD-BASED TECHNOLOGIES AND COORDINATED BY EXPERT SNOW SCIENTISTS. OUR PROJECT SCIENTISTS WILL TRAIN THIS COMMUNITY TO GENERATE OBSERVATIONS OF SNOW DEPTH AND GRAIN SIZE. THIS WORK WILL PROVIDE INFORMATION ON SNOW PROPERTIES IN ALPINE REGIONS THAT OUR EXISTING REMOTE OBSERVATIONS HAVE BEEN UNABLE TO CAPTURE AND WILL HELP VALIDATE REMOTESENSING PRODUCTS AND IMPROVE THE QUALITY OF OUR RUNOFF MODELS. WE WILL LINK OBSERVATIONS AND MODEL OUTPUT TO A WIDE RANGE OF NASA REMOTE OBSERVATIONS. OUR INTEGRATIVE APPROACH LINKING FIELD-BASED AND REMOTE OBSERVATIONS WITH MODEL SIMULATIONS PROVIDES THE BEST METHOD TO ADVANCE UNDERSTANDING OF SNOW ACROSS REMOTE REGIONS OF ALASKA AND THE PACIFIC NORTHWEST. OUR WORK IS MOTIVATED BY THE FACT THAT SNOW IS LINKED TO A WIDE RANGE OF HYDROLOGICAL PROCESSES NATURAL HAZARDS AND ECOSYSTEM SERVICES. SNOW IS A UNIQUE FORM OF PRECIPITATION BECAUSE IT FACILITATES THE STORAGE OF WATER ON THE LANDSCAPE FOR RELEASE AT A LATER TIME BOTH IN SEASONAL SNOWPACKS AND WITHIN GLACIER SYSTEMS PROVIDING A SOURCE OF RUNOFF DURING PERIODS WITHOUT PRECIPITATION. CHANGES TO THESE WATER DELIVERY SYSTEMS ALTER CHEMICAL AND PHYSICAL STREAM PROPERTIES WITH IMPACTS ON AQUATIC HABITAT. IN ADDITION EXTREME EVENTS CAN LEAD TO FLOODING CREATING POTENTIALLY SERIOUS SOCIO-ECONOMIC CONSEQUENCES. WATER MANAGEMENT DECISIONS AIMED AT MITIGATING THESE HAZARDS REQUIRES ACCURATE PREDICTIVE MODELS OF THE TIMING AND MAGNITUDE OF SNOWMELT RUNOFF. DESPITE THE IMPORTANCE OF SNOW ON THE LANDSCAPE NUMEROUS CHALLENGES HAVE LIMITED OUR ABILITY TO MEASURE AND MODEL SNOW PROCESSES. SNOW IS A HIGHLY COMPLEX SUBSTANCE THAT METAMORPHOSES RAPIDLY IN TIME AND CAN VARY OVER SHORT SPATIAL SCALES AS IT INTERACTS WITH THE LANDSCAPE AND IS REDISTRIBUTED BY WIND. A CENTRAL CHALLENGE IS MATCHING MODEL RESOLUTION AND COMPLEXITY TO THE AVAILABILITY OF OBSERVATIONS NEEDED FOR ACCURATE MODEL CALIBRATION. SUCH OBSERVATIONS ARE USUALLY LOCATED AT LOW-ELEVATION WEATHER STATIONS AND DO NOT ACCURATELY SAMPLE HIGH-ALPINE AREAS WHERE SNOWPACKS ARE DEEPEST. TO OVERCOME THESE CHALLENGES NASA HAS INVESTED CONSIDERABLE RESOURCES TO MEASURE SNOW PROPERTIES FROM AIRBORNE AND SPACEBORNE PLATFORMS INCLUDING MEASUREMENTS OF SNOW DEPTH (ALTIMETRY) SNOW WATER EQUIVALENCE (ACTIVE AND PASSIVE RADAR) AND SNOW MASS BALANCE (GRAVIMETRY). EACH OF THESE APPROACHES HAS PROVIDED SOME INSIGHT INTO SNOWPACK EVOLUTION BUT NO SINGLE APPROACH PROVIDES THE DETAILED INFORMATION THAT BY THE MODELING COMMUNITY NEEDS. THE ACTIVITIES OF SNOW RECREATIONISTS IN HIGH-ALPINE REGIONS PRESENTS A UNIQUE OPPORTUNITY FOR US TO COLLECT SNOWPACK INFORMATION AND TO ENGAGE THE PUBLIC IN NASA S EARTH-SCIENCE MISSION. CITIZEN SCIENTISTS WILL COLLECT SNOW-DEPTH DATA USING SNOW PROBES AND WILL TAKE PHOTOGRAPHS OF SNOW CRYSTALS USING THEIR SMARTPHONES. THE PARTICIPANTS WILL ENTER THEIR DATA INTO A CITIZEN-SCIENCE TOOL IMBEDDED IN MOUNTAINHUB A SMARTPHONE APPLICATION DEVELOPED BY OUR PARTNERS AVATECH. WE WILL LEVERAGE OUR EXISTING DATABASE AND WEB SERVICES DEPLOYED IN THE CLOUD TO VISUALIZE THE OBSERVATIONS PROVIDING RAPID FEEDBACK TO THE CITIZEN-SCIENTIST COMMUNITY. DATA WILL BE INGESTED INTO OUR EXISTING HYDROLOGICAL SIMULATION MODELS AND INTEGRATED WITH NASA REMOTE-SENSING DATASETS.$150,766
· FY2017 · National Aeronautics and Space Administration