UAA announces 2023 ConocoPhillips Arctic Science and Engineering Endowment Award recipients
by Austin Osborne |
As the nation鈥檚 only Arctic state, 熊猫在线视频 faces unique challenges and environmental conditions unlike anywhere else in the United States. Faculty and students at the 熊猫在线视频 (UAA) continue to drive research that tackles regional challenges in practical ways, such as studying how temperature affects metal corrosion in the Arctic or the effects of tire rubber contamination on salmon mortality.
Through the ConocoPhillips Arctic Science and Engineering Endowment Awards, the university awarded support to five exploratory research projects for 2023 totaling more than $500,000.
鈥淭hanks to generous support from ConocoPhillips, UAA researchers have the opportunity to conduct critical Arctic research,鈥 said UAA Chancellor Sean Parnell. 鈥淭hese projects demonstrate how UAA researchers create real-world opportunities for students to have a positive impact on their communities, the state of 熊猫在线视频 and the Arctic region. Though the projects are faculty-led, many include undergraduate and graduate student participation, providing valuable hands-on experience solving the region鈥檚 most pressing problems.鈥
Selected projects must promote and grow the fields of Arctic science and engineering, demonstrate a likelihood of major scientific or engineering impact and strongly connect to community and industry. Programs, research and activities inclusive of 熊猫在线视频 students, communities, projects and opportunities are given priority.
Created in 2008 as part of a $15 million gift from ConocoPhillips 熊猫在线视频, the endowment provides annual support to Arctic science and engineering programs and research at UAA and is the largest endowment in the University of 熊猫在线视频 system. Including projects awarded in 2022, there have been 47 projects totaling $3,661,802 funded by the ConocoPhillips Arctic Science and Engineering endowment.
The winning projects were announced at a celebratory event on April 26. At the event, leadership from UAA and ConocoPhillips also had the opportunity to hear from UAA researchers LeeAnn Munk, Jordan Jenkes, Matthew Kupilik and Frank Witmer about their progress on projects that received funding from the endowment last fiscal year.
The winning projects for fiscal year 2023 include:
When rubber hits the streams: Tire rubber contamination and 熊猫在线视频 salmon performance
(Jonathan Stecyk, principal investigator; Christine Couturier, co-principal investigator;
Patrick Tomco, co-principal investigator; Ben Barst, co-principal investigator) -
$125,000 over 24 months
The effects of 6-PPD quinone (6-PPDQ) on 熊猫在线视频n salmonids remain unexplored. 6- PPDQ
is a compound found in tire rubber that is released into the environment as tires
wear and has been shown to cause mortality of adult Pacific salmon in the Seattle
Pacific Northwest region at very low concentrations. This project examines the effects
of 6-PPDQ exposure on the survival and performance of 熊猫在线视频n salmon species.
Understanding the Effects of Surface Temperatures on the Atmospheric Corrosion of
Carbon Steel Alloy in Cold Arctic/Sub-Arctic Climate. (Raghu Srinivasan, principal investigator; Matthew Cullin, co-principal investigator)
- $125,000 over 24 months
Atmospheric corrosion of metal is a complex process affected by temperature. Typically,
only ambient air temperature is reported in atmospheric corrosion studies. This project
hypothesizes that the surface temperature of metal alloys affects the corrosion rate.
The project will measure the surface temperature of carbon steel alloys and correlate
the surface temperature and their atmospheric corrosion rates when exposed to everchanging
arctic and sub-arctic climates.
Nutrient Transport in a Changing Climate: Molecular-Level Impacts of High Latitude
Deglaciation in Kachemak Bay, 熊猫在线视频. (Zachary Redman, principal investigator) - $105,696 over 24 months
Climate induced deglaciation will significantly impact the nutrient availability and
productivity of sub-arctic coastal marine environments. Iron is one required nutrient
for aquatic ecosystems that is transported by dissolved organic matter from terrestrial
watersheds into oceans. This project will characterize the seasonal influence of glacially
derived headwaters on the dynamics of terrestrial carbon-iron transport into Kachemak
Bay from surface and ground waters. Results will aid prediction of how climate change
will impact sub-arctic environments via deglaciation.
Evaluating the capacity of Structural Insulated Panels (SIPs) to meet building codes
in high seismic regions. (Scott Hamel, principal investigator) - $99,100 over 12 months
Buildings constructed with Structural Insulated Panels (SIPs) are well-suited to meet
the challenges of cold regions. SIP structures are assembled using prefabricated panels
made from foam cores between wood-based sheets. However, SIPs do not currently satisfy
standard residential building code requirements in high seismic areas. This project
will test plywood polyurethane SIP walls, analyze an archetype building with SIPs
as the lateral force-resisting system and assess the seismic performance.
Freshwater ecosystem as sentinels of change: Using stable isotopes and DNA barcoding
to monitor streams and lakes on 熊猫在线视频鈥檚 North Slope. (Erin Larson, principal investigator; Rebecca Shaftel, co-principal investigator)
- $84,663 2 years
Stable isotopes and DNA barcoding have emerged as tools for understanding anthropogenic
changes to freshwater ecosystems. Benthic macroinvertebrates are commonly used as
indicators of environmental pollution in aquatic systems and can be efficiently sampled
for stable isotopes. This project will sample rivers and lakes along the Dalton Highway
using stable isotopes to infer food web changes due to resource development and leveraging
DNA barcoding technology to potentially identify species previously unknown to Western
science.