Update
Now Archived! PolarConnect event with teacher Rebecca Harris and researcher Ellie Broadman live from Kaktovik, Alaska on 24 August 2017. You can access this and other events on the PolarConnect Archives site.
What Are They Doing?
This project seeks to better understand the natural variability of hydrology and sediment transport in Arctic glacial lake systems, and to investigate how this variability might be impacted by climate change in the future. Studies such as this one, which captures natural variability across the Arctic at different temporal scales, are necessary to enhance our comprehension of how climate change has impacted and will continue to impact these systems.
In order to improve our paleoclimate reconstructions of these processes, a crucial step is the development of a system model that describes the hydrology, sediment-flux, and sedimentation in glacial lake systems. A main goal of this project is to establish such a model, and to apply it to three glaciated watersheds that span a gradient from the sub-Arctic to high Arctic. The three lakes included in the study are Eklutna Lake (a sub-arctic lake near Anchorage, Alaska), Lake Peters (in the Arctic National Wildlife Refuge, Alaska), and Lake Linné (Svalbard, in the high Arctic). From 2015-2017, field seasons have focused on Lake Peters, where weather stations, sediment traps, ablation stakes, and various other climate monitoring has continued for a total of three years, and sediment cores have been collected to reconstruct paleoenvironmental changes.
Where Are They?
The G. William Holmes Research Station at Lake Peters (65 km south of the Arctic Ocean in the northeastern Brooks Range), is located in true wilderness. There are no man-made trails, and terrain is rugged and often steep. Brown bears, wolves, and wolverines are among the many types of animals in the area. Team members will be working long hours on a small boat on the lake, as well as hiking up 1000 vertical feet elevation to the nearby Chamberlain Glacier.
Latest Journals
Ellie is a graduate student at Northern Arizona University studying Paleoenvironmental Science in the Environmental Science and Policy program. Originally from Boston, she has happily spent most of her adult life studying earth and environmental science in California and Arizona, though her graduate research now brings her to Alaska to investigate Holocene climate variability. Ellie received her B.A. in Geography from UC Berkeley, where her interests in paleoecology and paleoclimatology were first sparked. Before attending graduate school, she worked as a Physical Science Technician for the Quaternary Paleoenvironmental Research Lab at the USGS in Menlo Park, California.