Date of Award

5-17-2023

Document Type

Thesis

Abstract

With an area of over 19 million acres, the Arctic National Wildlife Refuge is situated in the northeastern region of Alaska and stands as the largest federally protected refuge in the United States. The region supports a variety of wildlife and plants and is culturally significant to the indigenous populations of nearby Iñupiat and Gwich'in villages who rely on the land and wildlife for their way of life. The discovery of oil near this region in 1968, prompted local, state, and federal interest in understanding the oil and gas potential of the region. Oil and gas surveys in the 1980s estimated that a portion of the Arctic Coastal Plain, known as the "1002 Area", could contain more than seven trillion barrels of recoverable oil, making it one of the largest deposits in the world. In 2017, Congress passed the Tax Cuts and Jobs Act which mandated lease sales and the development of an environmental impact statement (EIS) to understand the potential impacts of an oil and gas program within the Arctic National Wildlife Refuge. The purpose of this research is to effectively communicate to resource managers about spatial and temporal changes in aufeis distribution in the Arctic National Wildlife Refuge. Aufeis fields are important features of rivers and streams in the Arctic National Wildlife Refuge that often form downstream from perennial groundwater springs. Over the course of a winter, these fields of ice can grow to be tens of kilometers long, kilometers wide, and up to ten meters thick. Perennial springs and aufeis play a crucial role in maintaining the hydrologic system during winter by contributing liquid water, which not only supports fish habitat but also ensures a consistent water supply during summer, thus enhancing connectivity along aquatic migratory corridors. At locations identified by the US Fish and Wildlife Service as perennial groundwater springs or known fish habitat, a remote sensing analysis of Landsat data was performed. Landsat imagery was analyzed during the melt season (May 14th - August 15th) between 1985 and 2021 to determine seasonal and interannual changes to the overall aufeis extent and the melt rate of aufeis. Based on the available imagery, aufeis between 2010 and 2021 appears to be melting at a significantly faster rate than between 1985 and 2009. An ArcGIS StoryMap was developed to effectively communicate this analysis by allowing users to interact directly with geospatial data. In presenting information in this format, scientific information is effectively communicated to resource managers to help inform their decision making process in a way that is relevant to known problems, is credible by conforming to scientific standards of rigor, and is legitimate by presenting information in an unbiased manner.

Handle

http://hdl.handle.net/11122/13236

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