Detecting and Modeling Landfast Ice in the Alaskan Bering Sea

Seasonal sea ice ice which freezes in late fall and melts completely the following summer is a central feature in the ecology, geomorphology, and climatology of the Bering Sea. In this region's coastal zones, sea ice becomes locked into a stationary position against the coastlines to become lan...

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Bibliographic Details
Main Author: Jensen, David Aaron
Other Authors: Geography, Resler, Lynn M., Mahoney, Andrew R., Campbell, James B. Jr., Shao, Yang
Format: Doctoral or Postdoctoral Thesis
Language:unknown
Published: Virginia Tech 2020
Subjects:
Sea ice
landfast
remote sensing
Arctic
Bering Sea
Kuskokwim
Seward Peninsula
St Lawrence Island
Alaska
Yukon
Online Access:http://hdl.handle.net/10919/106947
Description
Summary:Seasonal sea ice ice which freezes in late fall and melts completely the following summer is a central feature in the ecology, geomorphology, and climatology of the Bering Sea. In this region's coastal zones, sea ice becomes locked into a stationary position against the coastlines to become landfast ice, which influences bioegophysical processes in the region, as well as exchanges of energy and matter among land, ocean, and atmosphere. It provides a platform for human mobility and subsistence activities, habitat for certain marine mammals, regulates terregenous nutrient cycling into ocean environments, and modulates the effect of erosive wind/wave action against coastlines. However, a thorough understanding of how this stationary ice, known as landfast ice, affects biogeophysical processes in the Bering Sea is limited by a lack of data on its areal coverage and seasonal duration. This dissertation establishes a baseline set of observations of landfast ice conditions in the Bering Sea through the creation and analysis of continuous spatial datasets. Chapter 1 focuses on the landfast ice annual cycle in the Eastern Bering Sea, which spans from the western tip of the Seward Peninsula to the southernmost point on the Yukon-Kuskokwim River Deltas. Chapter 1 results in the creation of landfast ice spatial data in these areas ranging from 1996 2008. Results show the spatial distribution and seasonal duration of landfast ice vary regionally within our study area, does not generally reach water depths associated with stabilization of the landfast ice cover in other regions of the Arctic, and is shortening in seasonal duration by approximately 9 days. Chapter 2 focuses on the landfast ice annual cycle on St. Lawrence Island, an Alaska Island located in the northern Bering Sea. Chapter 2 results in the creation of landfast ice spatial data in these areas ranging from 1996 2019. Results show the spatial distribution of landfast ice to vary regionally on the island, based on the coastlines orientation towards prevailing ...

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