Monitoring Winter Flow Conditions on the Ivishak River, Alaska

The Sagavanirktok River, a braided river on the Alaska North Slope, flows adjacent to the trans-Alaska pipeline for approximately 100 miles south of Prudhoe Bay. During an unprecedented flooding event in mid-May 2015, the pipeline was exposed in an area located approximately 20 miles south of Prudho...

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Bibliographic Details
Main Authors: Toniolo, Horacio, Vas, D., Keech, J., Bailey, J.
Format: Report
Language:English
Published: Center for Environmentally Sustainable Transportation in Cold Climates 2017
Subjects:
Alaska
river flow
Alaska North Slope
north slope
Prudhoe Bay
Online Access:http://hdl.handle.net/11122/9593
id ftunivalaska:oai:scholarworks.alaska.edu:11122/9593
record_format openpolar
spelling ftunivalaska:oai:scholarworks.alaska.edu:11122/9593 2023-05-15T13:09:08+02:00 Monitoring Winter Flow Conditions on the Ivishak River, Alaska Toniolo, Horacio Vas, D. Keech, J. Bailey, J. 2017-09 http://hdl.handle.net/11122/9593 en_US eng Center for Environmentally Sustainable Transportation in Cold Climates http://hdl.handle.net/11122/9593 Alaska river flow Technical Report 2017 ftunivalaska 2023-02-23T21:37:19Z The Sagavanirktok River, a braided river on the Alaska North Slope, flows adjacent to the trans-Alaska pipeline for approximately 100 miles south of Prudhoe Bay. During an unprecedented flooding event in mid-May 2015, the pipeline was exposed in an area located approximately 20 miles south of Prudhoe Bay. The Ivishak River is a main tributary of the Sagavanirktok River, but little is known about its water flow characteristics and contribution to the Sagavanirktok River, especially in winter and during spring breakup. To gather this information, we installed water level sensors on two main tributaries of the Ivishak River (Upper Ivishak and Saviukviayak rivers), early in winter season 2016–2017, in open-water channels that showed promise as locations for long-term gauging stations. Our ultimate goal was to find a location for permanent deployment of water level sensors. By February, the first sites chosen were ice covered, so two additional sensors, one on each river, were deployed in different locations. Some of the sensors were lost (i.e., carried away by the current or buried under a thick layer of sediments). Water level data gathered from the sensors showed a maximum change of 1.07 m. Winter discharge measurements indicate a 44% reduction between February and April 2017. A summer discharge measurement shows a 430% increase from winter to summer. Report Alaska North Slope north slope Prudhoe Bay Alaska University of Alaska: ScholarWorks@UA
institution Open Polar
collection University of Alaska: ScholarWorks@UA
op_collection_id ftunivalaska
language English
topic Alaska
river flow
spellingShingle Alaska
river flow
Toniolo, Horacio
Vas, D.
Keech, J.
Bailey, J.
Monitoring Winter Flow Conditions on the Ivishak River, Alaska
topic_facet Alaska
river flow
description The Sagavanirktok River, a braided river on the Alaska North Slope, flows adjacent to the trans-Alaska pipeline for approximately 100 miles south of Prudhoe Bay. During an unprecedented flooding event in mid-May 2015, the pipeline was exposed in an area located approximately 20 miles south of Prudhoe Bay. The Ivishak River is a main tributary of the Sagavanirktok River, but little is known about its water flow characteristics and contribution to the Sagavanirktok River, especially in winter and during spring breakup. To gather this information, we installed water level sensors on two main tributaries of the Ivishak River (Upper Ivishak and Saviukviayak rivers), early in winter season 2016–2017, in open-water channels that showed promise as locations for long-term gauging stations. Our ultimate goal was to find a location for permanent deployment of water level sensors. By February, the first sites chosen were ice covered, so two additional sensors, one on each river, were deployed in different locations. Some of the sensors were lost (i.e., carried away by the current or buried under a thick layer of sediments). Water level data gathered from the sensors showed a maximum change of 1.07 m. Winter discharge measurements indicate a 44% reduction between February and April 2017. A summer discharge measurement shows a 430% increase from winter to summer.
format Report
author Toniolo, Horacio
Vas, D.
Keech, J.
Bailey, J.
author_facet Toniolo, Horacio
Vas, D.
Keech, J.
Bailey, J.
author_sort Toniolo, Horacio
title Monitoring Winter Flow Conditions on the Ivishak River, Alaska
title_short Monitoring Winter Flow Conditions on the Ivishak River, Alaska
title_full Monitoring Winter Flow Conditions on the Ivishak River, Alaska
title_fullStr Monitoring Winter Flow Conditions on the Ivishak River, Alaska
title_full_unstemmed Monitoring Winter Flow Conditions on the Ivishak River, Alaska
title_sort monitoring winter flow conditions on the ivishak river, alaska
publisher Center for Environmentally Sustainable Transportation in Cold Climates
publishDate 2017
url http://hdl.handle.net/11122/9593
genre Alaska North Slope
north slope
Prudhoe Bay
Alaska
genre_facet Alaska North Slope
north slope
Prudhoe Bay
Alaska
op_relation http://hdl.handle.net/11122/9593
_version_ 1766164093954162688

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