Sediment transport and deposition in a temperate glacial fjord, Glacier Bay, Alaska.

Sorry, the full text of this article is not available in Huskie Commons. Please click on the alternative location to access it. 453 p. A subglacial meltwater stream at the tidewater terminus of McBride Glacier, Glacier Bay, southeast Alaska, discharges large volumes of sediment to the base of the fj...

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Main Author: Cowan, Ellen Anne.
Other Authors: Ross Powell.
Language:unknown
Published: Northern Illinois University. 1988
Subjects:
Geology
Glacier Bay
glacier
Tidewater
Alaska
Online Access:http://commons.lib.niu.edu/handle/10843/9479
http://hdl.handle.net/10843/9479
id ftnorthillinuni:oai:commons.lib.niu.edu:10843/9479
record_format openpolar
spelling ftnorthillinuni:oai:commons.lib.niu.edu:10843/9479 2023-05-15T16:20:34+02:00 Sediment transport and deposition in a temperate glacial fjord, Glacier Bay, Alaska. Cowan, Ellen Anne. Ross Powell. 1988. http://commons.lib.niu.edu/handle/10843/9479 http://hdl.handle.net/10843/9479 unknown Northern Illinois University. Dissertation Abstracts International, Volume: 50-03, Section: B, page: 0881. http://commons.lib.niu.edu/handle/10843/9479 http://hdl.handle.net/10843/9479 Geology 1988 ftnorthillinuni 2020-09-22T08:44:44Z Sorry, the full text of this article is not available in Huskie Commons. Please click on the alternative location to access it. 453 p. A subglacial meltwater stream at the tidewater terminus of McBride Glacier, Glacier Bay, southeast Alaska, discharges large volumes of sediment to the base of the fjord water column. During four consecutive meltwater seasons (1984-1987), water samples, CTD profiles, sediment traps and echosound profiles were collected within 2-km-long McBride Inlet to quantify ice-proximal suspended sediment transport, deposition and oceanic controls on fjord circulation.Less dense, sediment-laden water rises buoyantly from the submarine efflux to produce an upwelling near the glacier with surface sediment concentrations up to 1.4 g L$\sp{-1}$. Mixing within the plume increases salinity up to 12$\perthous$ and produces widely dispersed, homogeneous sediment concentrations and flocculated particles. A thick, brackish surface layer is advected downfjord as hypopycnal flow, with highest suspended sediment concentrations (approximately 800 mg L$\sp{-1}$) transported 4 to 6 m beneath the surface.The highest vertical suspended sediment flux is initiated at slack low tide because of tidal control on current velocity of the surface layer. Sand and coarse silt settle as single grains; finer particles settle more slowly as high concentration, turbid layers. Turbid layers are observed to settle at an average rate of 5 m h$\sp{-1}$ in transmissivity and water sample profiles. Cyclically interlaminated sand or silt with mud is deposited on the fjord floor by this process. These deposits are termed cyclopsams (sandy, thinly bedded to thickly laminated) and cyclopels (muddy, thinly laminated). Sediment traps confirm that these couplets are deposited at a rate of two or three per day and are controlled by tidal and discharge dynamics.Sediment accumulation rates are as high as 20 m a$\sp{-1}$ at the terminus. Sedimentation rates decrease exponentially from the terminus: from 24 g cm$\sp{-2}$ day$\sp{-1}$ to less than 1 g cm$\sp{-2}$ day$\sp{-1}$ over a horizontal transport distance of 1.2 km.Major lithofacies from these meltwater discharges are cyclopsams and cyclopels, bergstone mud (marine outwash and ice-rafted sediment), and homogeneous mud in this temperate, ice-proximal glacimarine setting. Other/Unknown Material glacier Tidewater Alaska Northern Illinois University (NIU): Huskie Commons Repository Glacier Bay
institution Open Polar
collection Northern Illinois University (NIU): Huskie Commons Repository
op_collection_id ftnorthillinuni
language unknown
topic Geology
spellingShingle Geology
Cowan, Ellen Anne.
Sediment transport and deposition in a temperate glacial fjord, Glacier Bay, Alaska.
topic_facet Geology
description Sorry, the full text of this article is not available in Huskie Commons. Please click on the alternative location to access it. 453 p. A subglacial meltwater stream at the tidewater terminus of McBride Glacier, Glacier Bay, southeast Alaska, discharges large volumes of sediment to the base of the fjord water column. During four consecutive meltwater seasons (1984-1987), water samples, CTD profiles, sediment traps and echosound profiles were collected within 2-km-long McBride Inlet to quantify ice-proximal suspended sediment transport, deposition and oceanic controls on fjord circulation.Less dense, sediment-laden water rises buoyantly from the submarine efflux to produce an upwelling near the glacier with surface sediment concentrations up to 1.4 g L$\sp{-1}$. Mixing within the plume increases salinity up to 12$\perthous$ and produces widely dispersed, homogeneous sediment concentrations and flocculated particles. A thick, brackish surface layer is advected downfjord as hypopycnal flow, with highest suspended sediment concentrations (approximately 800 mg L$\sp{-1}$) transported 4 to 6 m beneath the surface.The highest vertical suspended sediment flux is initiated at slack low tide because of tidal control on current velocity of the surface layer. Sand and coarse silt settle as single grains; finer particles settle more slowly as high concentration, turbid layers. Turbid layers are observed to settle at an average rate of 5 m h$\sp{-1}$ in transmissivity and water sample profiles. Cyclically interlaminated sand or silt with mud is deposited on the fjord floor by this process. These deposits are termed cyclopsams (sandy, thinly bedded to thickly laminated) and cyclopels (muddy, thinly laminated). Sediment traps confirm that these couplets are deposited at a rate of two or three per day and are controlled by tidal and discharge dynamics.Sediment accumulation rates are as high as 20 m a$\sp{-1}$ at the terminus. Sedimentation rates decrease exponentially from the terminus: from 24 g cm$\sp{-2}$ day$\sp{-1}$ to less than 1 g cm$\sp{-2}$ day$\sp{-1}$ over a horizontal transport distance of 1.2 km.Major lithofacies from these meltwater discharges are cyclopsams and cyclopels, bergstone mud (marine outwash and ice-rafted sediment), and homogeneous mud in this temperate, ice-proximal glacimarine setting.
author2 Ross Powell.
author Cowan, Ellen Anne.
author_facet Cowan, Ellen Anne.
author_sort Cowan, Ellen Anne.
title Sediment transport and deposition in a temperate glacial fjord, Glacier Bay, Alaska.
title_short Sediment transport and deposition in a temperate glacial fjord, Glacier Bay, Alaska.
title_full Sediment transport and deposition in a temperate glacial fjord, Glacier Bay, Alaska.
title_fullStr Sediment transport and deposition in a temperate glacial fjord, Glacier Bay, Alaska.
title_full_unstemmed Sediment transport and deposition in a temperate glacial fjord, Glacier Bay, Alaska.
title_sort sediment transport and deposition in a temperate glacial fjord, glacier bay, alaska.
publisher Northern Illinois University.
publishDate 1988
url http://commons.lib.niu.edu/handle/10843/9479
http://hdl.handle.net/10843/9479
geographic Glacier Bay
geographic_facet Glacier Bay
genre glacier
Tidewater
Alaska
genre_facet glacier
Tidewater
Alaska
op_relation Dissertation Abstracts International, Volume: 50-03, Section: B, page: 0881.
http://commons.lib.niu.edu/handle/10843/9479
http://hdl.handle.net/10843/9479
_version_ 1766008492822364160

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