Whiting 2013 Ice-Marginal and Proglacial Fluvial Characteristics of A High-Arctic Glacier, Linnébreen, Svalbard

Abstract: Linnébreen, a 2 km2 high-arctic primarily cold-based polythermal glacier in a valley of Carboniferous sedimentary rocks and Proterozoic phyllite and schist in southwest Spitsbergen, has retreated approximately 208 m since 2004, and 1.5 km from its Little Ice Age maximum (LIAM) at around 19...

Full description

Bibliographic Details
Format: Dataset
Language:unknown
Published: Arctic Data Center 2013
Subjects:
EARTH SCIENCE > TERRESTRIAL HYDROSPHERE > GLACIERS/ICE SHEETS > GLACIERS
EARTH SCIENCE > CRYOSPHERE > GLACIERS/ICE SHEETS > GLACIERS
EARTH SCIENCE > LAND SURFACE > EROSION/SEDIMENTATION > DEGRADATION
EARTH SCIENCE > CRYOSPHERE > FROZEN GROUND > PERIGLACIAL PROCESSES
EARTH REMOTE SENSING INSTRUMENTS > PASSIVE REMOTE SENSING > POSITIONING/NAVIGATION > GPS > GPS > GLOBAL POSITIONING SYSTEM
IN SITU/LABORATORY INSTRUMENTS > PROBES > STEEL MEASURING TAPE
MANNED FIELD STATION
Arctic
Dammed Lake
Linnébreen
Linnéelva
Linnévatnet
Svalbard
glacier
Spitsbergen
Online Access:https://search.dataone.org/view/urn:uuid:d0d960d2-38cb-4fcc-8b04-d43297b3efb9
id dataone:urn:uuid:d0d960d2-38cb-4fcc-8b04-d43297b3efb9
record_format openpolar
institution Open Polar
collection Arctic Data Center (via DataONE)
op_collection_id dataone:urn:node:ARCTIC
language unknown
topic EARTH SCIENCE > TERRESTRIAL HYDROSPHERE > GLACIERS/ICE SHEETS > GLACIERS
EARTH SCIENCE > CRYOSPHERE > GLACIERS/ICE SHEETS > GLACIERS
EARTH SCIENCE > LAND SURFACE > EROSION/SEDIMENTATION > DEGRADATION
EARTH SCIENCE > CRYOSPHERE > FROZEN GROUND > PERIGLACIAL PROCESSES
EARTH REMOTE SENSING INSTRUMENTS > PASSIVE REMOTE SENSING > POSITIONING/NAVIGATION > GPS > GPS > GLOBAL POSITIONING SYSTEM
IN SITU/LABORATORY INSTRUMENTS > PROBES > STEEL MEASURING TAPE
MANNED FIELD STATION
spellingShingle EARTH SCIENCE > TERRESTRIAL HYDROSPHERE > GLACIERS/ICE SHEETS > GLACIERS
EARTH SCIENCE > CRYOSPHERE > GLACIERS/ICE SHEETS > GLACIERS
EARTH SCIENCE > LAND SURFACE > EROSION/SEDIMENTATION > DEGRADATION
EARTH SCIENCE > CRYOSPHERE > FROZEN GROUND > PERIGLACIAL PROCESSES
EARTH REMOTE SENSING INSTRUMENTS > PASSIVE REMOTE SENSING > POSITIONING/NAVIGATION > GPS > GPS > GLOBAL POSITIONING SYSTEM
IN SITU/LABORATORY INSTRUMENTS > PROBES > STEEL MEASURING TAPE
MANNED FIELD STATION
Whiting 2013 Ice-Marginal and Proglacial Fluvial Characteristics of A High-Arctic Glacier, Linnébreen, Svalbard
topic_facet EARTH SCIENCE > TERRESTRIAL HYDROSPHERE > GLACIERS/ICE SHEETS > GLACIERS
EARTH SCIENCE > CRYOSPHERE > GLACIERS/ICE SHEETS > GLACIERS
EARTH SCIENCE > LAND SURFACE > EROSION/SEDIMENTATION > DEGRADATION
EARTH SCIENCE > CRYOSPHERE > FROZEN GROUND > PERIGLACIAL PROCESSES
EARTH REMOTE SENSING INSTRUMENTS > PASSIVE REMOTE SENSING > POSITIONING/NAVIGATION > GPS > GPS > GLOBAL POSITIONING SYSTEM
IN SITU/LABORATORY INSTRUMENTS > PROBES > STEEL MEASURING TAPE
MANNED FIELD STATION
description Abstract: Linnébreen, a 2 km2 high-arctic primarily cold-based polythermal glacier in a valley of Carboniferous sedimentary rocks and Proterozoic phyllite and schist in southwest Spitsbergen, has retreated approximately 208 m since 2004, and 1.5 km from its Little Ice Age maximum (LIAM) at around 1936. Drift is continuously being reworked by meltwater as the area between the glacier and the LIAM moraine is both a sediment sink and source. Suspended sediment concentration (SSC) and particle size distribution analyses (PSD) help us to understand the current state of the ice-marginal and proglacial area. Samples were collected during the late 2012 melt season from 18 locations along supraglacial and two ice-marginal meltwater channels. These icemarginal channels converge 150 m downvalley of the glacial terminus forming the proglacial meltwater-dominated stream, Linnéelva. SSC and discharge of Linnéelva were measured from July 24 to August 8 at two proglacial locations, 0.23 and 1.22 km downvalley of the glacial terminus. Data from the ice-marginal and proglacial study locations provide clues about where meltwater is transporting sediment from the glacier or reworking ice-marginal deposits, and a broad idea of how Linnéelva is reworking sediments in the proglacial area upvalley of the LIAM moraine. Linnébreen, like many other small polythermal and cold-based glaciers in Spitsbergen, does not have moulins or many crevasses that permit meltwater flow to the glacier base; therefore, supraglacial, ice-marginal, and sub-marginal channels play a significant role in the fluvial transport of drift. Sampling of these channels took place in the late melt season when diurnal solar radiation cycles dictated discharge. On August 4 discharge of the east and west ice-marginal channels totaled 0.3 m3/s, SSC of 16 supraglacial and ice-marginal sample sites ranged from 0.01 to 0.23 g/L and averaged vii 0.12 g/L, and particle size at the same sample sites ranged from 1.01 to 22.09 μm and averaged 8.73 μm (silt). The relationships between SSC, PSD, and channel characteristics reveal ice-marginal channels to be complicated sources and sinks for glaciofluvial sediment. In many places there is a direct correlation between change in slope, SSC, and PSD. Also, samples from a supraglacial channel suggested meltwater dilution based on a decrease in SSC but no significant change in PSD. SSC and PSD suggest that the eastern ice-marginal channel was acting as a sediment sink during the late melt season. At the two proglacial sampling locations on Linnéelva discharge from July 24 to August 8 averaged 0.77 m3/s with the upper site SSC averaging 0.135 g/L, and the lower site SSC averaging 0.212 g/L. From late July to early August approximately 6.6 x 104 kg more sediment in suspension passed through the lower site than the upper site, suggesting Linnéelva is significantly eroding its banks in-between the two sample sites. However, data from the 2010 field season indicates net deposition in this same area. This shift from deposition to erosion can most likely be explained by Linnéelva downcutting through the LIAM moraine-dammed lake deposits before flowing past the lower sampling site. As Linnébreen retreats ice-marginal channels develop in areas of newly exposed basal drift, however the bulk of those sediments are most likely eroded during the high discharge events earlier in the melt season, such as the spring freshet. Data from the late melt season suggest that the bulk of material transported in suspension via the icemarginal channels originates from supraglacial and englacial debris higher on the glacial surface. These larger particles sizes are then deposited in meltwater channels downvalley as the slope and water velocity decrease. Further downvalley the SSC data from July 24 to August 8 reveal a significant amount of erosion, possibly from downcutting into lacustrine deposits. The spatial and temporal inconsistencies of stream behavior between the ice-marginal and proglacial regions within the LIAM moraine, and between the 2012 and 2010 field seasons represent difficulties in correlating environmental variation with the proglacial sediment record along Linnéelva and the glaciolacustrine record downvalley in Linnévatnet.
format Dataset
title Whiting 2013 Ice-Marginal and Proglacial Fluvial Characteristics of A High-Arctic Glacier, Linnébreen, Svalbard
title_short Whiting 2013 Ice-Marginal and Proglacial Fluvial Characteristics of A High-Arctic Glacier, Linnébreen, Svalbard
title_full Whiting 2013 Ice-Marginal and Proglacial Fluvial Characteristics of A High-Arctic Glacier, Linnébreen, Svalbard
title_fullStr Whiting 2013 Ice-Marginal and Proglacial Fluvial Characteristics of A High-Arctic Glacier, Linnébreen, Svalbard
title_full_unstemmed Whiting 2013 Ice-Marginal and Proglacial Fluvial Characteristics of A High-Arctic Glacier, Linnébreen, Svalbard
title_sort whiting 2013 ice-marginal and proglacial fluvial characteristics of a high-arctic glacier, linnébreen, svalbard
publisher Arctic Data Center
publishDate 2013
url https://search.dataone.org/view/urn:uuid:d0d960d2-38cb-4fcc-8b04-d43297b3efb9
op_coverage ENVELOPE(13.86,13.988,77.98,77.949)
long_lat ENVELOPE(-68.258,-68.258,68.496,68.496)
ENVELOPE(13.933,13.933,77.967,77.967)
ENVELOPE(13.751,13.751,78.077,78.077)
ENVELOPE(13.824,13.824,78.042,78.042)
ENVELOPE(13.86,13.988,77.98,77.949)
geographic Arctic
Dammed Lake
Linnébreen
Linnéelva
Linnévatnet
Svalbard
geographic_facet Arctic
Dammed Lake
Linnébreen
Linnéelva
Linnévatnet
Svalbard
genre Arctic
glacier
Svalbard
Spitsbergen
genre_facet Arctic
glacier
Svalbard
Spitsbergen
_version_ 1800869935453306880
spelling dataone:urn:uuid:d0d960d2-38cb-4fcc-8b04-d43297b3efb9 2024-06-03T18:46:42+00:00 Whiting 2013 Ice-Marginal and Proglacial Fluvial Characteristics of A High-Arctic Glacier, Linnébreen, Svalbard ENVELOPE(13.86,13.988,77.98,77.949) 2013-11-11T11:12:34Z https://search.dataone.org/view/urn:uuid:d0d960d2-38cb-4fcc-8b04-d43297b3efb9 unknown Arctic Data Center EARTH SCIENCE > TERRESTRIAL HYDROSPHERE > GLACIERS/ICE SHEETS > GLACIERS EARTH SCIENCE > CRYOSPHERE > GLACIERS/ICE SHEETS > GLACIERS EARTH SCIENCE > LAND SURFACE > EROSION/SEDIMENTATION > DEGRADATION EARTH SCIENCE > CRYOSPHERE > FROZEN GROUND > PERIGLACIAL PROCESSES EARTH REMOTE SENSING INSTRUMENTS > PASSIVE REMOTE SENSING > POSITIONING/NAVIGATION > GPS > GPS > GLOBAL POSITIONING SYSTEM IN SITU/LABORATORY INSTRUMENTS > PROBES > STEEL MEASURING TAPE MANNED FIELD STATION Dataset 2013 dataone:urn:node:ARCTIC 2024-06-03T18:06:29Z Abstract: Linnébreen, a 2 km2 high-arctic primarily cold-based polythermal glacier in a valley of Carboniferous sedimentary rocks and Proterozoic phyllite and schist in southwest Spitsbergen, has retreated approximately 208 m since 2004, and 1.5 km from its Little Ice Age maximum (LIAM) at around 1936. Drift is continuously being reworked by meltwater as the area between the glacier and the LIAM moraine is both a sediment sink and source. Suspended sediment concentration (SSC) and particle size distribution analyses (PSD) help us to understand the current state of the ice-marginal and proglacial area. Samples were collected during the late 2012 melt season from 18 locations along supraglacial and two ice-marginal meltwater channels. These icemarginal channels converge 150 m downvalley of the glacial terminus forming the proglacial meltwater-dominated stream, Linnéelva. SSC and discharge of Linnéelva were measured from July 24 to August 8 at two proglacial locations, 0.23 and 1.22 km downvalley of the glacial terminus. Data from the ice-marginal and proglacial study locations provide clues about where meltwater is transporting sediment from the glacier or reworking ice-marginal deposits, and a broad idea of how Linnéelva is reworking sediments in the proglacial area upvalley of the LIAM moraine. Linnébreen, like many other small polythermal and cold-based glaciers in Spitsbergen, does not have moulins or many crevasses that permit meltwater flow to the glacier base; therefore, supraglacial, ice-marginal, and sub-marginal channels play a significant role in the fluvial transport of drift. Sampling of these channels took place in the late melt season when diurnal solar radiation cycles dictated discharge. On August 4 discharge of the east and west ice-marginal channels totaled 0.3 m3/s, SSC of 16 supraglacial and ice-marginal sample sites ranged from 0.01 to 0.23 g/L and averaged vii 0.12 g/L, and particle size at the same sample sites ranged from 1.01 to 22.09 μm and averaged 8.73 μm (silt). The relationships between SSC, PSD, and channel characteristics reveal ice-marginal channels to be complicated sources and sinks for glaciofluvial sediment. In many places there is a direct correlation between change in slope, SSC, and PSD. Also, samples from a supraglacial channel suggested meltwater dilution based on a decrease in SSC but no significant change in PSD. SSC and PSD suggest that the eastern ice-marginal channel was acting as a sediment sink during the late melt season. At the two proglacial sampling locations on Linnéelva discharge from July 24 to August 8 averaged 0.77 m3/s with the upper site SSC averaging 0.135 g/L, and the lower site SSC averaging 0.212 g/L. From late July to early August approximately 6.6 x 104 kg more sediment in suspension passed through the lower site than the upper site, suggesting Linnéelva is significantly eroding its banks in-between the two sample sites. However, data from the 2010 field season indicates net deposition in this same area. This shift from deposition to erosion can most likely be explained by Linnéelva downcutting through the LIAM moraine-dammed lake deposits before flowing past the lower sampling site. As Linnébreen retreats ice-marginal channels develop in areas of newly exposed basal drift, however the bulk of those sediments are most likely eroded during the high discharge events earlier in the melt season, such as the spring freshet. Data from the late melt season suggest that the bulk of material transported in suspension via the icemarginal channels originates from supraglacial and englacial debris higher on the glacial surface. These larger particles sizes are then deposited in meltwater channels downvalley as the slope and water velocity decrease. Further downvalley the SSC data from July 24 to August 8 reveal a significant amount of erosion, possibly from downcutting into lacustrine deposits. The spatial and temporal inconsistencies of stream behavior between the ice-marginal and proglacial regions within the LIAM moraine, and between the 2012 and 2010 field seasons represent difficulties in correlating environmental variation with the proglacial sediment record along Linnéelva and the glaciolacustrine record downvalley in Linnévatnet. Dataset Arctic glacier Svalbard Spitsbergen Arctic Data Center (via DataONE) Arctic Dammed Lake ENVELOPE(-68.258,-68.258,68.496,68.496) Linnébreen ENVELOPE(13.933,13.933,77.967,77.967) Linnéelva ENVELOPE(13.751,13.751,78.077,78.077) Linnévatnet ENVELOPE(13.824,13.824,78.042,78.042) Svalbard ENVELOPE(13.86,13.988,77.98,77.949)

Similar Items