scholarly journals Melt water input from the Bering Glacier watershed into the Gulf of Alaska

2014 ◽  
Vol 41 (3) ◽  
pp. 886-890
Author(s):  
Edward G. Josberger ◽  
Robert A. Shuchman ◽  
Liza K. Jenkins ◽  
K. Arthur Endsley
Keyword(s):  
Gulf Of Alaska ◽  
Bering Glacier ◽  
Melt Water

Dendrochronology and Late Holocene History of Bering Piedmont Glacier, Alaska

1999 ◽  
Vol 52 (2) ◽  
pp. 185-195 ◽  
Author(s):  
Gregory C. Wiles ◽  
Austin Post ◽  
Ernest H. Muller ◽  
Bruce F. Molnia
Keyword(s):  
Gulf Of Alaska ◽  
17Th Century ◽  
Glacial Retreat ◽  
General Sequence ◽  
Radiocarbon Dates ◽  
The Past ◽  
Tree Ring Data ◽  
Bering Glacier ◽  
Forested Areas ◽  
History Of

Fluctuations of the piedmont lobe of Bering Glacier and its sublobe Steller Glacier over the past two millennia are reconstructed using 34 radiocarbon dates and tree-ring data from 16 sites across the glaciers' forelands. The general sequence of glacial activity is consistent with well-dated fluctuations of tidewater and land-terminating glaciers elsewhere along the Gulf of Alaska. Extensive forested areas along 25 km of the Bering ice margin were inundated by glacio-lacustrine and glacio-fluvial sediments during a probable ice advance shortly before 500 cal yr A.D. Regrowth of forests followed the retreating ice as early as the 7th century A.D., with frequent interruptions of tree growth due to outwash aggradation. Forests overrun by ice and buried in outwash indicate readvance about 1080 cal yr A.D. Retreat followed, with ice-free conditions maintained along the distal portions of the forefield until the early 17th century after which the ice advanced to within a few kilometers of its outer Neoglacial moraine. Ice reached this position after the mid-17th century and prior to 200 yr ago. Since the early 20th century, glacial retreat has been punctuated by periodic surges. The record from forests overrun by the nonsurging Steller Lobe shows that this western ice margin was advancing by 1250 A.D., reaching near its outer moraine after 1420 cal yr A.D. Since the late 19th century, the lobe has dominantly retreated.

FORAMINIFERAL AND SEDIMENTOLOGIC CHARACTERIZATION OF SEISMIC FACIES SEAWARD OF THE BERING GLACIER, GULF OF ALASKA

2016 ◽  
Author(s):  
Sarah D. Zellers ◽  
◽  
Aleksandr Montelli ◽  
Ellen A. Cowan ◽  
Alan C. Mix ◽  
...  
Keyword(s):  
Gulf Of Alaska ◽  
Seismic Facies ◽  
Bering Glacier

Late Pleistocene marine resources from the Bering Glacier Foreland and human coastal migration in the northern Gulf of Alaska region

2019 ◽  
pp. 1-17 ◽  
Author(s):  
David R. Yesner ◽  
Anne D. Pasch ◽  
Kristine J. Crossen
Keyword(s):  
Late Pleistocene ◽  
Marine Invertebrates ◽  
Gulf Of Alaska ◽  
Human Migration ◽  
Archaeological Sites ◽  
Marine Resources ◽  
Southeast Alaska ◽  
Pack Ice ◽  
Bering Glacier ◽  
Ice Conditions

AbstractRecent research on the Bering Glacier forelands in the northern Gulf of Alaska provides new insights into late Pleistocene/early Holocene shorelines, providing a favorable route for human migration as early as ~16,000 cal yr BP. This route included an irregular coastline with embayments and islands offering protection from the open ocean; edible marine invertebrates dating from 15,000 to 5,500 cal yr BP; and marine vertebrates dating as early as 16,000 cal yr BP. The latter included walrus (Odobenus rosmarus), bearded seal (Erignathus barbatus), and ringed seal (Phoca cf. hispida), all associated with pack ice conditions unlike those present today. While this ecosystem could have supported humans migrating along the coastline, and coastal refugia may have existed elsewhere in the region, coastal archaeological sites in the northern Gulf of Alaska and southwest Alaska are no older than ~9,500 cal yr BP. This suggests that the earliest sites have been eroded or destroyed, that the earliest migrants ignored available marine resources, and/or that these migrants did not use a coastal route. In contrast, the earliest archaeological sites in southeast Alaska date to ~12,500 cal yr BP, suggesting migration from interior Alaska to the coast somewhere east of the Copper River delta.

Spatial and temporal dynamics of Pacific capelin Mallotus catervarius in the Gulf of Alaska: implications for ecosystem-based fisheries management

2020 ◽  
Vol 637 ◽  
pp. 117-140 ◽  
Author(s):  
DW McGowan ◽  
ED Goldstein ◽  
ML Arimitsu ◽  
AL Deary ◽  
O Ormseth ◽  
...  
Keyword(s):  
Temporal Dynamics ◽  
Marine Ecosystem ◽  
Gulf Of Alaska ◽  
Data Series ◽  
Limited Information ◽  
Important Species ◽  
Multiple Data ◽  
Spatial And Temporal Dynamics ◽  
Spawning Areas ◽  
Spatio Temporal

Pacific capelin Mallotus catervarius are planktivorous small pelagic fish that serve an intermediate trophic role in marine food webs. Due to the lack of a directed fishery or monitoring of capelin in the Northeast Pacific, limited information is available on their distribution and abundance, and how spatio-temporal fluctuations in capelin density affect their availability as prey. To provide information on life history, spatial patterns, and population dynamics of capelin in the Gulf of Alaska (GOA), we modeled distributions of spawning habitat and larval dispersal, and synthesized spatially indexed data from multiple independent sources from 1996 to 2016. Potential capelin spawning areas were broadly distributed across the GOA. Models of larval drift show the GOA’s advective circulation patterns disperse capelin larvae over the continental shelf and upper slope, indicating potential connections between spawning areas and observed offshore distributions that are influenced by the location and timing of spawning. Spatial overlap in composite distributions of larval and age-1+ fish was used to identify core areas where capelin consistently occur and concentrate. Capelin primarily occupy shelf waters near the Kodiak Archipelago, and are patchily distributed across the GOA shelf and inshore waters. Interannual variations in abundance along with spatio-temporal differences in density indicate that the availability of capelin to predators and monitoring surveys is highly variable in the GOA. We demonstrate that the limitations of individual data series can be compensated for by integrating multiple data sources to monitor fluctuations in distributions and abundance trends of an ecologically important species across a large marine ecosystem.

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