L. H. Shapiro scite author profile

[1] Using Radarsat Synthetic Aperture Radar (SAR) imagery of northern Alaska and northwestern Canada, we calculated a mean climatology of the annual landfast ice cycle for the period 1996-2004. We also present the monthly minimum, mean, and maximum landfast ice extents throughout the study area. These data reveal where and when the landfast is most stable and which sections of the coast are susceptible to midseason breakout events. Stabilization of landfast ice is strongly related to the advance of the seaward landfast ice edge (SLIE) into waters around 18 m deep. Isobaths near this depth are a good approximation for midseason landfast ice extent. Comparison with work from the 1970s suggests a reduced presence of landfast ice in this region of the Arctic, due to later formation and earlier breakup. This will likely lead to an increase in coastal erosion and may also have profound effects upon subsistence activities, which are intimately linked to the timing of marine mammal migration patterns. Interannually, landfast ice formation correlates with the incursion of pack ice into coastal waters, suggesting that the later mean date of formation in recent years may be related to the increasingly northward location of the perennial sea ice edge. The timing of breakup correlates well with onset of thawing air temperatures. Analysis of regional data shows a multidecadal trend toward earlier thaw onset, which suggests that the observed change in breakup dates may be part of a longer-term trend.

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Snow Mechanics: Review of the State of Knowledge and Applications,

Shapiro¹,

Johnson²,

Sturm³

et al. 1997

124

111

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How fast is landfast sea ice? A study of the attachment and detachment of nearshore ice at Barrow, Alaska

Mahoney

Eicken

Shapiro

2007

Cold Regions Science and Technology

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Observations of brine drainage networks and microstructure of first‐year sea ice

Cole¹,

Shapiro²

1998

J. Geophys. Res.

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Ice motion and driving forces during a spring ice shove on the Alaskan Chukchi coast

Mahoney¹,

Eicken²,

Shapiro³

et al. 2004

J. Glaciol.

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ABSTRACT. An ice shove along the Alaskan Chukchi Sea coast occurred in June 2001, affecting the communities of Barrow and Wainwright, some 150 km apart. Aerial photography before and after the event allowed measurement of ice displacement vectors near Barrow where up to 395 m of ice motion was accommodated almost entirely in discrete ridges up to 5 m high. The forces required to build these ridges are estimated at 35^62 kN m^1, and driving forces of the whole event are investigated. Most ice deformation at or near the beach coincided with local onshore winds, but the event was preceded by the compaction of pack ice in the central Chukchi Sea and the closure of the coastal flaw lead, driven by the larger-scale wind field acting over several days beforehand. Whether this acted to impart pack-ice stress to the coast or simply to create a critical fetch of consolidated ice is uncertain. The near-melting near-isothermal state of the ice may have been a complicit factor and affected the behavior of the land-fast ice. Coastal morphology and bathymetry affected the location of deformation. This study highlights the range of scales at which processes act and culminate to have implications for Arctic communities.

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L. H. Shapiro

Alaska landfast sea ice: Links with bathymetry and atmospheric circulation

Snow Mechanics: Review of the State of Knowledge and Applications,

How fast is landfast sea ice? A study of the attachment and detachment of nearshore ice at Barrow, Alaska

Observations of brine drainage networks and microstructure of first‐year sea ice

Ice motion and driving forces during a spring ice shove on the Alaskan Chukchi coast

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