4.0 Article

Nearshore sediment transport as influenced by changing sea ice, north shore of Prince Edward Island, Canada

Journal

CANADIAN JOURNAL OF EARTH SCIENCES
Volume 59, Issue 11, Pages 935-944

Publisher

CANADIAN SCIENCE PUBLISHING
DOI: 10.1139/cjes-2020-0150

Keywords

Gulf of St; Lawrence; Prince Edward Island; coastal processes; Delft3D; sediment transport; climate change

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This study examines the impact of changing sea ice on nearshore sediment transport in the central north shore of Prince Edward Island, Southern Gulf of St. Lawrence. The findings suggest that as sea ice concentration decreases, sediment transport increases. A significant threshold of 30% sea ice concentration is identified for planning coastal erosion and designing adaptation strategies.
This study considers the influence of changing sea ice on nearshore sediment transport in the central north shore of Prince Edward Island, Southern Gulf of St. Lawrence. It is widely accepted that changing climate is causing sea ice to decrease in the region. Sea ice attenuates wave energy thereby reducing sediment transport. The Delft3D hydrodynamic model is used to simulate waves, currents, and sediment transport in seven sea ice concentration scenarios that can be dif-ferentiated into four classes: open water (<10%), low ice (10% to 35%), moderate ice (36% to 60%), and high ice (>60%). If ice concentration decreases from high to moderate, sediment transport is expected to increase 23%. Similarly, if ice concentra-tion decreases from moderate to low, sediment transport is expected to increase a further 24%. If ice concentration decreases from low to open water conditions, sediment transport is expected to abruptly increase a further 85%. The increase in sediment transport as sea ice decreases from high concentration to open water conditions is 180%. Linear and power-law fits of sediment transport and sea ice concentration intersect at an ice concentration of 30%, indicating this value may be a useful threshold in planning for increased coastal erosion and developing appropriate adaptation strategies, in particular, adapting to increased sediment transport near tidal inlets and navigation channels.

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