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General Session 1: Physical oceanic processes: Dynamics and physical-biological-biogeochemical interactions |
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Impacts of climate changes on ocean surface gravity waves over the eastern Canadian shelf
GS1-10
Lanli Guo* , employee
Jinyu Sheng, Supervisor
Presenter Email: lanli.guo@dfo-mpo.gc.ca
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| A numerical study is conducted to investigate the impact of climate changes on ocean surface gravity waves over the eastern Canadian shelf (ECS). The ¡°business-as-usual¡± climate scenario known as Representative Concentration Pathway RCP8.5 is considered in this study. Changes in the ocean surface gravity waves over the study region for the period 1979-2100 are examined based on 3 hourly ocean waves simulated by the third-generation ocean wave model known as WAVEWATCHIII. The wave model is driven by surface winds and ice conditions produced by the Canadian Regional Climate Model (CanRCM4). The whole study period is divided into the present (1979-2008), near future (2021-2050) and far future (2071-2100) periods to quantify possible future changes of ocean waves over the ECS. In comparison with the present ocean wave conditions, the time-mean significant wave heights (𝐻𝑠) are expected to increase over most of the ECS in the near future and decrease over this region in the far future period. The time-mean of the annual 5% largest 𝐻𝑠is projected to increase over the ECS in both near and far future periods due mainly to the changes in surface winds. The future changes in the time-means of the annual 5% largest 𝐻𝑠 and 10-m wind speeds are projected to be twice as strong as the changes in annual means. An analysis of inverse wave ages suggests that the occurrence of wind seas is projected to increase over the southern Labrador and central Newfoundland Shelves in the near future period, and occurrence of swells is projected to increase over other areas of the ECS in both the near and far future periods.
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