Better operational forecasting for the contemporary arctic via ocean wave integration

Document ID ISOPE-I-12-065 Whether configured for operational purposes or for research, current coupled ice-ocean models and OGCMs lack sophistication in regard to core aspects of sea ice behavior, notably the determinative contribution that ocean waves make in evolving the sea ice canopy and hasten...

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Bibliographic Details
Main Authors: Squire, V.A., Williams, T.D., Bennetts, L.G.
Other Authors: Twenty-second International Offshore and Polar Engineering Conference (17 Jun 2012 - 22 Jun 2012 : Rhodes, Greece)
Format: Conference Object
Language:English
Published: OnePetro 2012
Subjects:
Sea ice
global warming
operational ice-ocean forecasting model /OGCM
ocean wave scattering
Arctic and Subarctic seas
Southern Ocean
sea ice morphology adjustment
Arctic
Luke
Norway
Global warming
Subarctic
Online Access:http://hdl.handle.net/2440/88803
Description
Summary:Document ID ISOPE-I-12-065 Whether configured for operational purposes or for research, current coupled ice-ocean models and OGCMs lack sophistication in regard to core aspects of sea ice behavior, notably the determinative contribution that ocean waves make in evolving the sea ice canopy and hastening its annihilation. Considerably enhanced climate resolving accuracy and reliability can potentially be achieved by incorporating naturally pervasive ocean wave / sea ice interactivity into a state-of-the-art polar ocean modeling framework originally developed and hosted by NERSC in Norway. This paper focuses on how to do this, recognizing the benefits that will flow from the research through better model parameterization and forecasting precision – especially with reference to contemporary adverse global warming effects. Vernon A. Squire, Timothy D. Williams, Luke G. Bennetts

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