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On the ability of statistical wind-wave models to capture the variability and long-term trends of the North Atlantic winter wave climate

On the ability of statistical wind-wave models to capture the variability and long-term trends of the North Atlantic winter wave climate
On the ability of statistical wind-wave models to capture the variability and long-term trends of the North Atlantic winter wave climate
A dynamical wind-wave climate simulation covering the North Atlantic Ocean and spanning the whole 21st century under the A1B scenario has been compared with a set of statistical projections using atmospheric variables or large scale climate indices as predictors. As a first step, the performance of all statistical models has been evaluated for the present-day climate; namely they have been compared with a dynamical wind-wave hindcast in terms of winter Significant Wave Height (SWH) trends and variance as well as with altimetry data. For the projections, it has been found that statistical models that use wind speed as independent variable predictor are able to capture a larger fraction of the winter SWH inter-annual variability (68% on average) and of the long term changes projected by the dynamical simulation. Conversely, regression models using climate indices, sea level pressure and/or pressure gradient as predictors, account for a smaller SWH variance (from 2.8% to 33%) and do not reproduce the dynamically projected long term trends over the North Atlantic. Investigating the wind-sea and swell components separately, we have found that the combination of two regression models, one for wind-sea waves and another one for the swell component, can improve significantly the wave field projections obtained from single regression models over the North Atlantic.
Wave climate, Climate change, Statistical downscaling, Dynamical downscaling, North Atlantic
1463-5003
177-189
Martínez-Asensio, Adrián
f8a0221c-250f-4ac0-a9cf-2da6dbd033e8
Marcos, Marta
e9449b6f-834c-4239-8bb7-b611a0062412
Tsimplis, Michael N.
df6dd749-cda4-46ec-983c-bf022d737031
Jordà, Gabriel
1b431c79-d202-4819-b30b-60ddc9a4bd0a
Feng, Xiangbo
14d5a1ef-77b4-4548-985f-2b710365d790
Gomis, Damià
422ac23b-8c1f-4dbd-b2d5-35807248c3e8
Martínez-Asensio, Adrián
f8a0221c-250f-4ac0-a9cf-2da6dbd033e8
Marcos, Marta
e9449b6f-834c-4239-8bb7-b611a0062412
Tsimplis, Michael N.
df6dd749-cda4-46ec-983c-bf022d737031
Jordà, Gabriel
1b431c79-d202-4819-b30b-60ddc9a4bd0a
Feng, Xiangbo
14d5a1ef-77b4-4548-985f-2b710365d790
Gomis, Damià
422ac23b-8c1f-4dbd-b2d5-35807248c3e8

Martínez-Asensio, Adrián, Marcos, Marta, Tsimplis, Michael N., Jordà, Gabriel, Feng, Xiangbo and Gomis, Damià (2016) On the ability of statistical wind-wave models to capture the variability and long-term trends of the North Atlantic winter wave climate. Ocean Modelling, 103, 177-189. (doi:10.1016/j.ocemod.2016.02.006).

Record type: Article

Abstract

A dynamical wind-wave climate simulation covering the North Atlantic Ocean and spanning the whole 21st century under the A1B scenario has been compared with a set of statistical projections using atmospheric variables or large scale climate indices as predictors. As a first step, the performance of all statistical models has been evaluated for the present-day climate; namely they have been compared with a dynamical wind-wave hindcast in terms of winter Significant Wave Height (SWH) trends and variance as well as with altimetry data. For the projections, it has been found that statistical models that use wind speed as independent variable predictor are able to capture a larger fraction of the winter SWH inter-annual variability (68% on average) and of the long term changes projected by the dynamical simulation. Conversely, regression models using climate indices, sea level pressure and/or pressure gradient as predictors, account for a smaller SWH variance (from 2.8% to 33%) and do not reproduce the dynamically projected long term trends over the North Atlantic. Investigating the wind-sea and swell components separately, we have found that the combination of two regression models, one for wind-sea waves and another one for the swell component, can improve significantly the wave field projections obtained from single regression models over the North Atlantic.

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martinez_asensio_etal_2016_reduced - Accepted Manuscript
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Accepted/In Press date: 17 February 2016
Published date: July 2016
Keywords: Wave climate, Climate change, Statistical downscaling, Dynamical downscaling, North Atlantic
Organisations: National Oceanography Centre, Marine Physics and Ocean Climate

Identifiers

Local EPrints ID: 396328
URI: http://eprints.soton.ac.uk/id/eprint/396328
DOI: doi:10.1016/j.ocemod.2016.02.006
ISSN: 1463-5003
PURE UUID: 7d0c81be-dfd1-4e69-930f-472b8d5ac45b

Catalogue record

Date deposited: 03 Jun 2016 13:12
Last modified: 16 Mar 2024 05:09

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Contributors

Author: Adrián Martínez-Asensio
Author: Marta Marcos
Author: Michael N. Tsimplis
Author: Gabriel Jordà
Author: Xiangbo Feng
Author: Damià Gomis

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