Your search keyword '"Dodet, Guillaume"' showing total 3 results

1. Accuracy of numerical wave model results: application to the Atlantic coasts of Europe.

Author

Alday, Matias, Ardhuin, Fabrice, Dodet, Guillaume, and Accensi, Mickael

Subjects

THEORY of wave motion, COASTS, SHORELINES, WAVE functions, TIME series analysis, TOPOGRAPHY, FRICTION

Abstract

Numerical wave models are generally less accurate in the coastal ocean than offshore. It is generally suspected that a number of factors specific to coastal environments can be blamed for these larger model errors: complex shoreline and topography, relatively short fetches, combination of remote swells and local wind seas, less accurate wind fields, presence of strong currents, bottom friction, etc. These factors generally have strong local variations, making it all the more difficult to adapt a particular model setup from one area to another. Here we investigate a wide range of modeling choices including forcing fields, spectral resolution, and parameterizations of physical processes in a regional model that covers most of the Atlantic and North Sea coasts. The effects of these choices on the model results are analyzed with buoy spectral data and wave parameter time series. Additionally, satellite altimeter data are employed to provide a more complete performance assessment of the modeled wave heights as a function of the distance to the coast and to identify areas where wave propagation is influenced by bottom friction. We show that the accurate propagation of waves from offshore is probably the most important factor on exposed shorelines, while other specific effects can be important locally, including winds, currents, and bottom friction. [ABSTRACT FROM AUTHOR]

Published

2022

2. The Sea State CCI dataset v1: towards a sea state climate data record based on satellite observations.

Author

Dodet, Guillaume, Piolle, Jean-François, Quilfen, Yves, Abdalla, Saleh, Accensi, Mickaël, Ardhuin, Fabrice, Ash, Ellis, Bidlot, Jean-Raymond, Gommenginger, Christine, Marechal, Gwendal, Passaro, Marcello, Quartly, Graham, Stopa, Justin, Timmermans, Ben, Young, Ian, Cipollini, Paolo, and Donlon, Craig

Subjects

*OCEAN waves, *DATABASES, *COASTAL zone management, *MARINE engineering, *CLIMATOLOGY, *RAIN gauges

Abstract

Sea state data are of major importance for climate studies, marine engineering, safety at sea and coastal management. However, long-term sea state datasets are sparse and not always consistent, and sea state data users still mostly rely on numerical wave models for research and engineering applications. Facing the urgent need for a sea state climate data record, the Global Climate Observing System has listed "Sea State" as an Essential Climate Variable (ECV), fostering the launch in 2018 of the Sea State Climate Change Initiative (CCI). The CCI is a programme of the European Space Agency, whose objective is to realise the full potential of global Earth observation archives established by ESA and its member states in order to contribute to the ECV database. This paper presents the implementation of the first release of the Sea State CCI dataset, the implementation and benefits of a high-level denoising method, its validation against in situ measurements and numerical model outputs, and the future developments considered within the Sea State CCI project. The Sea State CCI dataset v1 is freely available on the ESA CCI website (http://cci.esa.int/data , last access: 25 August 2020) at ftp://anon-ftp.ceda.ac.uk/neodc/esacci/sea_state/data/v1.1_release/ (last access: 25 August 2020). Three products are available: a multi-mission along-track L2P product (http://dx.doi.org/10.5285/f91cd3ee7b6243d5b7d41b9beaf397e1 ,), a daily merged multi mission along-track L3 product (http://dx.doi.org/10.5285/3ef6a5a66e9947d39b356251909dc12b ,) and a multi-mission monthly gridded L4 product (http://dx.doi.org/10.5285/47140d618dcc40309e1edbca7e773478 ,). [ABSTRACT FROM AUTHOR]

Published

2020

3. Historical variation and trends in storminess along the Portuguese South Coast

Author

Almeida, L. P., Ferreira, O., Vousdoukas, M. I., Dodet, Guillaume, Almeida, L. P., Ferreira, O., Vousdoukas, M. I., and Dodet, Guillaume

Abstract

This work investigates historical variation and trends in storm climate for the South Portugal region, using data from wave buoy measurements and from modelling, for the period 1952 to 2009. Several storm parameters (annual number of storms; annual number of days with storms; annual maximum and mean individual storm duration and annual 99.8th percentile of significant wave height) were used to analyse: (1) historical storminess trends; (2) storm parameter variability and relationships; and (3) historical storminess and its relationship to the North Atlantic Oscillation (NAO). No statistically significant linear increase or decrease was found in any of the storm parameters over the period of interest. The main pattern of storm characteristics and extreme wave heights is an oscillatory variability with intensity peaks every 7-8 yr, and the magnitude of recent variations is comparable with that of variations observed in the earlier parts of the record. In addition, the results reveal that the NAO index is able to explain only a small percentage of the variation in storm wave height, suggesting that more local factors may be of importance in controlling storminess in this region.

Published

2011