U.S. IOOS coastal and ocean modeling testbed: Evaluation of tide, wave, and hurricane surge response sensitivities to mesh resolution and friction in the Gulf of Mexico: IOOS TESTBED-RESOLUTION AND FRICTION

This paper investigates model response sensitivities to mesh resolution, topographical details, bottom friction formulations, the interaction of wind waves and circulation, and nonlinear advection on tidal and hurricane surge and wave processes at the basin, shelf, wetland, and coastal channel scale...

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Main Authors: Kerr, P. C., Martyr, R. C., Donahue, A. S., Hope, M. E., Westerink, J. J., Luettich, R. A., Kennedy, A. B., Dietrich, J. C., Dawson, C., Westerink, H. J.
Other Authors: Institute of Marine Sciences
Format: Article in Journal/Newspaper
Language:unknown
Published: 2013
Subjects:
advection
Gulf of Mexico
North American Atlantic
Hindcast
Atlantic Ocean
performances
Modeling
Surge
Cyclone tropical
Severe weather
Intertidal zone
attenuation
hurricanes
Water level
wetlands
Tropical cyclone
Performance
Temps violent
Ocean model
Wind wave
sensitivity analysis
Niveau eau
North Atlantic
non-linear models
Northwest Atlantic
coastal zone
Online Access:https://doi.org/10.17615/j7wq-nb85
https://cdr.lib.unc.edu/downloads/47429j978?file=thumbnail
https://cdr.lib.unc.edu/downloads/47429j978
id ftcarolinadr:cdr.lib.unc.edu:hm50v2043
record_format openpolar
spelling ftcarolinadr:cdr.lib.unc.edu:hm50v2043 2023-09-05T13:21:45+02:00 U.S. IOOS coastal and ocean modeling testbed: Evaluation of tide, wave, and hurricane surge response sensitivities to mesh resolution and friction in the Gulf of Mexico: IOOS TESTBED-RESOLUTION AND FRICTION Kerr, P. C. Martyr, R. C. Donahue, A. S. Hope, M. E. Westerink, J. J. Luettich, R. A. Kennedy, A. B. Dietrich, J. C. Dawson, C. Westerink, H. J. Institute of Marine Sciences 2013 https://doi.org/10.17615/j7wq-nb85 https://cdr.lib.unc.edu/downloads/47429j978?file=thumbnail https://cdr.lib.unc.edu/downloads/47429j978 unknown https://doi.org/10.17615/j7wq-nb85 https://cdr.lib.unc.edu/downloads/47429j978?file=thumbnail https://cdr.lib.unc.edu/downloads/47429j978 http://rightsstatements.org/vocab/InC/1.0/ Journal of Geophysical Research - Oceans, 118(9) advection Gulf of Mexico North American Atlantic Hindcast Atlantic Ocean performances Modeling Surge Cyclone tropical Severe weather Intertidal zone attenuation hurricanes Water level wetlands Tropical cyclone Performance Temps violent Ocean model Wind wave sensitivity analysis Niveau eau North Atlantic non-linear models Northwest Atlantic coastal zone Article 2013 ftcarolinadr https://doi.org/10.17615/j7wq-nb85 2023-08-19T22:25:03Z This paper investigates model response sensitivities to mesh resolution, topographical details, bottom friction formulations, the interaction of wind waves and circulation, and nonlinear advection on tidal and hurricane surge and wave processes at the basin, shelf, wetland, and coastal channel scales within the Gulf of Mexico. Tides in the Gulf of Mexico are modestly energetic processes, whereas hurricane surge and waves are highly energetic. The unstructured-mesh, coupled wind-wave and circulation modeling system, SWAN+ ADCIRC, is implemented to generate modeled tidal harmonic constituents and hurricane waves and surge for a Hurricane Ike (2008) hindcast. In the open ocean, mesh resolution requirements are less stringent in achieving accurate tidal signals or matching hurricane surge and wave responses; however, coarser resolution or the absence of intertidal zones decreases accuracy along protected nearshore and inland coastal areas due to improper conveyance and/or lateral attenuation. Bottom friction formulations are shown to have little impact on tidal signal accuracy, but hurricane surge is much more sensitive, especially in shelf waters, where development of a strong shore-parallel current is essential to the development of Ike's geostrophic setup. The spatial and temporal contributions of wave radiation stress gradients and nonlinear advection were charted for Ike. Nonlinear advection improves model performance by capturing an additional 10―20 cm of geostrophic setup and increasing resonant cross-shelf waves by 30―40 cm. Wave radiation stress gradients improve performance at coastal stations by adding an extra 20―40 cm to water levels. Article in Journal/Newspaper North Atlantic Northwest Atlantic Carolina Digital Repository (UNC - University of North Carolina)
institution Open Polar
collection Carolina Digital Repository (UNC - University of North Carolina)
op_collection_id ftcarolinadr
language unknown
topic advection
Gulf of Mexico
North American Atlantic
Hindcast
Atlantic Ocean
performances
Modeling
Surge
Cyclone tropical
Severe weather
Intertidal zone
attenuation
hurricanes
Water level
wetlands
Tropical cyclone
Performance
Temps violent
Ocean model
Wind wave
sensitivity analysis
Niveau eau
North Atlantic
non-linear models
Northwest Atlantic
coastal zone
spellingShingle advection
Gulf of Mexico
North American Atlantic
Hindcast
Atlantic Ocean
performances
Modeling
Surge
Cyclone tropical
Severe weather
Intertidal zone
attenuation
hurricanes
Water level
wetlands
Tropical cyclone
Performance
Temps violent
Ocean model
Wind wave
sensitivity analysis
Niveau eau
North Atlantic
non-linear models
Northwest Atlantic
coastal zone
Kerr, P. C.
Martyr, R. C.
Donahue, A. S.
Hope, M. E.
Westerink, J. J.
Luettich, R. A.
Kennedy, A. B.
Dietrich, J. C.
Dawson, C.
Westerink, H. J.
U.S. IOOS coastal and ocean modeling testbed: Evaluation of tide, wave, and hurricane surge response sensitivities to mesh resolution and friction in the Gulf of Mexico: IOOS TESTBED-RESOLUTION AND FRICTION
topic_facet advection
Gulf of Mexico
North American Atlantic
Hindcast
Atlantic Ocean
performances
Modeling
Surge
Cyclone tropical
Severe weather
Intertidal zone
attenuation
hurricanes
Water level
wetlands
Tropical cyclone
Performance
Temps violent
Ocean model
Wind wave
sensitivity analysis
Niveau eau
North Atlantic
non-linear models
Northwest Atlantic
coastal zone
description This paper investigates model response sensitivities to mesh resolution, topographical details, bottom friction formulations, the interaction of wind waves and circulation, and nonlinear advection on tidal and hurricane surge and wave processes at the basin, shelf, wetland, and coastal channel scales within the Gulf of Mexico. Tides in the Gulf of Mexico are modestly energetic processes, whereas hurricane surge and waves are highly energetic. The unstructured-mesh, coupled wind-wave and circulation modeling system, SWAN+ ADCIRC, is implemented to generate modeled tidal harmonic constituents and hurricane waves and surge for a Hurricane Ike (2008) hindcast. In the open ocean, mesh resolution requirements are less stringent in achieving accurate tidal signals or matching hurricane surge and wave responses; however, coarser resolution or the absence of intertidal zones decreases accuracy along protected nearshore and inland coastal areas due to improper conveyance and/or lateral attenuation. Bottom friction formulations are shown to have little impact on tidal signal accuracy, but hurricane surge is much more sensitive, especially in shelf waters, where development of a strong shore-parallel current is essential to the development of Ike's geostrophic setup. The spatial and temporal contributions of wave radiation stress gradients and nonlinear advection were charted for Ike. Nonlinear advection improves model performance by capturing an additional 10―20 cm of geostrophic setup and increasing resonant cross-shelf waves by 30―40 cm. Wave radiation stress gradients improve performance at coastal stations by adding an extra 20―40 cm to water levels.
author2 Institute of Marine Sciences
format Article in Journal/Newspaper
author Kerr, P. C.
Martyr, R. C.
Donahue, A. S.
Hope, M. E.
Westerink, J. J.
Luettich, R. A.
Kennedy, A. B.
Dietrich, J. C.
Dawson, C.
Westerink, H. J.
author_facet Kerr, P. C.
Martyr, R. C.
Donahue, A. S.
Hope, M. E.
Westerink, J. J.
Luettich, R. A.
Kennedy, A. B.
Dietrich, J. C.
Dawson, C.
Westerink, H. J.
author_sort Kerr, P. C.
title U.S. IOOS coastal and ocean modeling testbed: Evaluation of tide, wave, and hurricane surge response sensitivities to mesh resolution and friction in the Gulf of Mexico: IOOS TESTBED-RESOLUTION AND FRICTION
title_short U.S. IOOS coastal and ocean modeling testbed: Evaluation of tide, wave, and hurricane surge response sensitivities to mesh resolution and friction in the Gulf of Mexico: IOOS TESTBED-RESOLUTION AND FRICTION
title_full U.S. IOOS coastal and ocean modeling testbed: Evaluation of tide, wave, and hurricane surge response sensitivities to mesh resolution and friction in the Gulf of Mexico: IOOS TESTBED-RESOLUTION AND FRICTION
title_fullStr U.S. IOOS coastal and ocean modeling testbed: Evaluation of tide, wave, and hurricane surge response sensitivities to mesh resolution and friction in the Gulf of Mexico: IOOS TESTBED-RESOLUTION AND FRICTION
title_full_unstemmed U.S. IOOS coastal and ocean modeling testbed: Evaluation of tide, wave, and hurricane surge response sensitivities to mesh resolution and friction in the Gulf of Mexico: IOOS TESTBED-RESOLUTION AND FRICTION
title_sort u.s. ioos coastal and ocean modeling testbed: evaluation of tide, wave, and hurricane surge response sensitivities to mesh resolution and friction in the gulf of mexico: ioos testbed-resolution and friction
publishDate 2013
url https://doi.org/10.17615/j7wq-nb85
https://cdr.lib.unc.edu/downloads/47429j978?file=thumbnail
https://cdr.lib.unc.edu/downloads/47429j978
genre North Atlantic
Northwest Atlantic
genre_facet North Atlantic
Northwest Atlantic
op_source Journal of Geophysical Research - Oceans, 118(9)
op_relation https://doi.org/10.17615/j7wq-nb85
https://cdr.lib.unc.edu/downloads/47429j978?file=thumbnail
https://cdr.lib.unc.edu/downloads/47429j978
op_rights http://rightsstatements.org/vocab/InC/1.0/
op_doi https://doi.org/10.17615/j7wq-nb85
_version_ 1776202330412154880

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