Ocean wave time-series data along the U.S. West Coast and surrounding Hawai’i simulated with a global-scale numerical wave model under the influence of CMIP6 wind and sea ice fields (ver. 2.0, October 2024)

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Metadata:

Identification_Information:
Citation:
Citation_Information:
Originator: Li H. Erikson
Originator: Liv Herdman
Originator: Chris Flanary
Originator: Anita C. Engelstad
Originator: Prasad Pusuluri
Originator: Patrick L. Barnard
Originator: Curt D. Storlazzi
Originator: Michael Beck
Originator: Borja G. Reguero
Originator: Kai A. Parker
Publication_Date: 20241026
Title:
Ocean wave time-series data along the U.S. West Coast and surrounding Hawai’i simulated with a global-scale numerical wave model under the influence of CMIP6 wind and sea ice fields (ver. 2.0, October 2024)
Geospatial_Data_Presentation_Form: netCDF files
Series_Information:
Series_Name: data release
Issue_Identification: DOI: 10.5066/P9KR0RFM
Publication_Information:
Publication_Place:
Pacific Coastal and Marine Science Center, Santa Cruz, California
Publisher: U.S. Geological Survey
Online_Linkage: https://doi.org/10.5066/P9KR0RFM
Larger_Work_Citation:
Citation_Information:
Originator: Li H. Erikson
Originator: Liv Herdman
Originator: Chris Flanary
Originator: Anita C. Engelstad
Originator: Prasad Pusuluri
Originator: Patrick L. Barnard
Originator: Curt D. Storlazzi
Originator: Michael Beck
Originator: Borja G. Reguero
Originator: Kai A. Parker
Publication_Date: 2022
Title:
Ocean wave time-series data simulated with a global-scale numerical wave model under the influence of historical and projectedCMIP6 wind and sea ice fields (ver. 2.0, October 2024)
Edition: 2.0
Series_Information:
Series_Name: data release
Issue_Identification: 10.5066/P9KR0RFM
Publication_Information:
Publication_Place: Pacific Coastal and Marine Science Center, Santa Cruz, CA
Publisher: U.S. Geological Survey
Online_Linkage: https://doi.org/10.5066/P9KR0RFM
Description:
Abstract:
This dataset presents historical (1979-2014) and projected (2020-2050) hourly time-series of wave heights, wave periods, incident wave directions, and directional spreading at distinct points along the U.S. West Coast and surrounding Hawai’i. The time-series were developed by running the National Oceanic and Atmospheric Administration’s (NOAA’s) WAVEWATCHIII model. Wind and sea-ice fields from seven different Global Climate or General Circulation Models from the CMIP6 High-Resolution Model Intercomparison Project were used to simulate waves across the globe at a 0.5-degree resolution (approximately 50 km, depending on latitude) and further downscaled to 10- (approximately 18 km) and 4-arc-minute (approximately 7 km) model grids. Point model output data extracted from NOAA’s 4 arc-minute grid for the U.S. West Coast and Hawai’i (wc_4m) are provided herein.
Purpose:
These wave data were produced as part of a larger investigation into assessing future coastal hazards along the United States open coastlines.
Supplemental_Information:
Coupled atmosphere-ocean global climate models (or general circulation models, GCMs) are the current standard tool for improving understanding and predictability of climate behavior on seasonal to centennial time-scales. However, GCMs do not currently include ocean wave conditions caused by the exchange of momentum, heat, and mass across the air-sea interface (Hemer and others, 2012). To fulfill this need, projections of wave conditions have been done by independent researchers using statistical and numerical modeling methods driven by atmospheric forcing derived from the 5th generation Coupled Model Intercomparison Project (CMIP5) GCMs (Morim and others, 2019, 2020). This work follows a well-established method of applying GCM-derived wind and sea-ice fields as boundary conditions to the WaveWatchIII model to generate projections of wave climatologies (Hemer and others 2013; Erikson and others, 2015; Mentaschi and others 2017). But in contrast to earlier works, this data set was produced by applying wind and sea-ice fields from the High Resolution Model Intercomparison Project (HighResMIP v1.0), which is part of the CMIP6 framework (Haarsma and others, 2016). With a spatial resolution up to 25-50 km (compared to 150 km for CMIP5), the HighResMIP models are capable of resolving localized climate extremes, such as tropical cyclones (Roberts and others., 2020). Additional information about WAVEWATCHIII and the Production Multigrid model from which these data were derived is available online at https://polar.ncep.noaa.gov/waves/validation/. Computing was performed at the USGS Advanced Research Computing Facility, USGS Denali Supercomputer https://doi.org/10.5066/P9PSW367 and Intel Corporation. Any use of trade, product, or firm names is for descriptive purposes only and does not imply endorsement by the U.S. Government.
Time_Period_of_Content:
Time_Period_Information:
Range_of_Dates/Times:
Beginning_Date: 19790101
Ending_Date: 20501231
Currentness_Reference: time period for which the data were modeled
Status:
Progress: Complete
Maintenance_and_Update_Frequency: None planned
Spatial_Domain:
Bounding_Coordinates:
West_Bounding_Coordinate: -160.5300
East_Bounding_Coordinate: -116.4000
North_Bounding_Coordinate: 49.9330
South_Bounding_Coordinate: 18.1670
Keywords:
Theme:
Theme_Keyword_Thesaurus: USGS Metadata Identifier
Theme_Keyword: USGS:8c6e5bbf-5726-49f7-8b18-c7fc30b35ab0
Theme:
Theme_Keyword_Thesaurus: ISO 19115 Topic Category
Theme_Keyword: oceans
Theme:
Theme_Keyword_Thesaurus: Data Categories for Marine Planning
Theme_Keyword: predictions
Theme:
Theme_Keyword_Thesaurus: USGS Thesaurus
Theme_Keyword: ocean waves
Theme:
Theme_Keyword_Thesaurus: Marine Realms Information Bank (MRIB) keywords
Theme_Keyword: numerical modeling
Theme:
Theme_Keyword_Thesaurus: None
Theme_Keyword: U.S. Geological Survey
Theme_Keyword: USGS
Theme_Keyword: Coastal and Marine Hazards and Resources Program
Theme_Keyword: CMHRP
Theme_Keyword: Pacific Coastal and Marine Science Center
Theme_Keyword: PCMSC
Place:
Place_Keyword_Thesaurus: Geographic Names Information System (GNIS)
Place_Keyword: Pacific Ocean
Place:
Place_Keyword_Thesaurus: NGA GEOnet Names Server (GNS)
Place_Keyword: United States
Access_Constraints: No access constraints
Use_Constraints:
USGS-authored or produced data and information are in the public domain from the U.S. Government and are freely redistributable with proper metadata and source attribution. Please recognize and acknowledge the U.S. Geological Survey, University of California Santa Cruz (UCSC), and Intel Corporation as the originator(s) of the dataset and in products derived from these data.
Point_of_Contact:
Contact_Information:
Contact_Organization_Primary:
Contact_Organization:
U.S. Geological Survey, Pacific Coastal and Marine Science Center
Contact_Person: PCMSC Science Data Coordinator
Contact_Address:
Address_Type: mailing and physical
Address: 2885 Mission Street
City: Santa Cruz
State_or_Province: CA
Postal_Code: 95060
Contact_Voice_Telephone: 831-427-4747
Contact_Electronic_Mail_Address: pcmsc_data@usgs.gov
Browse_Graphic:
Browse_Graphic_File_Name: WavePnts_wc_4m_Fut_Preview.png
Browse_Graphic_File_Description: Water depth at model savepoints (meters)
Browse_Graphic_File_Type: png
Data_Set_Credit:
We thank Dr. Babak Tehranirad (Stantec Inc.), Dr. Sean Vitousek (USGS), and Reyce Bogardus (UAF) for review of the wave data. For the wind and sea-ice fields we thank and acknowledge the World Climate Research Programme, which, through its Working Group on Coupled Modelling, coordinated and promoted CMIP6. We thank the climate modeling groups for producing and making available their model output, the Earth System Grid Federation (ESGF) for archiving the data and providing access, and the multiple funding agencies who support CMIP6 and ESGF.
Native_Data_Set_Environment:
Data were generated with the use of WCRP CMIP6 data and the spectral wave model WAVEWATCHIII® version 6.07.1 by National Oceanic and Atmospheric Agency National Centers for Environmental Prediction WAVEWATCHIII® Development Group (WW3DG), 2019. Computing was performed at the USGS Advanced Research Computing Facility, USGS Denali Supercomputer https://doi.org/10.5066/P9PSW367 and Intel Corporation.
Cross_Reference:
Citation_Information:
Originator: C. Amante
Originator: B.W. Eakins
Publication_Date: 2009
Title:
ETOPO1 Arc-minute global relief model: procedures, data sources and analysis
Other_Citation_Details:
Amante, C. and Eakins, B.W., 2009, ETOPO1 Arc-minute global relief model: procedures, data sources and analysis: NOAA Technical Memorandum NESDIS NGDC-24, p. 25, https://www.ngdc.noaa.gov/mgg/global/
Online_Linkage: https://www.ngdc.noaa.gov/mgg/global/
Cross_Reference:
Citation_Information:
Originator: Li Erikson
Originator: Christie Hegermiller
Originator: Patrick L. Barnard
Originator: Peter Ruggiero
Originator: Maarten van Ormondt
Publication_Date: 2015
Title:
Projected wave conditions in the Eastern North Pacific under the influence of two CMIP5 climate scenarios
Other_Citation_Details:
Erikson, L.H., Hegermiller, C.A., Barnard, P.L., Ruggiero, P., and van Ormondt, M., 2015, Projected wave conditions in the Eastern North Pacific under the influence of two CMIP5 climate scenarios: Ocean Modelling, v. 96 no. 1, pp. 171–185, doi: 10.1016/j.ocemod.2015.07.004.
Online_Linkage: https://doi.org/10.1016/j.ocemod.2015.07.004
Cross_Reference:
Citation_Information:
Originator: V. Eyring
Originator: S. Bony
Originator: G.A. Meehl
Originator: C.A. Senior
Originator: B. Stevens
Originator: R.J. Stouffer
Originator: K.E. Taylor
Publication_Date: 2016
Title:
Overview of the Coupled Model Intercomparison Project Phase 6 (CMIP6) experimental design and organization.
Other_Citation_Details:
Eyring, V., Bony, S., Meehl, G.A., Senior, C.A., Stevens, B., Stouffer, R.J., and Taylor, K.E., 2016, Overview of the Coupled Model Intercomparison Project Phase 6 (CMIP6) experimental design and organization: Geoscientific Model Development, v. 9, p. 1937–1958, https://doi.org/10.5194/gmd-9-1937-2016
Online_Linkage: https://doi.org/10.5194/gmd-9-1937-2016
Cross_Reference:
Citation_Information:
Originator: J.T. Falgout
Originator: J. Gordon
Originator: B. Williams
Originator: M.J. Davis
Publication_Date: 2024
Title: USGS Advanced Research Computing, USGS Denali Supercomputer.
Other_Citation_Details:
Falgout, J.T., Gordon J., Williams B., Davis M. J., USGS Advanced Research Computing, USGS Denali Supercomputer: U.S. Geological Survey, https://doi.org/10.5066/P9PSW367
Online_Linkage: https://doi.org/10.5066/P9PSW367
Cross_Reference:
Citation_Information:
Originator: R.J. Haarsma
Originator: M.J. Roberts
Originator: P.L. Vidale
Originator: C.A. Senior
Originator: A. Bellucci
Originator: Q. Bao
Originator: P. Chang
Originator: S. Corti
Originator: N.S. Fučkar
Originator: V. Guemas
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Originator: T. Koenigk
Originator: L.R. Leung
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Originator: J.-J. Luo
Originator: J. Mao
Originator: M.S. Mizielinski
Originator: R. Mizuta
Originator: P. Nobre
Originator: M. Satoh
Originator: E. Scoccimarro
Originator: T. Semmler
Originator: J. Small and
Originator: J.-S. von Storch
Publication_Date: 2016
Title:
High Resolution Model Intercomparison Project (HighResMIP v1.0) for CMIP6
Other_Citation_Details:
Haarsma, R.J., Roberts, M.J., Vidale, P. L., Senior, C.A., Bellucci, A., Bao, Q., Chang, P., Corti, S., Fučkar, N. S., Guemas, V., von Hardenberg, J., Hazeleger, W., Kodama, C., Koenigk, T., Leung, L.R., Lu, J., Luo, J.-J., Mao, J., Mizielinski, M. S., Mizuta, R., Nobre, P., Satoh, M., Scoccimarro, E., Semmler, T., Small, J., and von Storch, J.-S., 2016, High Resolution Model Intercomparison Project (HighResMIP v1.0) for CMIP6: Geoscientific Model Development, v. 9, p. 4185–4208, https://doi.org/10.5194/gmd-9-4185-2016
Online_Linkage: https://doi.org/10.5194/gmd-9-4185-2016
Cross_Reference:
Citation_Information:
Originator: Mark Hemer
Originator: Xiaolan Wang
Originator: Ralf Weisse
Originator: Val Swail
Publication_Date: 2012
Title: Advancing wind-waves climate science: The COWCLIP project
Other_Citation_Details:
Hemer, M., Wang, X., Weisse, R., Swail, V., 2012, Advancing wind-waves climate science: The COWCLIP project: Bulletin of the American Meteorological Society, v. 93, p. 791-796, https://doi.org/10.1175/BAMS-D-11-00184.1
Online_Linkage: https://doi.org/10.1175/BAMS-D-11-00184.1
Cross_Reference:
Citation_Information:
Originator: Mark A. Hemer
Originator: Yalin Fan
Originator: Nobuhito Mori
Originator: Alvaro Semedo
Originator: Xiaolan L. Wang
Publication_Date: 2013
Title: Projected changes in wave climate from a multi-model ensemble
Other_Citation_Details:
Hemer, M.A., Fan, Y., Mori, N., Semedo A., and Wang, X.L., 2013, Projected changes in wave climate from a multi-model ensemble: Nature Climate Change v. 3, p. 471–476, https://doi.org/10.1038/nclimate1791
Online_Linkage: https://doi.org/10.1038/nclimate1791
Cross_Reference:
Citation_Information:
Originator: Lorenzo Mentaschi
Originator: Michalis I. Vousdoukas
Originator: Evangelos Voukouvalas
Originator: Alessandro Dosio
Originator: Luc Feyen
Publication_Date: 2017
Title:
Global changes of extreme coastal wave energy fluxes triggered by intensified teleconnection patterns
Other_Citation_Details:
Mentaschi, L., Vousdoukas, M. I., Voukouvalas, E., Dosio, A., and Feyen, L., 2017, Global changes of extreme coastal wave energy fluxes triggered by intensified teleconnection patterns: Geophysical Research Letters, v. 44, p. 2416–2426, doi:10.1002/2016GL072488.
Online_Linkage: https://doi.org/10.1002/2016GL072488
Cross_Reference:
Citation_Information:
Originator: Joao Morim
Originator: Mark Hemer
Originator: Xiaolan L. Wang
Originator: Nick Cartwright
Originator: Claire Trenham
Originator: Alvaro Semedo
Originator: Ian Young
Originator: Lucy Bricheno
Originator: Paula Camus
Originator: Mercè Casas-Prat
Originator: Li Erikson
Originator: Lorenzo Mentaschi
Originator: Nobuhito Mori
Originator: Tomoya Shimura
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Originator: Ole Aarnes
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Originator: Justin Stopa
Originator: Fernando Andutta
Publication_Date: 2019
Title:
Robustness and uncertainties in global multivariate wind-wave climate projections
Other_Citation_Details:
Morim, J., Hemer, M., Wang, X.L., Cartwright, N., Trenham, C., Semedo, A., Young, I., Bricheno, L., Camus, P., Casas-Prat, M., Erikson, L., Mentaschi, L., Mori, M. Shimura, T., Timmermans, B., Aarnes, O., Breivik, O., Behrens, A., Dobrynin, M., Menendez, M., Staneva, J., Wehner, M., Wolf, J., Kamranzad, B., Webb, A., Stopa, J., and Andutta, F., 2019, Robustness and uncertainties in global multivariate wind-wave climate projections: Nature Climate Change, v. 9,p. 711–718, https://doi.org/10.1038/s41558-019-0542-5
Online_Linkage: https://doi.org/10.1038/s41558-019-0542-5
Cross_Reference:
Citation_Information:
Originator: Joao Morim
Originator: Claire Trenham
Originator: Mark Hemer
Originator: Xiaolan L. Wang
Originator: Nobuhito Mori
Originator: Mercè Casas-Prat
Originator: Alvaro Semedo
Originator: Tomoya Shimura
Originator: Ben Timmermans
Originator: Paula Camus
Originator: Lucy Bricheno
Originator: Lorenzo Mentaschi
Originator: Mikhail Dobrynin
Originator: Yang Feng
Originator: Li Erikson
Publication_Date: 2020
Title:
A global ensemble of ocean wave climate projections from CMIP5-driven models
Other_Citation_Details:
Morim, J., Trenham, C., Hemer, M. et al. A global ensemble of ocean wave climate projections from CMIP5-driven models: Scientific Data, v. 7, no. 105, https://doi.org/10.1038/s41597-020-0446-2
Online_Linkage: https://doi.org/10.1038/s41597-020-0446-2
Cross_Reference:
Citation_Information:
Originator: Malcolm J. Roberts
Originator: Joanne Camp
Originator: Jon Seddon
Originator: Pier L. Vidale
Originator: Kevin Hodges
Originator: Benoît Vannière
Originator: Jenny Mecking
Originator: Rein Haarsma
Originator: Alessio Bellucci
Originator: Enrico Scoccimarro
Originator: Louis-Philippe Caron
Originator: Fabrice Chauvin
Originator: Laurent Terray
Originator: Sophie Valcke
Originator: Marie-Pierre Moine
Originator: Dian Putrasahan
Originator: Christopher D.Roberts
Originator: Retish Senan
Originator: Colin Zarzycki
Originator: Paul Ullrich
Originator: Yohei Yamada
Originator: Ryo Mizuta
Originator: Chihiro Kodama
Originator: Dan Fu
Originator: Qiuying Zhang
Originator: Gokhan Danabasoglu
Originator: Nan Rosenbloom
Originator: Hong Wang
Originator: Lixin Wu
Publication_Date: 2020
Title:
Projected future changes in tropical cyclones using the CMIP6 HighResMIP multimodel ensemble
Other_Citation_Details:
Roberts, M.J., Camp, J., Seddon, J., Vidale, P.L., Hodges, K., Vannière, B., Mecking, J., Haarsma, R., Bellucci, A., Scoccimarro, E., Caron, L.-P., Chauvin, F., Terray, L., Valcke, S., Moine, M.-P., Putrasahan, D., Roberts, C.D., Senan, R., Zarzycki, C., Ullrich, P., Yamada, Y., Mizuta, R., Kodama, C., Fu, D., Zhang, Q., Danabasoglu, G., Rosenbloom, N., Wang, H. and Wu, L., 2020, Projected future changes in tropical cyclones using the CMIP6 HighResMIP multimodel ensemble: Geophysical Research Letters, v. 47, https://doi.org/10.1029/2020GL088662
Online_Linkage: https://doi.org/10.1029/2020GL088662
Cross_Reference:
Citation_Information:
Originator: WAVEWATCHIII R Development Group (WW3DG)
Publication_Date: 2019
Title:
User manual and system documentation of WAVEWATCHIII R version 6.07.
Other_Citation_Details:
WAVEWATCHIII R Development Group (WW3DG), 2019, Tech. Note 333, NOAA/NWS/NCEP/MMAB, College Park, MD, USA, p. 465 + Appendices, https://github.com/NOAA-EMC/WW3/wiki/files/manual.pdf
Online_Linkage: https://github.com/NOAA-EMC/WW3/wiki/files/manual.pdf
Data_Quality_Information:
Attribute_Accuracy:
Attribute_Accuracy_Report:
This study does not include model hindcast runs and comparisons to buoy or altimeter observations, but comparisons to various measurements have been done by previous studies (for example, https://polar.ncep.noaa.gov/waves/validation/prod/).
Logical_Consistency_Report:
All data provided match the wave source information and fall within expected ranges for wave parameters. The GFDL wave model runs do not include the influence of ice in parts of the Arctic Ocean. The effect of this on modeled waves within this wc_4m grid dataset is expected to be small, but no formal checks have been done. The affected data files are noted by a modification to the filename: ‘LimitedUse’.
Completeness_Report:
Spatial and attribute properties are believed to be complete. The geospatial data were checked for integrity. Possible data duplicates have been checked and eliminated.
Positional_Accuracy:
Horizontal_Positional_Accuracy:
Horizontal_Positional_Accuracy_Report:
The horizontal accuracy is inherited from the source model grid (NOAA’s WAVEWATCHIII model). Because the overall horizontal accuracy depends on the underlying bathymetry, forcing values used, and the accuracy of the model, the spatial accuracy of this data layer cannot be meaningfully quantified.
Lineage:
Source_Information:
Source_Citation:
Citation_Information:
Originator: Enrico Scoccimarro
Originator: Alessinio Bellucci
Originator: Daniele Peano
Publication_Date: 2017
Title: CMCC CMCC-CM2-VHR4 model output prepared for CMIP6 HighResMIP
Geospatial_Data_Presentation_Form: netCDF files
Publication_Information:
Publication_Place: online
Publisher: Earth System Grid Federation
Online_Linkage: http://doi.org/10.22033/ESGF/CMIP6.1367
Type_of_Source_Media: online database
Source_Time_Period_of_Content:
Time_Period_Information:
Range_of_Dates/Times:
Beginning_Date: 19790101
Ending_Date: 20501231
Source_Currentness_Reference: 2021
Source_Citation_Abbreviation: CMCC
Source_Contribution:
East-west and north-south wind components and sea-ice concentrations were used as boundary conditions for the WAVEWATCHIII® model.
Source_Information:
Source_Citation:
Citation_Information:
Originator: Aurore Voldoire
Publication_Date: 2019
Title:
CNRM-CERFACS CNRM-CM6-1-HR model output prepared for CMIP6 ScenarioMIP ssp585
Geospatial_Data_Presentation_Form: netCDF files
Publication_Information:
Publication_Place: online
Publisher: Earth System Grid Federation
Online_Linkage: http://doi.org/10.22033/ESGF/CMIP6.4225
Type_of_Source_Media: online database
Source_Time_Period_of_Content:
Time_Period_Information:
Range_of_Dates/Times:
Beginning_Date: 20200101
Ending_Date: 20501231
Source_Currentness_Reference: 2021
Source_Citation_Abbreviation: CNRM projected
Source_Contribution:
East-west and north-south wind components and sea-ice concentrations were used as boundary conditions for the WAVEWATCHIII® model.
Source_Information:
Source_Citation:
Citation_Information:
Originator: Aurore Voldoire
Publication_Date: 2019
Title:
CNRM-CERFACS CNRM-CM6-1-HR model output prepared for CMIP6 CMIP historical
Geospatial_Data_Presentation_Form: netCDF files
Publication_Information:
Publication_Place: online
Publisher: Earth System Grid Federation
Online_Linkage: http://doi.org/10.22033/ESGF/CMIP6.4067
Type_of_Source_Media: online database
Source_Time_Period_of_Content:
Time_Period_Information:
Range_of_Dates/Times:
Beginning_Date: 19790101
Ending_Date: 20141231
Source_Currentness_Reference: 2021
Source_Citation_Abbreviation: CNRM historical
Source_Contribution:
East-west and north-south wind components and sea-ice concentrations were used as boundary conditions for the WAVEWATCHIII® model.
Source_Information:
Source_Citation:
Citation_Information:
Originator: EC-Earth Consortium (EC-Earth)
Publication_Date: 2018
Title:
EC-Earth-Consortium EC-Earth3P-HR model output prepared for CMIP6 HighResMIP
Geospatial_Data_Presentation_Form: netCDF files
Publication_Information:
Publication_Place: online
Publisher: Earth System Grid Federation
Online_Linkage: https://doi.org/10.22033/ESGF/CMIP6.2323
Type_of_Source_Media: online database
Source_Time_Period_of_Content:
Time_Period_Information:
Range_of_Dates/Times:
Beginning_Date: 19790101
Ending_Date: 20501231
Source_Currentness_Reference: 2021
Source_Citation_Abbreviation: EC-Earth
Source_Contribution:
East-west and north-south wind components and sea-ice concentrations were used as boundary conditions for the WAVEWATCHIII® model.
Source_Information:
Source_Citation:
Citation_Information:
Originator: Huan Guo
Originator: Jasmin G. John
Originator: Chris Blanton
Originator: Colleen McHugh
Originator: Serguei Nikonov
Originator: Aparna Radhakrishnan
Originator: Kristopher Rand
Originator: Niki T. Zadeh
Originator: V. Balaji
Originator: Jeff Durachta
Originator: Christopher Dupuis
Originator: Raymond Menzel
Originator: Thomas Robinson
Originator: Seth Underwood
Originator: Hans Vahlenkamp
Originator: Krista A. Dunne
Originator: Paul P.G. Gauthier
Originator: Paul Ginoux
Originator: Stephen M. Griffies
Originator: Robert Hallberg
Originator: Matthew Harrison
Originator: William Hurlin
Originator: Pu Lin
Originator: Sergey Malyshev
Originator: Vaishali Naik
Originator: Fabien Paulot
Originator: David J. Paynter
Originator: Jeffrey Ploshay
Originator: Daniel M. Schwarzkopf
Originator: Charles J. Seman
Originator: Andrew Shao
Originator: Levi Silvers
Originator: Bruce Wyman
Originator: Xiaoqin Yan
Originator: Yujin Zeng
Originator: Alistair Adcroft
Originator: John P. Dunne
Originator: Isaac M. Held
Originator: John P. Krasting
Originator: Larry W. Horowitz
Originator: Chris Milly
Originator: Elena Shevliakova
Originator: Michael Winton
Originator: Ming Zhao
Originator: Rong Zhang
Publication_Date: 2018
Title: NOAA-GFDL GFDL-CM4 model output prepared for CMIP6 ScenarioMIP
Geospatial_Data_Presentation_Form: netCDF files
Publication_Information:
Publication_Place: online
Publisher: Earth System Grid Federation
Online_Linkage: https://doi.org/10.22033/ESGF/CMIP6.9242
Type_of_Source_Media: online database
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Source_Citation_Abbreviation: GFDL wind and projected sea-ice concentrations
Source_Contribution:
East-west and north-south wind components and sea-ice concentrations were used as boundary conditions for the WAVEWATCHIII® model.
Source_Information:
Source_Citation:
Citation_Information:
Originator: John Kennedy
Originator: Holly Titchner
Originator: Nick Rayer
Originator: Malcom Roberts
Publication_Date: 2017
Title: input4MIPs.MOHC.SSTsAndSeaIce.HighResMIP.MOHC-HadISST-2-2-0-0-0
Geospatial_Data_Presentation_Form: netCDF files
Publication_Information:
Publication_Place: online
Publisher: Earth System Grid Federation
Online_Linkage: http://doi.org/10.22033/ESGF/input4MIPs.1221
Type_of_Source_Media: online database
Source_Time_Period_of_Content:
Time_Period_Information:
Range_of_Dates/Times:
Beginning_Date: 19790101
Ending_Date: 20141231
Source_Currentness_Reference: 2021
Source_Citation_Abbreviation: GFDL historical sea-ice concentrations
Source_Contribution:
sea-ice concentrations were used as boundary conditions for the WAVEWATCHIII® model.
Source_Information:
Source_Citation:
Citation_Information:
Originator: Malcolm Roberts
Publication_Date: 2018
Title: MOHC HadGEM3-GC31-HH model output prepared for CMIP6 HighResMIP
Geospatial_Data_Presentation_Form: netCDF files
Publication_Information:
Publication_Place: online
Publisher: Earth System Grid Federation
Online_Linkage: https://doi.org/10.22033/ESGF/CMIP6.445
Type_of_Source_Media: online database
Source_Time_Period_of_Content:
Time_Period_Information:
Range_of_Dates/Times:
Beginning_Date: 19790101
Ending_Date: 20501231
Source_Currentness_Reference: 2021
Source_Citation_Abbreviation: HadgemHH
Source_Contribution:
East-west and north-south wind components and sea-ice concentrations were used as boundary conditions for the WAVEWATCHIII® model.
Source_Information:
Source_Citation:
Citation_Information:
Originator: Malcolm Roberts
Publication_Date: 2018
Title: MOHC HadGEM3-GC31-HM model output prepared for CMIP6 HighResMIP
Geospatial_Data_Presentation_Form: netCDF files
Publication_Information:
Publication_Place: online
Publisher: Earth System Grid Federation
Online_Linkage: https://doi.org/10.22033/ESGF/CMIP6.446
Type_of_Source_Media: online database
Source_Time_Period_of_Content:
Time_Period_Information:
Range_of_Dates/Times:
Beginning_Date: 19790101
Ending_Date: 20501231
Source_Currentness_Reference: 2021
Source_Citation_Abbreviation: HadgemHM, HadgemSST
Source_Contribution:
East-west and north-south wind components and sea-ice concentrations were used as boundary conditions for the WAVEWATCHIII® model.
Process_Step:
Process_Description:
The data are presented by geographic areas bounded by model grids which were nested within a common global grid. All process steps apply to all data and geographic areas. Download and rewriting of General Circulation Model (GCM)wind (near-surface 10-m height) and sea-ice fields. Specific GCM variants used were as follows: CMCC winds: CMCC-CM2-VHR4_hist-1950_r1i1p1f1_gn (historical time-period) and CMCC-CM2-VHR4_highres-future_r1i1p1f1_gn (projected time-period), 6-hourly, 25 km resolution, CMCC sea-ice: CMCC-CM2-VHR4_hist-1950_r1i1p1f1_gn (historical time-period) and CMCC-CM2-VHR4_highres-future_r1i1p1f1_gn (projected time-period), daily, 25 km resolution, CNRM winds: CNRM-CM6-1-HR_historical_r1i1p1f2_gr (historical time-period)and CNRM-CM6-1-HR_ssp585_r1i1p1f2_gr (projected time-period), 3-hourly, 25 km resolution, CNRM sea-ice: CNRM-CM6-1-HR_historical_r1i1p1f2_gn (historical time-period) and CNRM-CM6-1-HR_ssp585_r1i1p1f2_gn (projected time-period), daily, 25 km resolution, ECEARTH winds: EC-Earth3P-HR_hist1950_r1i1p2f1_gr (historical time-period) and EC-Earth3P-HR_highres-future_r1i1p2f1_gr (projected time-period) 3-hourly, 50 km resolution, ECEARTH sea-ice: EC-Earth3P-HR_hist1950_r1i1p2f1_gn (historical time-period) and EC-Earth3P-HR_highres-future_r1i1p2f1_gn (projected time-period), daily, 25 km resolution, GFDL winds: GFDL-CM4C192_highresSST-present_r1i1p1f1_gr3 (historical time-period) and GFDL-CM4C192_highresSST-future_r1i1p1f1_gr3 (projected time-period), 3-hourly, 50 km resolution, GFDL sea-ice: input4MIPs_SSTsAndSeaIce_HighResMIP_MOHC-HadISST-2-2-0-0-0_gn (historical time-period), GFDL-CM4_ssp585_r1i1p1f1_gr2 (projected time-period), daily, 25 km resolution; HadgemHH winds: HadGEM3-GC31-HH_hist-1950_r1i1p1f1_gn (historical time-period) and HadGEM3-GC31-HH_highres-future_r1i1p1f1_gn (projected time-period), 3-hourly, 50 km resolution. HadgemHH sea-ice: HadGEM3-GC31-HM_hist-1950_r1i1p1f1_gn (historical time-period) and HadGEM3-GC31-HM_highres-future_r1i1p1f1_gn (projected time-period), daily, 25 km resolution, HadgemHM winds: HadGEM3-GC31-HM_hist-1950_r1i1p1f1_gn (historical time-period) and HadGEM3-GC31-HM_highres-future_r1i1p1f1_gn (projected time-period), 3-hourly, 50 km resolution, HadgemHM sea-ice: HadGEM3-GC31-HM_hist-1950-r1i1p1f1_gn (historical time-period) and HadGEM3-GC31-HM_highres-future_r1i1p1f1_gn(projected time-period), daily, 25 km resolution, HadgemSST winds: HadGEM3-GC31-HM_highresSST-present_r1i1p1f1_gn (historical time-period) and HadGEM3-GC31-HM_highresSST-future_r1i1p1f1_gn (projected time-period), forced atmosphere experiment using SST/sea ice derived from CMIP5 RCP8.5, 3-hourly, 50 km resolution. HadgemSST sea-ice: HadGEM3-GC31-HM_highresSST-present_r1i1p1f1_gn (historical time-period) and HadGEM3-GC31-HM_highresSST-future_r1i1p1f1_gn (projected time-period), daily, 25 km resolution native grid. The near-surface wind fields and sea-ice cover were downloaded from ESGF CMIP6 Data Holdings (pcmdi.llnl.gov/CMIP6) in March 2021 (June 2021 for CMCC), and they were interpolated to common 3-hourly time-points and grid resolutions of 0.5 degrees for GFDL and CNRM, 0.35 degrees for Hadgem and ECEARTH, and 0.3125 degrees for CMCC. All data were written to netCDF format files ingestible by the wave model. The GCM wind and ice fields are part of the High-Resolution Model Intercomparison Project (HighResMIP, Haarsma and others, 2016). The primary goal of HighResMIP is to assess the robustness of improvements in the representation of important climate processes with weather-resolving global model resolutions, using the physical climate system only with constrained aerosol forcing (Eyring and others, 2016). The higher resolution and inclusion of more forcings and detailed physics is expected to reduce bias compared to the standard CMIP6 and CMIP5 predecessor.
Source_Used_Citation_Abbreviation:
CMCC, CNRM projected, CNRM historical, EC-Earth, GFDL wind and projected sea-ice concentrations, GFDL historical sea-ice concentrations, HadgemHH, HadgemHM, HadgemSST
Process_Date: 20210331
Process_Step:
Process_Description:
Wave model setup. The third-generation, spectral wave model WAVEWATCHIII (WW3; version 6.07.1; WAVEWATCHIII® Development Group (WW3DG), 2019) was downloaded from GitHub at https://github.com/NOAA-EMC/WW3/releases). WW3 is a ‘phase-averaged model’ that solves the random phase spectral action density balance equation for wavenumber-direction spectra based on the assumption that water depths, currents, and wave fields vary on time and spatial scales much larger than that of a single wave. This version of the model includes transitional- and shallow-water equations. Source terms for physical processes include parameterizations for wind-driven wave growth, parametrized forms for nonlinear resonant wave-wave interactions, scattering due to wave-bottom interactions, triad interactions, and dissipation due to whitecapping, bottom friction, surf-breaking, and interactions with ice. Model switches used in this study were as follows (see WW3DG, 2019 for further explanations): F90 DIST MPI OMPG OMPH PR3 UQ FLX0 LN1 ST4 STAB0 NL1 BT1 IC4 IS0 REF0 DB0 TR1 MLIM BS0 XX0 WNT1 WNX1 CRT1 CRX1 NOGRB O0 O1 O2 O3 O4 O5 O6 O7 O11 NC4. Model grids consist of one 0.5 x 0.5 degree global grid, 4 nested 10 arc-minute resolution (approximately 18 km) ‘child’ grids, and 3 nested 4 arc-minute resolution (approximately 7 km) ‘grand-child’ grids (grid, geographic coverage, resolution in arc-minutes and approximate km). The finer resolution nested grids each take inputs along their open boundaries from the increasingly coarse grids. The finest resolution wave grids (approximately 7 km) align the outer coast of Alaska, including the Aleutian Islands, and the U.S. East and West coasts, including the Gulf of Mexico, Hawai’i, and Puerto Rico. U.S. territories in the Pacific Ocean are represented by a 10 arc-minute (approximately 18 km) grid. Please see the overview image provided as part of this data release for a visual representation of the spatial grid coverage. Bathymetry and landmasks for all grids were obtained from the 1-arc-minute ETOPO1 global relief model (Amante and Eakins, 2009). In an effort to optimize model output data storage needs, more than 5000 model output points (‘savepoints’) were placed along the approximate 20m, 50m, and 100m isobaths (as derived from the ETOPO1 bathymetry), spaced approximately 10 km in the alongshore direction of all U.S. coastlines or co-located with buoys or other points of interest. Output point locations were snapped to grid points and thus are not necessarily precisely coincident with long-term buoy observation locations.
Process_Date: 20210125
Process_Step:
Process_Description:
Wave model implementation and post-processing. The WW3 model was compiled and run on two separate high-performance computing systems: the USGS Advanced Research Computing Facility, USGS Denali Supercomputer https://doi.org/10.5066/P9PSW367 and Intel Corporation for part of the projection GCMs. Computing efficiency was optimized resulting in approximately 80 hours of computation (wall-clock) time per 10-year simulation. The WW3 model was run with the spatiotemporally varying wind and ice fields, described in the first process step, applied across all model domains. Each year was run individually, with restart files from the previous year. Data from the years 1979 and 2020 are cold-start runs and hence model ‘spin-up’ is included in the approximate first week of data outputs for that year; users are cautioned on using the first weeks of data in years 1979 and 2020. Hourly time-series of bulk wave statistics were saved at each global model grid point (0.5-degree resolution) and coastal ‘savepoint’ from the nested grids (see second process_step) in the form of binary files. A post-processor script included with the WAVEWATCHIII® 6.07.01 release was used to write out select bulk parameters from the binary data files to netCDF format. The annual data files were subsequently re-written to produce netCDF files with continuous time-series spanning all years from 2020 through 2050; model depths at each of the savepoint locations were extracted from the grids and added to the final netCDF files. The data are presented for U.S. coastlines within nested model domains (grids) which correspond to the U.S. West Coast and Hawai’i (wc_4m), East Coast and Gulf of Mexico and Puerto Rico (at_4m), Alaska (ak_4m), and U.S. territories in the Pacific Ocean (ep_10m). This dataset is for the coast of Alaska.
Process_Date: 20231130
Process_Step:
Process_Description:
Wave time-series for the hindcast period were added to the existing data release of wave time-series for the projected period. Corrections were made to the metadata to fix the erroneous version description of EC-Earth projections (EC-Earth3P-HR_highres-future_r1i1p1f1_gr for wind was changed to EC-Earth3P-HR_highres-future_r1i1p2f1_gr, and EC-Earth3P-HR_highres-future_r1i1p2f1_gr was changed to and EC-Earth3P-HR_highres-future_r1i1p2f1_gn). In the previously released data files for the projection period, the global attribute description was also corrected to EC-Earth3P-HR_highres-future_r1i1p2f1_gn. Additionally, erroneous non-zero wave data in the data files for the projection period in the Arctic regions, at times when the Arctic Ocean is usually ice-covered during these times and waves in this region are not expected, were fixed. Erroneous variable datatypes were corrected.
Process_Date: 20240820
Spatial_Data_Organization_Information:
Indirect_Spatial_Reference:
Data were generated within a numerical model scheme. Refer to self-contained netCDF files for location information.
Spatial_Reference_Information:
Horizontal_Coordinate_System_Definition:
Geographic:
Latitude_Resolution: 0.0167
Longitude_Resolution: 0.0167
Geographic_Coordinate_Units: Decimal degrees
Geodetic_Model:
Horizontal_Datum_Name: WGS_1984
Ellipsoid_Name: WGS_1984
Semi-major_Axis: 6378137.0
Denominator_of_Flattening_Ratio: 298.257223563
Entity_and_Attribute_Information:
Overview_Description:
Entity_and_Attribute_Overview:
netCDF files are self-contained and attribute information may be found in the header of the file itself. The netCDF attributes for the file WavePnts_CMCC_wc_4m_Fut.nc are provided below as a sample. All attributes are the same for each file with the exception of reference to the filename, forcing file names, and max/min values.
Format:
           netcdf4
Global Attributes:
           product_name    = 'CMIP6 WW3 Extracted Station Wave Parameters'
           area            = 'West Coast 4 min wave grid'
           data_type       = 'OCO spectra 2D'
           format_version  = '1.1'
           CMIP6_Mod       = 'CMCC'
           start_date      = '2020-01-01'
           stop_date       = '2050-12-31'
           Temporal_Res    = 'hourly'
           Extracted_Files = 'cmcc.pnts.wc_4m*_tab.nc'
           author          = 'USGS, lerikson@usgs.gov'
           CMIP6_Winds     = 'CMCC-CM2-VHR4-r1i1p1f1_gn, 6-hourly, 25 km resolution'
           CMIP6_SeaIce    = ' CMCC-CM2-VHR4-r1i1p1f1_gn, daily, 25 km resolution '
Dimensions:
           time    = 271752
           station = 516
Variables:
    time
           Size:       271752x1
           Dimensions: time
           Datatype:   single
           Attributes:
                       _FillValue    = -9999
                       long_name     = 'julian day (UT)'
                       standard_name = 'time'
                       conventions   = 'Relative julian days with decimal part (as parts of the day)'
                       axis          = 'T'
                       units         = 'hours since 2020-01-01 00:00:00'
                       calendar      = 'proleptic_gregorian'
    station
           Size:       516x1
           Dimensions: station
           Datatype:   single
           Attributes:
                       _FillValue = -9999
                       long_name  = 'station id'
                       axis       = 'X'
    longitude
           Size:       516x1
           Dimensions: station
           Datatype:   single
           Attributes:
                       _FillValue    = -9999
                       long_name     = 'longitude'
                       standard_name = 'longitude'
                       globwave_name = 'longitude'
                       units         = 'degree_east'
                       valid_min     = -160.53        >                       valid_max     = -116.4        >                       content       = 'TX'
                       associates    = 'time station'
    latitude
           Size:       516x1
           Dimensions: station
           Datatype:   single
           Attributes:
                       _FillValue    = -9999
                       long_name     = 'latitude'
                       standard_name = 'latitude'
                       globwave_name = 'latitude'
                       units         = 'degree_north'
                       valid_min     = 18.167        >                       valid_max     = 49.933
                       content       = 'TX'
                       associates    = 'time station'
    depth
           Size:       516x1
           Dimensions: station
           Datatype:   single
           Attributes:
_FillValue    = -9999
long_name = 'Station Depth Below MSL' standard_name = 'station_depth' units = 'm' Convention = 'Positive Downward' valid_min = 10.8 valid_max = 5524.2 associates = 'station'
    hs
           Size:       516x271752
           Dimensions: station,time
           Datatype:   single
           Attributes:
                       _FillValue    = -9999
                       long_name     = 'spectral estimate of significant wave height'
                       standard_name = 'sea_surface_wave_significant_height'
                       globwave_name = 'significant_wave_height'
                       units         = 'm'
                       valid_min     = 2.6626e-05
                       valid_max     = 18.3988
                       content       = 'TX'
                       associates    = 'time station'
    fp
           Size:       516x271752
           Dimensions: station,time
           Datatype:   single
           Attributes:
                       _FillValue    = -9999
                       long_name     = 'peak frequency (Fp=1/Tp)'
                       standard_name = 'dominant_wave_frequency'
                       globwave_name = 'dominant_wave_frequency'
                       units         = 's-1'
                       valid_min     = 0
                       valid_max     = 0.52997
                       content       = 'TX'
                       associates    = 'time station'
    tr
           Size:       516x271752
           Dimensions: station,time
           Datatype:   single
           Attributes:
                       _FillValue    = -9999
                       long_name     = 'mean period normalised by the relative frequency'
                       standard_name = 'mean_period_normalised_by_the_relative_frequency'
                       globwave_name = 'mean period normalised by the relative frequency'
                       units         = 's'
                       valid_min     = 0
                       valid_max     = 21.8097
                       content       = 'TX'
                       associates    = 'time station'
    th1m
           Size:       516x271752
           Dimensions: station,time
           Datatype:   single
           Attributes:
                       _FillValue    = -9999
                       standard_name = 'mean_wave_direction'
                       globwave_name = 'mean_wave_direction'
                       units         = 'degree'
                       valid_min     = 0
                       valid_max     = 359.9999
                       content       = 'TX'
                       associates    = 'time station'
    th1p
           Size:       516x271752
           Dimensions: station,time
           Datatype:   single
           Attributes:
                       _FillValue    = -9999
                       long_name     = 'mean wave direction from spectral moments at spectral peak'
                       standard_name = 'dominant_wave_direction'
                       globwave_name = 'dominant_wave_direction'
                       units         = 'degree'
                       valid_min     = 0
                       valid_max     = 359.9999
                       content       = 'TX'
                       associates    = 'time station'
    sth1m
           Size:       516x271752
           Dimensions: station,time
           Datatype:   single
           Attributes:
                       _FillValue    = -9999
                       long_name     = 'directional spread from spectral moments'
                       standard_name = 'mean_wave_spreading'
                       globwave_name = 'mean_wave_spreading'
                       units         = 'degree'
                       valid_min     = 0
                       valid_max     = 81.0162
                       content       = 'TX'
                       associates    = 'time station'
    sth1p
           Size:       516x271752
           Dimensions: station,time
           Datatype:   single
           Attributes:
                       _FillValue    = -9999
                       long_name     = 'directional spread at spectral peak'
                       standard_name = 'dominant_wave_spreading'
                       globwave_name = 'dominant_wave_spreading'
                       units         = 'degree'
                       valid_min     = 0
                       valid_max     = 80.9974
                       content       = 'TX'
                       associates    = 'time station'
Entity_and_Attribute_Detail_Citation: none
Distribution_Information:
Distributor:
Contact_Information:
Contact_Organization_Primary:
Contact_Organization: U.S. Geological Survey - CMGDS
Contact_Address:
Address_Type: mailing and physical
Address: 2885 Mission Street
City: Santa Cruz
State_or_Province: CA
Postal_Code: 95060
Contact_Voice_Telephone: 1-831-427-4747
Contact_Electronic_Mail_Address: pcmsc_data@usgs.gov
Resource_Description:
The dataset consists of 14 netCDF files, seven of which contain hourly wave parameters for the years 1979 through 2014 and seven of which contain hourly wave projections for the years 2020 through 2050 at 516 output points extracted from the 4-minute nested “U.S. West Coast 4 min” grid (wc_4m; see https://polar.ncep.noaa.gov/waves/validation/). Wave parameters provided are as follows: significant wave heights (swell and seas combined), mean and peak wave periods, and mean and peak wave directions and associated spread. The motivation for providing high temporal resolution values of these variables is driven by the notion that storm impacts on coastal processes, including wave runup and erosion, are often investigated with these parameters. Each netCDF file represents results from model runs using wind forcing and sea ice boundary conditions from one Global Climate Model / General Circulation Model (GCM). Filenames follow the format: WavePnts_<GCM>_<grid>_<period>.nc where <GCM> is the abbreviated name of one of the GCMs listed above, <grid> refers to the NOAA-named model grid from which data were extracted. The common field ‘WavePnts’ is meant to indicate wave time-series at select model output points (as opposed to gridded data). <period> refers to the time-period for which data is provided where ‘His’ represents the historical time-period (1979 through 2014) and ‘Fut’ represents the projected time-period (2020 through 2050). The filename for the GFDL data includes the addition of ‘LimitedUse’ (full filename: WavePnts_GFDL_wc_4m_Fut_LimitedUse.nc) for the historical time-period to emphasize the limitations of the GFDL model results outlined in the Data Quality Information Section.
Distribution_Liability:
Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.
Standard_Order_Process:
Digital_Form:
Digital_Transfer_Information:
Format_Name: netCDF
Format_Version_Number: Python 3.7
Format_Specification: CF4
Format_Information_Content:
files contain time-series of modeled (CMCC) wave parameters for the historical time-period in standard netCDF version 4 format.
File_Decompression_Technique: No compression applied.
Transfer_Size: 4200
Digital_Transfer_Option:
Online_Option:
Computer_Contact_Information:
Network_Address:
Network_Resource_Name: https://doi.org/10.5066/P9KR0RFM
Access_Instructions:
Data can be downloaded using the Network_Resource_Name links and then scrolling down to the appropriate Wave Data section.
Digital_Form:
Digital_Transfer_Information:
Format_Name: netCDF
Format_Version_Number: Python 3.7
Format_Specification: CF4
Format_Information_Content:
files contain time-series of modeled (CMCC) wave parameters for the projected time-period in standard netCDF version 4 format.
File_Decompression_Technique: No compression applied.
Transfer_Size: 3600
Digital_Transfer_Option:
Online_Option:
Computer_Contact_Information:
Network_Address:
Network_Resource_Name: https://doi.org/10.5066/P9KR0RFM
Access_Instructions:
Data can be downloaded using the Network_Resource_Name links and then scrolling down to the appropriate Wave Data section.
Digital_Form:
Digital_Transfer_Information:
Format_Name: netCDF
Format_Version_Number: Python 3.7
Format_Specification: CF4
Format_Information_Content:
files contain time-series of modeled (CNRM) wave parameters for the historical time-period in standard netCDF version 4 format.
File_Decompression_Technique: No compression applied.
Transfer_Size: 4200
Digital_Transfer_Option:
Online_Option:
Computer_Contact_Information:
Network_Address:
Network_Resource_Name: https://doi.org/10.5066/P9KR0RFM
Access_Instructions:
Data can be downloaded using the Network_Resource_Name links and then scrolling down to the appropriate Wave Data section.
Digital_Form:
Digital_Transfer_Information:
Format_Name: netCDF
Format_Version_Number: Python 3.7
Format_Specification: CF4
Format_Information_Content:
files contain time-series of modeled (CNRM) wave parameters for the projected time-period in standard netCDF version 4 format.
File_Decompression_Technique: No compression applied.
Transfer_Size: 3600
Digital_Transfer_Option:
Online_Option:
Computer_Contact_Information:
Network_Address:
Network_Resource_Name: https://doi.org/10.5066/P9KR0RFM
Access_Instructions:
Data can be downloaded using the Network_Resource_Name links and then scrolling down to the appropriate Wave Data section.
Digital_Form:
Digital_Transfer_Information:
Format_Name: netCDF
Format_Version_Number: Python 3.7
Format_Specification: CF4
Format_Information_Content:
files contain time-series of modeled (ECEARTH) wave parameters for the historical time-period in standard netCDF version 4 format.
File_Decompression_Technique: No compression applied.
Transfer_Size: 4200
Digital_Transfer_Option:
Online_Option:
Computer_Contact_Information:
Network_Address:
Network_Resource_Name: https://doi.org/10.5066/P9KR0RFM
Access_Instructions:
Data can be downloaded using the Network_Resource_Name links and then scrolling down to the appropriate Wave Data section.
Digital_Form:
Digital_Transfer_Information:
Format_Name: netCDF
Format_Version_Number: Python 3.7
Format_Specification: CF4
Format_Information_Content:
files contain time-series of modeled (ECEARTH) wave parameters for the projected time-period in standard netCDF version 4 format.
File_Decompression_Technique: No compression applied.
Transfer_Size: 3600
Digital_Transfer_Option:
Online_Option:
Computer_Contact_Information:
Network_Address:
Network_Resource_Name: https://doi.org/10.5066/P9KR0RFM
Access_Instructions:
Data can be downloaded using the Network_Resource_Name links and then scrolling down to the appropriate Wave Data section.
Digital_Form:
Digital_Transfer_Information:
Format_Name: netCDF
Format_Version_Number: Python 3.7
Format_Specification: CF4
Format_Information_Content:
files contain time-series of modeled (GFDL) for the historical time-period wave parameters in standard netCDF version 4 format.
File_Decompression_Technique: No compression applied.
Transfer_Size: 4200
Digital_Transfer_Option:
Online_Option:
Computer_Contact_Information:
Network_Address:
Network_Resource_Name: https://doi.org/10.5066/P9KR0RFM
Access_Instructions:
Data can be downloaded using the Network_Resource_Name links and then scrolling down to the appropriate Wave Data section.
Digital_Form:
Digital_Transfer_Information:
Format_Name: netCDF
Format_Version_Number: Python 3.7
Format_Specification: CF4
Format_Information_Content:
files contain time-series of modeled (GFDL) for the projected time-period wave parameters in standard netCDF version 4 format.
File_Decompression_Technique: No compression applied.
Transfer_Size: 3600
Digital_Transfer_Option:
Online_Option:
Computer_Contact_Information:
Network_Address:
Network_Resource_Name: https://doi.org/10.5066/P9KR0RFM
Access_Instructions:
Data can be downloaded using the Network_Resource_Name links and then scrolling down to the appropriate Wave Data section.
Digital_Form:
Digital_Transfer_Information:
Format_Name: netCDF
Format_Version_Number: Python 3.7
Format_Specification: CF4
Format_Information_Content:
files contain time-series of modeled (HadgemHH) wave parameters for the historical time-period in standard netCDF version 4 format.
File_Decompression_Technique: No compression applied.
Transfer_Size: 4200
Digital_Transfer_Option:
Online_Option:
Computer_Contact_Information:
Network_Address:
Network_Resource_Name: https://doi.org/10.5066/P9KR0RFM
Access_Instructions:
Data can be downloaded using the Network_Resource_Name links and then scrolling down to the appropriate Wave Data section.
Digital_Form:
Digital_Transfer_Information:
Format_Name: netCDF
Format_Version_Number: Python 3.7
Format_Specification: CF4
Format_Information_Content:
files contain time-series of modeled (HadgemHH) wave parameters for the projected time-period in standard netCDF version 4 format.
File_Decompression_Technique: No compression applied.
Transfer_Size: 3600
Digital_Transfer_Option:
Online_Option:
Computer_Contact_Information:
Network_Address:
Network_Resource_Name: https://doi.org/10.5066/P9KR0RFM
Access_Instructions:
Data can be downloaded using the Network_Resource_Name links and then scrolling down to the appropriate Wave Data section.
Digital_Form:
Digital_Transfer_Information:
Format_Name: netCDF
Format_Version_Number: Python 3.7
Format_Specification: CF4
Format_Information_Content:
files contain time-series of modeled (HadgemHM) wave parameters for the historical time-period in standard netCDF version 4 format.
File_Decompression_Technique: No compression applied.
Transfer_Size: 4200
Digital_Transfer_Option:
Online_Option:
Computer_Contact_Information:
Network_Address:
Network_Resource_Name: https://doi.org/10.5066/P9KR0RFM
Access_Instructions:
Data can be downloaded using the Network_Resource_Name links and then scrolling down to the appropriate Wave Data section.
Digital_Form:
Digital_Transfer_Information:
Format_Name: netCDF
Format_Version_Number: Python 3.7
Format_Specification: CF4
Format_Information_Content:
files contain time-series of modeled (HadgemHM) wave parameters for the projected time-period in standard netCDF version 4 format.
File_Decompression_Technique: No compression applied.
Transfer_Size: 3600
Digital_Transfer_Option:
Online_Option:
Computer_Contact_Information:
Network_Address:
Network_Resource_Name: https://doi.org/10.5066/P9KR0RFM
Access_Instructions:
Data can be downloaded using the Network_Resource_Name links and then scrolling down to the appropriate Wave Data section.
Digital_Form:
Digital_Transfer_Information:
Format_Name: netCDF
Format_Version_Number: Python 3.7
Format_Specification: CF4
Format_Information_Content:
files contain time-series of modeled (HadgemSST) wave parameters for the historical time-period in standard netCDF version 4 format.
File_Decompression_Technique: No compression applied.
Transfer_Size: 4200
Digital_Transfer_Option:
Online_Option:
Computer_Contact_Information:
Network_Address:
Network_Resource_Name: https://doi.org/10.5066/P9KR0RFM
Access_Instructions:
Data can be downloaded using the Network_Resource_Name links and then scrolling down to the appropriate Wave Data section.
Digital_Form:
Digital_Transfer_Information:
Format_Name: netCDF
Format_Version_Number: Python 3.7
Format_Specification: CF4
Format_Information_Content:
files contain time-series of modeled (HadgemSST) wave parameters for the projected time-period in standard netCDF version 4 format.
File_Decompression_Technique: No compression applied.
Transfer_Size: 3600
Digital_Transfer_Option:
Online_Option:
Computer_Contact_Information:
Network_Address:
Network_Resource_Name: https://doi.org/10.5066/P9KR0RFM
Access_Instructions:
Data can be downloaded using the Network_Resource_Name links and then scrolling down to the appropriate Wave Data section.
Fees: None.
Technical_Prerequisites:
These data can be viewed with any software that reads netCDF files (such as Mathworks MATLAB™, Python, Panoply).
Metadata_Reference_Information:
Metadata_Date: 20241026
Metadata_Contact:
Contact_Information:
Contact_Organization_Primary:
Contact_Organization:
U.S. Geological Survey, Pacific Coastal and Marine Science Center
Contact_Person: PCMSC Science Data Coordinator
Contact_Address:
Address_Type: mailing and physical
Address: 2885 Mission Street
City: Santa Cruz
State_or_Province: CA
Postal_Code: 95060
Contact_Voice_Telephone: 831-427-4747
Contact_Electronic_Mail_Address: pcmsc_data@usgs.gov
Metadata_Standard_Name: Content Standard for Digital Geospatial Metadata
Metadata_Standard_Version: FGDC-STD-001-1998

This page is <https://cmgds.marine.usgs.gov/catalog/pcmsc/DataReleases/CMGDS_DR_tool/DR_P9KR0RFM/WavePnts_metadata_wc_4m.html>
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