Mostrar el registro sencillo del ítem
Impact of the ENSO phenomenon on wave variability in the Pacific Ocean for wind sea and swell waves
dc.contributor.author | Aramburo D | |
dc.contributor.author | Montoya R.D | |
dc.contributor.author | Osorio A.F. | |
dc.date.accessioned | 2023-10-24T19:25:13Z | |
dc.date.available | 2023-10-24T19:25:13Z | |
dc.date.created | 2022 | |
dc.identifier.issn | 3770265 | |
dc.identifier.uri | http://hdl.handle.net/11407/8056 | |
dc.description.abstract | Using wave data from 1960 to 1990 from the European Centre for Medium-Range Weather Forecasts (ECMWF) reanalysis ERA-40 dataset and the ERA-5 reanalysis dataset (1990–2018), this paper presents a comprehensive study on the spatial and temporal variability of wind sea wave height (Hw), swell wave height (Hsw) and mixed significant wave height (Hs) in the Pacific during the warm (El Niño) and cold (La Niña) ENSO phases. The main findings show that During DJF, the Hsw is dominated by strong winds and large waves from extratropical cyclones in the North Pacific, especially from 1960 to 1990. However, from 1990–2018 these maximum values extend into the subtropical crest of the Pacific Ocean and the southeast trade winds increase during La Niña. The annual cycle of Hw, Hsw and Hs for specific points located from the west center toward the east center along the equatorial Pacific for the analyzed decades show a strong transition in the locations of the maximum and minimum values during the year. In this sense, the eastern point is more highly influenced by the swell systems that flow from the northwest and southwest of the southern hemisphere associated with the intensification of winds during the occurrence of La Niña. It is therefore not possible to determine a single period of maximum and minimum values. During the decades of 1990–2018, the difference in swell wave height during La Niña compared to El Niño increased throughout the year compared to 1960–1990. During the 1960–1990 period, the maximum values were detected in JJA for both El Niño and La Niña in an area that extends from Perú and ends toward the eastern center of the Colombian Pacific Basin. © 2022 The Authors | eng |
dc.language.iso | eng | |
dc.publisher | Elsevier Ltd | |
dc.relation.isversionof | https://www.scopus.com/inward/record.uri?eid=2-s2.0-85140878779&doi=10.1016%2fj.dynatmoce.2022.101328&partnerID=40&md5=7e29025ddf32086c32140d84a7493e1e | |
dc.source | Dyn. Atmos. Oceans | |
dc.source | Dynamics of Atmospheres and Oceans | eng |
dc.subject | Annual cycle | eng |
dc.subject | ENSO | eng |
dc.subject | Mixed significant wave height | eng |
dc.subject | Sea | eng |
dc.subject | Swell | eng |
dc.subject | Wavelet spectrum | eng |
dc.title | Impact of the ENSO phenomenon on wave variability in the Pacific Ocean for wind sea and swell waves | eng |
dc.type | Article | |
dc.rights.accessrights | info:eu-repo/semantics/restrictedAccess | |
dc.publisher.program | Ingeniería Civil | spa |
dc.type.spa | Artículo | |
dc.identifier.doi | 10.1016/j.dynatmoce.2022.101328 | |
dc.publisher.faculty | Facultad de Ingenierías | spa |
dc.affiliation | Aramburo, D., Universidad Tecnológica del Chocó “Diego Luis Córdoba”, Grupo de Investigación en Gestión de las Ciencias, Tecnología, Ingeniería y Matemática (GESTEM+B), Grupo de Investigaciones Pedagógicas en el Área de las Matemáticas (INPEMA), Cra. 22 No 18B–10B, Quibdó, Colombia | |
dc.affiliation | Montoya, R.D., Universidad de Medellín, Grupo de Investigación en ingeniería Ingeniería Civil GICI, Grupo de investigación en Calidad del agua y Modelación Hídrica GICAMH, Universidad de Medellín, Carrera 87 N° 30 – 65, Medellín, Colombia | |
dc.affiliation | Osorio, A.F., Universidad Nacional de Colombia - Sede Medellín - Facultad de Minas - Departamento de Geociencias y Medio Ambiente - Grupo de investigación OCEANICOS, Cra.80 No. 65–223 Bloque M2, Medellín, 050041, Colombia, Center of Excellence in Marine Science, CEMARIN, Colombia | |
dc.relation.references | Allan, J., Komar, P., “Are ocean wave heights increasing in the Eastern North Pacific?” (2000) Trans. Am. Geophys. Union, 81 (47), p. 561 | |
dc.relation.references | Alves, J.-H.G.M., “Numerical modeling of ocean swell contributions to the global wind-wave climate.” (2006) Ocean Model., 11 (1-2), pp. 98-122 | |
dc.relation.references | Ancapichun, S., Garcés-Vargas, J., “Variability of the Southeast Pacific Subtropical Anticyclone and Its Impact on Sea Surface Temperature off North-Central Chile.” (2015) Cienc. Mar., 41 (1), pp. 1-20 | |
dc.relation.references | Ardhuin, F., Bertrand, C., Fabrice, C., “Observation of swell dissipation across oceans.” (2009) Geophys. Res. Lett., 36 (6), pp. 1-5 | |
dc.relation.references | Barstow, S.F., Bidlot, J.-R., Caires, S., Donelan, M.A., Drennan, W.M., Graber, H.C., Green, J.J., Measuring and analysing the directional spectrum of ocean waves (2005) Ed. COST Off. | |
dc.relation.references | Bell, R., Kirtman, B., “Seasonal forecasting of winds, waves and currents in the North Pacific.” (2018) J. Oper. Oceanogr., 11 (1), pp. 11-26 | |
dc.relation.references | Bertotti, L., Cavaleri, L., “Wind and wave predictions in the Adriatic Sea.” (2009) J. Mar. Syst., 78, pp. S227-S234 | |
dc.relation.references | Bowditch, N., “The American Practical Navigator.” (2002) Deffense Mapp. Agency Hydrogr. /Topogr., no. 9, p. 713. , http://geocenter.survey.ntua.gr/main/labs/carto/academic/persons/bnakos_site_nafp/documentation/american_practical_navigator.pdf | |
dc.relation.references | Bromirski, P.D., Cayan, D.R., Flick, R.E., “Wave spectral energy variability in the Northeast Pacific.” (2005) J. Geophys. Res. C: Oceans, 110 (3), pp. 1-15 | |
dc.relation.references | Bromirski, P.D., Cayan, D.R., Helly, J., Wittmann, P., “Wave power variability and trends across the North Pacific.” (2013) J. Geophys. Res.: Oceans, 118 (12), pp. 6329-6348 | |
dc.relation.references | Bromirski, P., Flick, E.R., Graham, N., “Ocean wave height determined from inland seismometer data: implications for investigating wave climate changes in the NE Pacific.” (1999) J. Geophys. Res., 104766 (15). , 753–20 | |
dc.relation.references | Businger, S., Yildiz, S., Robinson, T.E., “The impact of hurricane force wind fields on the north pacific ocean environment.” (2015) Weather Forecast., 30 (3), pp. 742-753 | |
dc.relation.references | Caires, S., Sterl, A., “Validation of ocean wind and wave data using triple collocation.” (2003) J. Geophys. Res., 108 (C3), p. 16 | |
dc.relation.references | Caires, S., Sterl, A., Bidlot, J.R., Graham, N., Swail, V., “Intercomparison of different wind-wave reanalyses.” (2004) J. Clim., 17 (10), pp. 1893-1913 | |
dc.relation.references | Dabuechies, I., “The wavelet transform, time-frequency localization and signal analysis.” (1990) IEEE Trans. Inf. Theory, 36 (5), pp. 961-1005 | |
dc.relation.references | Dee, D.P., Uppala, S.M., Simmons, A.J., Berrisford, P., Poli, P., Kobayashi, S., Andrae, U., “The ERA-interim reanalysis: configuration and performance of the data assimilation system.” (2011) Q. J. R. Meteorol. Soc., 137 (656), pp. 553-597 | |
dc.relation.references | Dettinger, M.D., Henry, D., “Global characteristics of stream flow seasonality and variability.” (2000) J. Hydrometeorol., 1 (4), pp. 289-310 | |
dc.relation.references | Dobrynin, M., Murawsky, J., Yang, S., “Evolution of the Global Wind Wave Climate in CMIP5 Experiments.” (2012) Geophys. Res. Lett., 39 (17), pp. 2-7 | |
dc.relation.references | Zheng, C.W., Li, C.Y., Analysis of Temporal and Spatial Characteristics of Waves in the Indian Ocean Based on ERA-40 Wave ReanalysiS (2017) Appl. Ocean Res., 63, pp. 217-228 | |
dc.relation.references | Durrant, T., Greenslade, D., Hemer, M., Trenham, C., “A Global Wave Hindcast Focussed on the Central and South Pacific (2014), http://www.cawcr.gov.au/technical-reports/CTR_070.pdf, ” CAWCR Technical Report No. 070, 54 pages | |
dc.relation.references | Eichler, T.P., Gottschalck, J., “A Comparison of Southern Hemisphere Cyclone Track Climatology and Interannual Variability in Coarse-Gridded Reanalysis Datasets.” (2013) Adv. Meteorol., p. 2013 | |
dc.relation.references | Elsayed, M., “An overview of wavelet analysis and its application to ocean wind waves.” (2010) J. Coast. Res., 26 (3), pp. 535-540 | |
dc.relation.references | Fan, Y., Lin, S.J., Griffies, S.M., Hemer, M.A., “Simulated global swell and wind-sea climate and their responses to anthropogenic climate change at the end of the twenty-first century.” (2014) J. Clim., 27 (10), pp. 3516-3536 | |
dc.relation.references | Franchi, I., Jesús, S., Alfonso, Z., “Procedure for Access to the ERS and ENVISAT Mission Data through the ESA Portal and the Interactive Tool EOLI-SA.” (2017) Rev. Ing. UC, 24 (2), pp. 269-278 | |
dc.relation.references | Fu, L.-L., Christensen, E.J., Yamarone, C.A., Lefebvre, M., Ménard, Y., Dorrer, M., Escudier, P., “TOPEX–POSEIDON Mission Overview.” (1994) J. Geophys. Res., 99 (C12), pp. 24369-24381 | |
dc.relation.references | Gao, H., Liang, B., Shao, Z., “A global climate analysis of wave parameters with a focus on wave period from 1979 to 2018.” (2021) Appl. Ocean Res., 111 (February) | |
dc.relation.references | Godoi, V.A., Bryan, K.R., Gorman, R.M., “Regional influence of climate patterns on the wave climate of the Southwestern Pacific: The New Zealand Region.” (2016) J. Geophys. Res. Oceans, 121, pp. 1-21 | |
dc.relation.references | Gulev, S.K., Grigorieva, V., “Variability of the Winter Wind Waves and Swell in the North Atlantic and North Pacific as Revealed by the Voluntary Observing Ship Data.” (2006) J. Clim., 19 (21), pp. 5667-5685 | |
dc.relation.references | Gulev, S.K., Grigorieva, V., Sterl, A., Woolf, D., “Assessment of the Reliability of Wave Observations from Voluntary Observing Ships: Insights from the Validation of a Global Wind Wave Climatology Based on Voluntary Observing Ship Data.” (2003) J. Geophys. Res., 108, pp. 1-21 | |
dc.relation.references | Hegermiller, C.A., Rueda, A., Erikson, L.H., Barnard, P.L., Antolinez, J.A., Mendez, F.J., “Controls of multimodal wave conditions in a complex coastal setting.” (2017) Geophys. Res. Lett., 44 (24), pp. 12315-12323 | |
dc.relation.references | Hemer, M.A., Church, J.A., Hunter, J.R., “Variability and trends in the directional wave climate of the Southern Hemisphere.” (2010) Int. J. Climatol., 30 (4), pp. 475-491 | |
dc.relation.references | Hemer, M., Katzfey, J., Hotan, C., (2011) “Wind-Wave Clim. Pac. Ocean.” Rep. Pac. Adapt. Strategy Assist. Program Dep. Clim. Change Energy Effic., (September), p. 120 | |
dc.relation.references | Hemer, M.A., Katzfey, J., Trenham, C.E., “Global dynamical projections of surface ocean wave climate for a future high greenhouse gas emission scenario.” (2013) Ocean Model., 70, pp. 221-245 | |
dc.relation.references | Hersbach, H., Dick, L., (2016) “ERA5 Reanalysis Is. Prod. ” ECMWF Newsl., 147 (147), p. 7. , http://www.ecmwf.int/sites/default/files/elibrary/2016/16299-newsletter-no147-spring-2016.pdf | |
dc.relation.references | Jiang, H., Chen, G., “A Global View on the Swell and Wind Sea Climate by the Jason-1 Mission: A Revisit.” (2013) J. Atmos. Ocean. Technol., 30 (8), pp. 1833-1841 | |
dc.relation.references | Jiang, H., Mu, L., “Wave climate from spectra and its connections with local and remote wind climate.” (2019) J. Phys. Oceanogr., 49 (2), pp. 543-559 | |
dc.relation.references | Jiang, H., Stopa, J.E., Wang, H., Husson, R., Mouche, A., Chapron, B., Chen, G., “Tracking the attenuation and nonbreaking dissipation of swells using altimeters.” (2016) J. Geophys. Res. Oceans, 121 (5), pp. 1446-1458 | |
dc.relation.references | Jiang, H., Yang, Z., “A revisit of global wind-sea and swell climate and variability using multiplatform altimeters.” (2022) Remote Sens. Environ., 271 | |
dc.relation.references | Kako, S., Kubota, M., “Relationship between an El Niño Event and the Interannual Variability of Significant Wave Heights in the North Pacific.” (2010) Atmosphere Ocean, 4 (44), p. 20 | |
dc.relation.references | Li, N., Fai, K., Stopa, J.E., Hsiao, F., Chen, Y.-L., Vega, L., Cross, P., “Thirty-four years of hawaii wave hindcast from downscaling of climate forecast system reanalysis.” (2016) Ocean Model., 100, pp. 78-95 | |
dc.relation.references | Liu, P.C., Babanin, A.V., “Using wavelet spectrum analysis to resolve breaking events in the wind wave time series.” (2004) Ann. Geophys., 22 (10), pp. 3335-3345 | |
dc.relation.references | Mclnnes, K.L., Erwin, T.A., Bathols, J.M., (2011) “Global Clim. Model Proj. Chang. 10 M. Wind Speed Dir. Anthropog. Clim. Change”, 333 (May), pp. 325-333 | |
dc.relation.references | Menéndez, M., Méndez, F.J., Losada, I.J., Graham, N.E., “Variability of Extreme Wave Heights in the Northeast Pacific Ocean Based on Buoy Measurements.” (2008) Geophys. Res. Lett., 35 (22), pp. 1-6 | |
dc.relation.references | Montoya, R.D., Osorio, A.F., “Methodology to Correct Wind Speed during Average Wind Conditions: Application to the Caribbean Sea.” (2014) J. Atmos. Ocean. Technol., 31 (9), pp. 1922-1945 | |
dc.relation.references | Morales, A.D., “Análisis de Las Condiciones Oceanográficas y Meteorológicas de La Bahía de Tumaco y Su Relación Con Eventos de Escala Global.” (2003) Bol. Científico CCCP, 9 (9), pp. 1-21 | |
dc.relation.references | Murphy, B.F., Power, B.S., Mcgree, S., “The Varied Impacts of El Niño-Southern Oscillation on Pacific Island Climates.” (2014) J. Clim., 27 (11), pp. 4015-4036 | |
dc.relation.references | Odériz, I., Silva, R., Mortlock, T.R., Mori, N., “ENSO impacts on global wave climate and potential coastal hazards.” (2020) JGR Oceans, 125 (12) | |
dc.relation.references | Portilla, J., Caicedo, A.L., Padilla-Hernández, R., Cavaleri, L., “Spectral wave conditions in the Colombian Pacific Ocean.” (2015) Ocean Model., 92, pp. 149-168 | |
dc.relation.references | Portilla, J., Ocampo-Torres, F.J., Monbaliu, J., “Spectral Partitioning and Identification of Wind Sea and Swell.” (2009) J. Atmos. Ocean. Technol., 26 (1), pp. 107-122 | |
dc.relation.references | Ruggiero, P., Komar, P.D., Allan, J.C., “Increasing Wave Heights and Extreme Value Projections: The Wave Climate of the U.S. Pacific Northwest.” (2010) Coast. Eng., 57 (5), pp. 539-552 | |
dc.relation.references | Sasaki, W., (2014) “Changes North Pac. Wave Clim. -1990s,”, pp. 1-7 | |
dc.relation.references | Semedo, A., “Seasonal variability of wind sea and swell waves climate along the canary current: the local wind effect.” (2018) J. Mar. Sci. Eng., 6 (1), p. 28 | |
dc.relation.references | Semedo, A., Kay, S., Rutgersson, A., Sterl, A., “A Global View on the Wind Sea and Swell Climate and Variability from ERA-40.” (2011) J. Clim., 24 (5), pp. 1461-1479 | |
dc.relation.references | Semedo, A., Weisse, R., Behrens, A., Sterl, A., Bengtsson, L., Günther, H., “Projection of global wave climate change toward the end of the twenty-first century.” (2013) J. Clim., 26 (21), pp. 8269-8288 | |
dc.relation.references | Seymour, R.J., “Evidence for changes to the northeast pacific wave climate.” (2011) J. Coast. Res., 27 (1), pp. 194-201 | |
dc.relation.references | Shimura, T., Mori, N., Mase, H., “Ocean Waves and Teleconnection Patterns in the Northern Hemisphere.” (2013) J. Clim., 26 (21), pp. 8654-8670 | |
dc.relation.references | Simmonds, I., Keay, K., “Mean Southern Hemisphere Extratropical Cyclone Behavior in the 40-Year NCEP-NCAR Reanalysis.” (2000) J. Clim., 13 (5), pp. 873-885 | |
dc.relation.references | Sreelakshmi, S., Bhaskaran, P.K., “Wind-Generated Wave Climate Variability in the Indian Ocean Using ERA-5 Dataset.” (2020) Ocean Eng., 209 (January) | |
dc.relation.references | Stephens, S.A., Ramsay, D.L., “Extreme Cyclone Wave Climate in the Southwest Pacific Ocean: Influence of the El Niño Southern Oscillation and Projected Climate Change.” (2014) Glob. Planet. Change, 123 (PA), pp. 13-26 | |
dc.relation.references | Stopa, J.E., Cheung, K.F., “Periodicity and patterns of ocean wind and wave climate.” (2014) J. Geophys. Res., Oceans, 119, pp. 2439-2461 | |
dc.relation.references | Stopa, J.E., Cheung, K.F., Tolman, H.L., Chawla, A., “Patterns and cycles in the climate forecast system reanalysis wind and wave data.” (2013) Ocean Model., 70, pp. 207-220 | |
dc.relation.references | Stronkhorst, J., Levering, A., Gerrit, H., Rangel-Buitrago, N., Appelquist, L.R., “Regional coastal erosion assessment based on global open access data: a case study for Colombia.” (2018) J. Coast. Conserv., 22, p. 12 | |
dc.relation.references | Syme, G.J., Dzidic, P., Dambacher, J.M., “Enhancing science in coastal management through understanding its role in the decision making network.” (2012) Ocean Coast. Manag., 69, pp. 92-101 | |
dc.relation.references | Thorne, L.H., Conners, M.G., Hazen, E.L., Bograd, S.J., Antolos, M., Costa, D.P., Shaffer, S.A., “Effects of El Niño-Driven Changes in Wind Patterns on North Pacific Albatrosses.” (2016) J. R. Soc. Interface, 13 (119) | |
dc.relation.references | http://www.cawcr.gov.au/publications/technicalreports.php, Trenham, Claire E., Mark A Hemer, Tom H Durrant, and Diana J M Greenslade. 2013, PACCSAP Wind-Wave Climate: High Resolution Wind-Wave Climate and Projections of Change in the Pacific Region for Coastal Hazard Assessments. CAWCR Technical Report | |
dc.relation.references | Torrence, C., Compo, G.P., “A practical guide to wavelet analysis.” (1998) Bull. Am. Meteorol. Soc., 79, pp. 61-78 | |
dc.relation.references | Ulbrich, U., Leckebusch, G.C., Pinto, J.G., “Extra-tropical cyclones in the present and future climate: a review.” (2009) Theor. Appl. Climatol., 96 (1-2), pp. 117-131 | |
dc.relation.references | Umesh, P.A., Swain, J., Balchand, A.N., “Inter-Comparison of WAM and WAVEWATCH-III in the North Indian Ocean Using ERA-40 and QuikSCAT/NCEP Blended Winds.” (2018) Ocean Eng., 164 (June), pp. 298-321 | |
dc.relation.references | Uppala, S.M., Kallberg, P.W., Simmons, A.J., Andrae, U., da Costa Bechtold, V., Fiorino, M., Gibson, J.K., “The ERA-40 Re-Analysis.” (2005) Q. J. R. Meteorol. Soc., 131, pp. 2961-3012 | |
dc.relation.references | Wandres, M., Charitha, P., Hemer, M.A., “Projected changes of the southwest australian wave climate under two atmospheric greenhouse gas concentration pathways.” (2017) Ocean Model., 117 (2008), pp. 70-87 | |
dc.relation.references | Wang, C., Fiedler, P.C., “ENSO variability and the eastern tropical pacific: a review.” (2006) Prog. Oceanogr., 69 (2-4), pp. 239-266 | |
dc.relation.references | Xu, Y., Bi, F., Song, J., He, H., “The Temporal and Spatial Variations in the Pacific Wind and Wave Fields for the Period 2002–2011.” (2017) Acta Oceanol. Sin., 36 (3), pp. 26-36 | |
dc.relation.references | Young, I.R., “Seasonal variability of the global ocean wind and wave climate.” (1999) Int. J. Climatol., 19 (9), pp. 931-950 | |
dc.relation.references | Zheng, C.-W., Wu, D., Wu, H.-L., Guo, J., Shen, C., Tian, C., Tian, X.-L., Li, C.-Y., “Propagation and Attenuation of Swell Energy in the Pacific Ocean.” (2022) Renew. Energy, 188, pp. 750-764 | |
dc.relation.references | Zheng, K., Sun, J., Guan, C., Weizeng, S., (2016) “Analysis of the Global Swell and Wind Sea Energy Distribution Using WAVEWATCH III.”, , Hindawi Publishing Corporation | |
dc.type.version | info:eu-repo/semantics/publishedVersion | |
dc.identifier.reponame | reponame:Repositorio Institucional Universidad de Medellín | |
dc.identifier.repourl | repourl:https://repository.udem.edu.co/ | |
dc.identifier.instname | instname:Universidad de Medellín |
Ficheros en el ítem
Ficheros | Tamaño | Formato | Ver |
---|---|---|---|
No hay ficheros asociados a este ítem. |
Este ítem aparece en la(s) siguiente(s) colección(ones)
-
Indexados Scopus [1632]