Observations of directional wave spectra in the Colombian Pacific

Abstract

Directional wave spectra in the Colombian Pacific have been observed systematically since 2009 by a network of four buoys owned by the Dirección General Marítima de Colombia. The data consist of estimates of the full 2D spectrum in frequency and direction obtained from the network of Triaxys wave sensors. This network is arranged along the Colombian Pacific coast at Tumaco, Gorgona, Buenaventura, and Solano locations. The buoys have been moored near the edge of the continental shelf, corresponding to water depths of about 130m. Complementary, wind data from nearby meteorological stations, and from the ECMWF model are available. In this study, the analysis emphasizes on parameters of the wave spectrum and on the different wave systems composing the local wave climate. From the analyzed data, four wave systems are clearly observed, two of them with Southwesterly origin and two with Northwesterly origin. The pairs of wave systems with similar directions are distinct because of their different typical peak frequencies, two around 0.07Hz and the other two around 0.16Hz. A fifth wave system is apparent from the data at very low frequencies and Southwesterly directions. However, its typical frequencies are near the lower cut-off limit of the instrument so the error associated to this system is difficult to assess. From the overall statistics we can say that typical wind and wave conditions in the region are found to range from low to moderate, with wave heights on the order of 1m, and wind speeds on the order of 3m/s. Specific meteorological and wave events however, may be of considerable magnitude, with wind speeds above the 10m/s, and wave heights above 2m. and mean wave periods above the 15s.

References

1. Centro de Investigaciones Oceanógraficas e Hidrográficas del Caribe. 2013. "Sistema de Medición de Parámetros Oceanográficos y de Meteorología Marina (SMPOM)". http://www.cioh.org.co/index.php/noticias-mainmenu2-677/18-oceanografoperacional/519-sistema-de-medicie-partros-oceanogrcos-y-de-meteorologmarina-smpom.
2. Gómez, J.; Guerrero, D.; Latandret, S.; Peñaranda, J.; Martínez, C.; Romero, R.; Guzmán, M. 2011. "Comportamiento del oleaje en la franja marítima Pacífico-colombiana (Tumaco, Isla Gorgona, Buenaventura y Bahía Solano) durante el período dic2011 - nov2012 a partir de datos de las boyas de oleaje direccional TRI-AXYS". Centro de Investigaciones Oceanográficas e Hidrográficas del Pacífico.
3. Shih, H. 2003. "Triaxys Directional Wave Buoy for Nearshore Wave Measurements - Test and Evaluation Plan". NOAA Technical Report NOS CO-OPS 38 Silver Spring, Maryland. http://tidesandcurrents.noaa.gov/publications/techrpt38.pdf.
4. Skey, S.; Miles, M. 1999. "Advances in buoy technology for wind/wave data collection and analysis". OCEANS "™99 MTS/IEEE, Riding the Crest into the 21st Century. http://ieeexplore.ieee.org/xpl/freeabs_all.jsp?arnumber=799716&abstractAccess=no&userType=inst, 1: 113-118.
5. Caicedo-Laurido, A.; Portilla, J.; Latandret, S. 2013. "Predicción Operacional de Oleaje en el Pacífico Colombiano". Boletín del Centro de Investigaciones Oceanógraficas e Hidrográficas de la Dirección General Marítima (inpress).
6. Tolman, H. 2009. "User manual and system documentation of WAVEWATCH-III version 3.14. NOAA / NWS / NCEP / MMAB". Technical Note 276. http://polart.ncep.noaa.gov/mmab/papers/tn276/MMAB_276.pdf: 194.
7. Portilla, J. 2012. "Storm-Source-Locating Algorithm Based on the Dispersive Nature of Ocean Swells". Avances-USFQ. http://www.usfq.edu.ec/Publicaciones/Avances/C22-4-1-2012, 4 (1): C22-C36.
8. Simmons, A.; Uppala, S.; Dee, D.; Kobayashi, S. 2006. "ERA-Interim: new ECMWF reanalysis products from 1989 onwards". ECMWF Newsletter. http://www.ecmwf.int/publications/newsletters/pdf/110_rev.pdf, (110).
9. Kuik, A.; van Vledder, J.; Holthuijsen, L. 1988. "A method for the routine analysis of pitch -and- roll buoy wave data". J. Phys. Oceanogr. http://journals.ametsoc.org/doi/pdf/10.1175/1520-0485%281988%29018%3C1020%3AAMFTRA%3E2.0.CO%3B2, 18: 1020-1034.
10. Benoit, M.; Frigaard, P; Schaffer, H. 1997. "Analysing multidirectional wave spectra: A tentative classification of available methods". Proc. Int. Association of Hydraulic Engineering and Research: Multidirectional Waves and Their Interaction with Structures, San Francisco, CA, National Research Council of Canada: 131-157.
11. Nwogu, O. 1989. "Maximum entropy estimation of directional wave spectra from an array of wave probes". Applied Ocean Research. http://axystechnologies.com/Portals/0/Services/Technical%20Papers/techp_nwogu.pdf, 11: 176-182.
12. Smith, W.; Sandwell, D. 1997. "Global Seafloor Topography from Satellite Altimetry and Ship Depth Soundings". Science. http://www.sciencemag.org/content/vol277/issue5334/, 227: 1956-1962.
13. Schultz, D.; Bracken, E.; Bosart, L. 1998. "Planetary -and Synoptic-Scale Signatures Associated with Central American Cold". Monthly Weather Review, American Meteorological Society. http://www.dmms.ou.edu/schultz/pubs/schultzetal98.PDF, V126: 5-27.
14. Holton, J. 2004. "An Introduction to Dynamic Meteorology". Fourth Edition, International Geophysics Series, ISSN 0074-6142, Academic Press: 535.
15. Portilla, J.; Ocampo-Torres, F.; Monbaliu, J. 2009. "Spectral partitioning and identification of wind-sea and swell". J. Atmos. Oceanic Technol. http://journals.ametsoc.org/doi/abs/10.1175/2008JTE-CHO609.1, 29: 107-122.
16. Alves, H. 2006. "Numerical modeling of ocean swell contributions to the global wind-wave climate". Ocean Modelling, 11: 98-122.