Characterization of physical variables at La Escollera, a humanmade coastal lagoon in Santa Marta, Colombian Caribbean

Authors

DOI:

https://doi.org/10.25268/bimc.invemar.2020.49.2.925

Keywords:

coastal lagoons, marinas, tides, salinity, temperature

Abstract

Coastal lagoons are a focus of primary production and a refuge for biodiversity due to their relative confinement and low depth. La Escollera is a human-made coastal lagoon in El Rodadero, Santa Marta (Colombian Caribbean), excavated in the early 1980s
to hold a marina and its fringes planted with mangroves. To generate a baseline of physical variables that contribute to the understanding of water circulation and its influence on ecosystem attributes, salinity, temperature, sea level and light penetration data are routinely obtained through electronic recorders and handheld sensors. Salinity and temperature data from January 2017 to February 2018 followed the seasonal pattern of the open sea in the Santa Marta area, alternating between lower temperature (minimum of 24.6 °C) and higher salinity (maximum of 38.9) in the dry season and coastal upwelling (December to April), an between higher temperature (maximum 34.7 °C) and lower salinity (< 35) in the rainy season (May to November), with the lowest salinity values after persistent rains (minimum 15.1). The water column is generally well mixed and stratified after heavy showers in the rainy season (mixing rapidly in hours or days). This seems to be mainly due to tidal exchange with the sea, the tide oscillating from +0.37 to –0.31 m (maximum range 0.68 m [one-year
data]), and following the regular astronomical pattern of mixed tides in the Caribbean. Lagoon waters are regularly green and of varied transparency except during heavy rains, after which they become brownish. Vertical light extinction is generally high and not very variable (2-6.5 % cm-1), but the light frequently reaches the bottom, which allows the presence of benthic macroalgae in some portions of the lagoon.

Dimensions

PlumX

Visitas

562

Downloads

Download data is not yet available.

References

Álvarez-León, R., G. Ramírez-Triana y E. Wedler. 1995. Registro de las condiciones ambientales de la Laguna Sur (bahía de Chengue, Caribe colombiano) entre 1981-1984. Rev. Acad. Colomb. Cienc., 19(74): 509-525.

Barnes, R.S.K. 1980. Coastal lagoons – The natural history of a neglected habitat. Cambridge University Press, Cambridge. 105 p.

Blanco, J. 1988. Las variaciones ambientales estacionales en las aguas costeras y su importancia para la pesca en la región de Santa Marta, Caribe colombiano. Tesis M. Sc., Biol. Mar., Universidad Nacional de Colombia, Bogotá. 59 p.

Castillo, A., C. Hernández, A. Fresneda, W. Gualteros y L.S. Barbosa. 1992. Caracterización física de la laguna costera de Cocoliso, Isla Grande, Parque Nacional Corales del Rosario, Colombia: 501-511. Mem. VIII Sem. Nal. Cienc. Tecn. Mar, Cong. Centroam. Car. Cienc. Mar, Santa Marta.

Cloern, J.E., S.Q. Foster, and A.E. Kleckner. 2014. Phytoplankton primary production in the world’s estuarine-coastal ecosystems. Biogeosciences, 11: 2477-2501.

De Jonge, V.N., M. Elliot, and E. Orive. 2002. Causes, historical development, effects and future challenges of a common environmental problem: eutrophication. Hydrobiologia, 475/476: 1-19.

Duarte, C.M. and J. Cebrián. 1996. The fate of marine autotrophic production. Limnol. Oceanogr., 41(8): 1758-1766.

Elliott, J.A., A.E. Irish, and C.S. Reynolds. 2001. The effects of vertical mixing on a phytoplankton community: a modelling approach to the intermediate disturbance hypothesis. Freshw. Biol., 46: 1291-1297.

Fofonoff, P. and R.C. Millard Jr. 1983. Algorithms for computation of fundamental properties of seawater. Unesco Techn. Pap. Mar. Sci., 44. 53 p.

Foster, V., R.J. Giesler, A. Meriwether, W. Wilson, C.R. Nall, and E.J. Cook. 2016. Identifying the physical features of marina infrastructure associated with the presence of non‑native species in the UK. Mar. Biol., 163,173: 1-14. https://doi.org/10.1007/s00227-016-2941-8

Franco, A. 2005. Oceanografía de la ensenada de Gaira: El Rodadero, más que un centro turístico en el Caribe colombiano. Universidad Jorge Tadeo Lozano, Santa Marta. 58 p.

Gocke, K., E. Mancera, A. Vidal, and D. Fonseca. 2003. Planktonic primary production and community respiration in several coastal lagoons of the outer delta of the Río Magdalena, Colombia. Bol. Investig. Mar. Costeras, 32: 125-144.

Gopal, B., W.J. Junk, and J.A. Davis. (Eds.). 2000. Biodiversity in wetlands: assessment, function and conservation. Vol. 1. Backhuys Publishers, Leiden, 353 p.

Hernández, C.A. y K. Gocke. 1990. Productividad primaria en la Ciénaga Grande de Santa Marta, Colombia. An. Inst. Invest. Mar. Punta Betín, 19-20: 101-119.

Kjerfve, B. 1994. Coastal lagoons. 1-8. In: Kjerfve, B. (Ed.). Coastal lagoon processes. Elsevier, Amsterdam. 576 p.

Kjerfve, B. and K.E. Magill. 1989. Geographic and hydrodynamic characteristics of shallow coastal lagoons. Mar. Geol., 88: 187-199.

Knoppers, B. 1994. Aquatic primary production in coastal lagoons. 243-286. In: Kjerfve, B. (Ed.). Coastal lagoon processes. Elsevier, Amsterdam. 577 p.

Lončar, G., I. Bartolić, and D. Bujak. 2018. Contribution of wind and waves in exchange of seawater through flushing culverts in marinas. Tehnički vjesnik, 25(6): 1587-1594.

Lonin, S.A. y L.A. Mendoza. 1997. Evaluación hidrodinámica de las bahías Hooker e Icacos. Bol. Cient. CIOH, 18: 51-64.

Márquez, G. 1982. Los sistemas ecológicos marinos del sector adyacente a Santa Marta. Caribe colombiano. I. Generalidades. Ecol. Trop., 2(1): 5-19.

Martínez-Clavijo, S. 2013. Diagnóstico actualizado y propuestas de manejo integrado para el balneario El Rodadero, Santa Marta, Caribe colombiano. Trabajo de grado Biol. Mar., Universidad Jorge Tadeo Lozano, Santa Marta. 211 p.

Mitsch, J.W. and J.G. Gosselink. 1993. Wetlands. 2nd ed. Van Nostrand Reinhold, New York. 722 p.

Montaño-Ley, Y., R. Peraza-Vizcarra, and F. Páez-Osuna. 2008. Tidal hydrodynamics and their implications for the dispersion of effluents in Mazatlán Harbor: an urbanized shallow coastal lagoon. Water Air Soil Pollut., 194: 343-357.

Nagelkerken, I., S.J.M. Blaber, S. Bouillon, P. Green, M. Haywood, L.G. Kirton, J.O. Meynecke, J.R. Pawlik, H.M. Penrose, A. Sasekumar, and P.J. Somerfield. 2008. The habitat function of mangroves for terrestrial and marine fauna: A review. Aquat. Bot., 89: 155-185.

Nece, R.E. and R.A. Falconer. 1989. Hydraulic modelling of tidal circulation and flushing in coastal basins. Proc. Instn. Cio. Engrs, Part 1, 86: 913-935.

Niedda, M. and M. Greppi. 2007. Tidal, seiche and wind dynamics in a small lagoon in the Mediterranean Sea. Estuar. Coast. Shelf. Sci., 74: 21-30.

Parsons, T.R., M, Takahashy, and B. Hargrave. 1984. Biological oceanographic processes (3rd ed.). Pergamon Press, U.K. 330 p.

Pérez, M.E. y C.H. Victoria. 1977. Diversidad y macrofauna de la comunidad de las raíces sumergidas de mangle rojo en la bahía de Cartagena y la ciénaga de los Vásquez. Tesis Biol. Mar., Universidad Jorge Tadeo Lozano, Cartagena. 93 p.

Polanía, J., A. Santos-Martínez, J.E. Mancera-Pineda, and L. Botero Arboleda. 2001. The coastal lagoon Ciénaga Grande de Santa Marta, Colombia. 33-45. In: Seelinger, U. and B. Kjervfre (Eds.). Coastal marine ecosystems of Latin America. Springer Verlag, Berlin and Heidelberg. 366 p.

Ramírez, G. 1983. Características físico-químicas de la bahía de Santa Marta (agosto 1980-julio 1981). An. Inst. Inv. Mar. Punta de Betín, 13: 111-121.

Ramírez, G. 1990. Distribución de los nutrientes inorgánicos en las aguas costeras de la región de Santa Marta, Caribe colombiano: 244-254. Mem. VII Sem. Nal. Cienc. Tecnol. Mar, Cali.

Rodríguez-Chila, J.D., J.E. Mancera-Pineda y H.J. López-Salgado. 2009. Efectos de la recomunicación del Río Magdalena con su antiguo delta: cambios en la producción primaria fitoplanctónica y respiración en el complejo Pajarales, 1989 a 2005. Bol. Investig. Mar. Costeras, 38(2): 119-144.

Salzwedel, H. and K. Müller. 1983. A summary of meteorological and hydrological data from the Bay of Santa Marta, Colombian Caribbean. An. Inst. Invest. Mar. Punta de Betín, 13: 67-83.

Sánchez, R. y S. Zea, 2000. Metabolismo de nitrógeno y fósforo inorgánicos disueltos en la columna de agua en una laguna costera tropical (Caribe colombiano). Carib. J. Sci., 36(1-2): 127-140.

Vázquez-Botello, A., F. Contreras-Espinosa, G. De La Lanza-Espino, and S. Villanueva F. 2009. Primary production in coastal lagoons. 339-361 In: Isla, F.I. and O. Iribarne (Eds.). Coastal zones and estuaries. Encyclopedia of Life Support Systems (EOLSS), 1. Unesco, Paris. 540 p.

Velásquez-Montoya, L. and M.F. Overton. 2017. Impacts of seasonal forcings on the hydrodynamics of Oregon Inlet, NC. Coast. Dynam., 55: 1240-1250.

Zea, S., N.H. Campos y J.E. Mancera-Pineda (Eds.). 2017. Procesos ecológicos y oceanográficos en lagunas costeras: el caso de La Escollera en Santa Marta. Reconocimiento general y avances 2014-17. Unpublished report, Universidad Nacional de Colombia, sede Caribe, Santa Marta. 62 p. http://bdigital.unal.edu.co/71339/

Published

2020-12-19

How to Cite

1.
Zea S, Espada Gómez-Lor N. Characterization of physical variables at La Escollera, a humanmade coastal lagoon in Santa Marta, Colombian Caribbean. Bol. Investig. Mar. Costeras [Internet]. 2020 Dec. 19 [cited 2024 Nov. 22];49(2):25-48. Available from: http://boletin.invemar.org.co/ojs/index.php/boletin/article/view/925
سرور مجازی ایران Decentralized Exchange

Issue

Section

Research Articles
فروشگاه اینترنتی