Overview and characterization of the hydrology and primary producer communities of selected coastal lagoons of Yucatán, México
Keywords:
Phytoplankton, Submerged aquatic vegetation, Mangrove, Nutrients, Groundwater, Coastal ecosystemsAbstract
The major hydrological characteristics of the coastal lagoons of Yucatán and their relationship with the space-time pattern of the primary producer communities are described. The weather patterns in the region play an important role in the seasonal changes of nutrient inputs, which are related to the groundwater discharges. The fluctuations of the mean sea level in response to freshwater discharges and frontal systems influenced the differences observed in the residence time of water, which could play an important role in the accumulation of toxic substances from sewage discharges and biological metabolism. The spatial distribution of primary producers was heterogeneous with high biomass production in the middle zone of the lagoons. The dominant group in each system changed seasonally in response to the coupling between external forces and their life cycles; however, the submerged macrophytes might be the principal group in these shallow aquatic ecosystems. The mangrove vegetation experienced strong differences in their structural development which could be used as a signal of the impacts observed in the area. Though there is no river in the region, the mangrove vegetation was well represented in the North Coast and irregular freshwater inputs favored the dispersion of this community. However, because the seasonality of these freshwater inputs did not show a better structure, their contribution to total primary production should be limited in some areas to a specific period of the year. The heterogeneity observed in the hydrology and primary producer communities suggested a high diversity and the existence of different food webs that offer various potential uses. However, for adequate management polices, these uses must be planned considering the space-time pattern of the hydrology and primary producers.
References
Almanza, R. and López, S. 1978. Total solar radiation in Mexico using sunshine hours and meteorological data. Solar Energy, 21: 441–448.
Ayala, J. 1982. “Estudio de la contaminación por coliformes fecales en el Estero de Celestún Yucatán”. In Previo al inicio de un cultivo ostricola, 60–60. México: Fac. Química. Uni. de Yucatán. Tesis Profesional.
Baeza, M.L. 1993. Determinación de metales pesados en ostiones (Crassostrea virginica) y sedimentos en tres Lagunas costeras de Tabasco, México, 50–50. UADY, Facultad de Química. Tesis de Licenciatura.
Barrios-Espino, G.R. 1988. Aspects of the ecology of the Caribbean flamingo (Phoenicopterus ruber ruber) in Yucatán, Mexico, 65–65. Auburn University. MSc. Thesis
Brown, S. and Lugo, A.E. 1982. “A comparison of structural and functional characteristics of saltwater and freshwater forested wetlands”. In National Institute of Ecology and International Scientific Publications Edited by: Gopal, P., Turner, R.E., Wetzel, R.G. and Whigham, D.F. 109–130. In
Butterlin, J. 1958. Reconocimiento Geológico del Territorio de Quintana Roo. Boletín de la Asociación Mexicana de Geológos Petroleros, 3: 531–570.
Cintrón, G.A., Lugo, A.E., Pool, E. and Morris, G. 1978. Mangroves of arid environments in Puerto Rico and adjacent islands. Biotropica, 10: 110–121.
Comin, F.A., Herrera-Silveira, J.A. and Martin, M. 1997. Flamingo footsteps enhance nutrient release from the sediment to the water column. Wetlands International Publication, 43: 211–227.
Contreras, E.F. 1993. Ecosistemas Costeros Mexicanos, 415–415. CONABIO-UAM Iztapalapa.
Day, J.W., Day, R.H., Barreiro, M.T., Ley-Lou, F. and Madden, C.J. 1982. Primary production in Laguna de Terminos, a tropical estuary in the Southern Gulf of Mexico. Oceanologica Acta. Spec., 5: 269–276.
Duarte, C.M. 1989. Biomass seasonality and production-biomass relationships of marineangiosperm communities. Mar. Ecol. Prog. Ser., 51: 269–276.
Duarte, C.M. 1995. Submerged aquatic vegetation in relation to different nutrient regimes. Ophelia, 41: 87–112.
Flores-Verdugo, F.J., Day, J.W. Jr and Briseño-Dueñas, R. 1987. Structure, litter fall, decomposition and detritus dynamics of mangrove in a Mexican coastal lagoon with an ephemeral inlet. Mar. Ecol. Prog. Ser., 35: 83–90.
Flores-Verdugo, F., Day, J.W., Mee, L. and Briceño, R. 1988. Phytoplankton production and seasonal biomass variation of seagrass, Ruppia maritima L. in a tropical Mexican Lagoon with an ephemeral inlet. Estuaries, 11(1): 51–56.
Flores-Verdugo, F., Gonzalez-Frias, F., Flores-Ramírez, O., Amescua-Linares, F., Yañez-Arancibia, A., Alvarez-Rubio, M. and Day, J.W. 1990. Mangrove ecology, aquatic primary productivity and fish community dynamics in the Teacapán-Agua Brava lagoon-estuarine system (Mexican Pacific). Estuaries, 13(2): 219–230.
Franco-López, J., De la Cruz, G., Cruz, A., Rocha, A., Navarrete, N. and Mar‡inez, G., eds. 1985. Manual de Ecología, 266–266. México: Trillas.
Guelorget, O. and Perthuisot, J.P. 1992. Paralic ecosystems, biological organization and functioning. Vie et Milieu, 42(2): 215–251.
Herrera-Silveira, J.A. 1993. “Ecologia de los Productores Primarios en la Laguna de Celestún, México”. In Patrones de variación espacial y temporal, 233–233. Spain: Universidad de Barcelona. Ph. D. Dissertation.
Herrera-Silveira, J.A. 1994 a. Spatial heterogeneity and seasonal patterns in a tropical coastal lagoon. J. Coastal Res., 10(3): 738–746.
Herrera-Silveira, J.A. 1994b. Phytoplankton productivity and submerged macrophytes biomass variation in a tropical coastal lagoon with groundwater discharge. Viet Milieu, 44(3/4): 257–266.
Herrera-Silveira, J.A. 1994 c. Nutrients from underground discharges in a coastal lagoon Celestún, Yucatán, México. Verh. Internat. Verein. Limnol., 25: 1398–1401.
Herrera-Silveira, J.A. and Comin, F.A. 1995. Nutrient fluxes in a tropical coastal lagoon. Ophelia, 42: 127–146.
Herrera-Silveira, J.A., Ramírez, J.R. and Sánchez, D. 1995 a. Lagunas costeras de Yucatán. Avance y Perspectiva, 14: 219–230.
Herrera-Silveira, J.A., Comín, F.A., Ramírez, J.R., Soto, J., Sánchez-Argëlles, D., Pérez, E., Real, E. and Sánchez, I. 1995b. Biodiversidad de productores primarios de lagunas costeras del Norte de Yucatán 60–60. México Informe Final CONABIO Ref: B019
Herrera-Silveira, J.A. and Ramírez, J.R. 1996. Effects of natural phenolic material (tannin) on phytoplankton growth. Limnol. Oceanogr., 41(5): 1018–1023.
Holdridge, L.R., Grenke, W.C., Hataway, W.H. and Liang, L.J. 1971. Forest environments in tropical life zones, a pilot study, New York: Pergamon Press.
Hutchinson, G.E. 1957. A Treatise on Limnology, vol. I. Geography, Physics and Chemistry, New York: Wiley.
Jeffrey, S.W. and Humphrey, G.F. 1975. New spectrophotometric equation for determining chlorophylls a, b, c1 and c2 in higher plants, algae and natural phytoplankton. Bioch. Physiol. Pflanzen, 167: 191–194.
Kjerfve, B. 1986. “Comparative oceanography of coastal lagoons”. In Estuarine Variability, Edited by: Wolfe, D.A. 63–81. New York: Academic Press. In
Kjerfve, B., ed. 1994. Coastal Lagoons Processes, Amsterdam: Elsevier.
Lee, K-H., Moran, M.A., Benner, R. and Hodson, R.E. 1990. Influence of soluble components of red mangrove (Rhizophora mangle) leaves on microbial decomposition of structural (lignocellulosic) leaf components in seawater. Bull. Mar. Sci., 42(2): 374–386.
Lóez-Ramos, E. 1974. Estudio geológico de la Península de Yucatán. Boletín de la Asociación Mexicana de Geólodos Petroleros, XxvV: 715–726.
Magurran, A.E. 1988. Ecological Diversity and its Measurement, Princeton, NJ: Princeton University Press.
Marín, L.E. and Perry, E.C. 1994. The hydrogeology and contamination potential of northwestern Yucatán, México. Geofísica Internacional, 33(4): 619–623.
Morgan, M.D. and Kitting, C.L. 1984. Productivity and utilization of the seagrass Halodule wrightii and its attached epiphytes. Limnol. Oceanogr., 29(5): 1066–1076.
Murphy, J. and Riley, J.P. 1962. Modified single solution method for the determination of phosphate in natural waters. Anal. Chem. Acta, 27: 31–36.
Ortegón, A.I. 1993. Estudio Florístico-ecológico de la Macroalgas en la Laguna de Celestún, Yucatán. Lic. Biología. F.M.V.Z, 161–161. México: Univ. de Yucatán.
Parsons, T.R., Maita, Y. and Lalli, C.M. 1984. A manual of Chemical and Biological Methods for Seawater Analysis, Oxford: Pergamon Press.
Quammen, M.L. and Onuf, C.P. 1993. Laguna Madre: seagrass changes continue decades after salinity reduction. Estuaries, 16: 302–310.
Randal, J.M. and Day, J.W. Jr. 1987. Effects of river discharge and vertical circulation on aquatic primary production in a turbid Louisiana (USA) estuary. Neth.J. Sea Res., 21(3): 231–242.
Robles-Ramos, R. 1950. Apuntes sobre la morfología de la Península de Yucatán. Boletín de la Sociedad Mexicana de Geografía y Estadística, 69: 113–134.
Rojas-Galaviz, J.I., Yañez-Arancibia, A., Day, J.W. Jr and Vera-Herrera, F.R. 1992. “Estuarine primary producers: Laguna de Terminos — a case study”. In Coastal Plant Communities of Latin America, Edited by: Seeliger, U. 141–153. New York: Academic Press. In
Sánchez-Argüelles, D. 1994. Comparación estructural de la comunidad de manglar en dos sistemas lagunares costeros del Estadode Yucatán. Lic. Biología. F.M.V.Z., 99–99. México: Univ. de Yucatán.
Sandoval-Rojo, L.C., Flores-Verdugo, F., Zaragoza, A.U., Day, J.W. Jr and Mercado, A.E. 1988. Phytoplankton productivity in the Barra Navidad coastal lagoon on the Pacific coast of Mexico. Rev. Hydrobiol. Trop., 21(2): 101–108.
S.A.R.H. (Secretaria de Agricultura y Recursos Hidráulicos). 1989. Datos climatológicos del Norte de Yucatán 18–18. Reporte Anual
S.A.R.H. 1991. “Datos climatológicos del Norte de Yucatán”. In Secretaria de Agricultura y Recursos Hidráulicos 29–29. Reporte Anual
Sand-Jensen, K. and Borum, J. 1991. Interactions among phytoplankton, periphyton and macrophytes in temperate freshwaters and estuaries. Aquat. Bot., 41: 137–175.
Solorzano, L. 1969. Determination of ammonia in natural water by the phenolhypochlorite method. Limnol. Oceanogr., 14: 799–801.
Strickland, J.D.H. and Parsons, T.R. 1972. A Practical Handbook of Seawater Analysis, 2nd ed., Ottawa: Fish. Res. Board of Canada Bull..
Trejo, F.A. 1986. Estudio de la vegetación de manglar de la zona costera inundable de la laguna de Celestún, Yucatán, México, 29–29. Universidad Autónoma Metropolitana-Iztapalapa. Reporte de Servicio Social
Trejo, J. 1988. Estudio del sistema CO2-Carbonatos en la laguna de Celstún Yucatán 65–65. Tesis de Meastria, CINVESTAV-IPN Unidad Mérida
Twilley, R.R., Chen, R., Lawton, L., Rivera-Monroy, V., Foret, J. and Pelgri, S. Biogeochemistry of mangroves along the Shark River Slough, Florida. Estuarine Research Federation Biennual Meeting. November 1995, Corpus Christi. pp.745–745.
Valdés, L.D. 1994. Flujos de amonio, nitrito, nitrato y fosfato a través de la interfase sedimento-agua, en una laguna tropical. Ciencias Marinas, 20(1): 65–80.
Valdés, L.D. 1995. Procesos que regulan el nitrogeno inorganico y variaciones estacionales de la hidrologia en la laguna de Chelem, Yucatán 198–198. Tesis Doctoral, UNAM. CCH
Vannuci, M. 1969. “What is known about potential of coastal lagoons”. In Lagunas costeras un simposio. Mem. Simp. Inter. Lagunas Costeras, 601–620. México, D.F.: UNAM-UNESCO. In
Vollenweider, R.A. 1974. “Phytoplankton”. In A Manual on Methods for Measuring Primary Production in Aquatic Environments, IBP Handbook no. 12 Edited by: Vollenweider, R.A. 157–177. London: Blackwell. In
Westlake, D.F. 1974. “Macrophytes”. In A Manual of Methods for Measuring Primary Production in Aquatic Environments, IBP Handbook no. 12, Edited by: Vollenweider, R.A. 32–41. London: Blackwell. In
Wetzel, R.G. 1965. Techniques and problems of primary productivity measurements in higher aquatic plants and periphyton. Mem. 1st. Ital. Hidrobiol., 18: 249–267.
Wium-Andersen, S., Anthoni, U., Christophersen, C. and Houen, G. 1982. Allelopathic effects on phytoplankton by substances isolated from aquatic macrophytes (Charales). Oikos, 39: 187–190.
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