Hostname: page-component-848d4c4894-sjtt6 Total loading time: 0 Render date: 2024-06-28T23:27:09.573Z Has data issue: false hasContentIssue false
  • English
  • Français

Epiphytic diatoms of Thalassia testudinum (Hydrocharitaceae) from the Mexican Caribbean

Published online by Cambridge University Press:  19 September 2013

Francisco Omar López-Fuerte ,
David A. Siqueiros-Beltrones  and
Oscar U. Hernández-Almeida
Francisco Omar López-Fuerte*
Affiliation:
Universidad Autónoma de Baja California Sur, Departamento de Economía, Laboratorio de Sistemas Arrecifales, Carretera al Sur km 5.5, C.P. 23080, La Paz, B.C.S., México
David A. Siqueiros-Beltrones
Affiliation:
Centro Interdisciplinario de Ciencias Marinas-IPN, Departamento de Plancton y Ecología Marina, La Paz, B.C.S., México
Oscar U. Hernández-Almeida
Affiliation:
Laboratorio de Producción Primaria, CINVESTAV-IPN, Unidad Mérida, Carretera Antigua a Progreso Km 6, C.P. 97310, Mérida, Yucatán, México
*
Correspondence should be addressed to: F.O. López-Fuerte, Universidad Autónoma de Baja California Sur, Departamento Académico de Economía, Carretera al Sur km 5.5, La Paz, B.C.S., México email: folopez@uabcs.mx
Get access

Abstract

The first list of epiphytic diatom species on the seagrass Thalassia testudinum from the Yalahau lagoon area in the Mexican Caribbean is given. One hundred and seven diatom taxa living on T. testudinum were identified including species and varieties. Nine taxa are new records for Mexico. The Bacillariophyceae with 87 taxa were the most diverse group. The most abundant taxa were: Cocconeis lineata, Mastogloia crucicula var. crucicula, Cocconeis thalassiana, Cocconeis scutellum var. scutellum and Mastogloia ovata, representing approximately 75% of the total valve count (N = 1527). Yalahau lagoon samples from site 1 yielded a high number of rare taxa. Species richness (S), diversity (H′, 1-λ) and equitability (J′) for the lagoon were lower than for Cabo Catoche (site 2). Based on presence/absence of species, the measured similarity (60%) suggests that the diatom assemblages growing on T. testudinum in the two localities are different.

Keywords

benthic diatomsseagrassfirst recordYalahau lagoonQuintana Roo
Type
Research Article
Information
Marine Biodiversity Records , Volume 6 , 2013 , e107
Copyright
Copyright © Marine Biological Association of the United Kingdom 2013 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Clarke, K.R. and Gorley, R.N. (2001) PRIMER v5: user manual/tutorial. Primer-E. Plymouth: Plymouth Marine Laboratory.Google Scholar
Corlett, H. and Jones, B. (2007) Epiphyte communities on Thalassia testudinum from Grand Cayman, British West Indies: their composition, structure, and contribution to lagoonal sediments. Sedimentary Geology 194, 245262.CrossRefGoogle Scholar
DeFelice, D.R. and Lynts, G.W. (1978) Benthic marine diatom associations: upper Florida Bay (Florida) and associated sounds. Journal of Phycology 14, 2533.CrossRefGoogle Scholar
Foged, N. (1984) Freshwater and littoral diatoms from Cuba. Vaduz: J. Cramer. [Bibliotheca Diatomologica, Band 5.]Google Scholar
Frankovich, T.A., Gaiser, E.E., Zieman, J.C. and Wachnicka, A.H. (2006) Spatial and temporal distributions of epiphytic diatoms growing on Thalassia testudinum Banks ex Konig: relationships to water quality. Hydrobiologia 569, 259271.CrossRefGoogle Scholar
Gaiser, E.E., Wachnicka, A., Ruiz, P., Tobias, F. and Ross, M. (2005) Diatom indicators of ecosystem change in subtropical coastal wetlands. In Bortone, S.A. (ed.) Estuarine indicators. Boca Raton, FL: CRC Press, pp. 127144.Google Scholar
Huvane, J.K. (2002) Modern diatom distributions in Florida Bay: a preliminary analysis. In Porter, J.W. and Porter, K.G. (eds) The Everglades, Florida Bay, and coral reefs of the Florida Keys. Boca Raton, FL: CRC Press, pp. 479495.Google Scholar
López-Fuerte, F.O. and Siqueiros-Beltrones, D.A. (2006) Distribución y estructura de asociaciones de diatomeas en sedimentos de un sistema de manglar. Hidrobiológica 1, 2333.Google Scholar
López-Fuerte, F.O., Siqueiros-Beltrones, D.A. and Navarro, N.J. (2010) Benthic diatoms associated with mangrove environments in the Northwest region of México. Mexico: CONABIO–UABCS–CICIMAR–IPN.Google Scholar
Loza, S., Sánchez, M., Carmenate, M. and Siqueiros-Beltrones, D.A. (2011) Adición a la microflora de diatomeas de las aguas marinas de Cuba. Serie Oceanológica 8, 4752.Google Scholar
Magurran, A.E. (1988) Ecological diversity and its measurement. Princeton, NJ: Princeton University Press.CrossRefGoogle Scholar
Main, S.P. and McIntire, C.D. (1974) The distribution of epiphytic diatoms in Yaquina estuary, Oregon (USA). Botanica Marina 17, 8899.CrossRefGoogle Scholar
McIntire, C.D. and Reimer, C.W. (1974) Some marine and brackish-water Achnanthes from Yaquina Estuary, Oregon (U.S.A.). Botanica Marina 17, 164175.CrossRefGoogle Scholar
Montgomery, R.T. (1978) Environmental and ecological studies of the diatom communities associated with the coral reefs of the Florida Keys. PhD thesis. Florida State University, USA.Google Scholar
Navarro, J.N. and Hernández-Becerril, D.U. (1997) Check-list of marine diatoms from the Caribbean Sea. In Chiang, F. (ed.) Listados florísticos de México XV. Mexico D.F.: Universidad Autónoma de México, pp. 148.Google Scholar
Navarro, N.J. (1982) Marine diatoms associated with mangrove prop roots in the Indian River, Florida, USA. Vaduz: Lubretch & Cramer Ltd. [Bibliotheca Phycologica, Band 61.]Google Scholar
Olmsted, I., Durán, J.A., González-Iturbe, L., Calvo-Remolina, F. and Canela-Rojo, J. (2000) Programa de manejo del Área de Protección de Flora y Fauna Silvestre, Yum Balam. Centro de Investigaciones Científicas de Yucatán-Instituto Nacional de Ecologia-Secretaría de Medio Ambiente, Recursos Naturales y Pesca, (Final Report), 223 pp.Google Scholar
Ordoñez-López, U. and García-Hernández, V.D. (2005) Ictiofauna juvenil asociada a Thalassia testudinum en Laguna Yalahau, Quintana Roo. Hidrobiológica 2, 195204.Google Scholar
Peragallo, H. and Peragallo, M. (1897–1908) Diatomées marines de France et des Districts Maritimes Voisins. Grez-sur-Loing, France: M.J. Témpere. Google Scholar
Reyes-Vasquez, G. (1970) Studies on the diatom flora living on Thalassia testudinum König in Biscayne Bay, Florida. Bulletin of Marine Science 20, 105134.Google Scholar
Romero, O.E. and López-Fuerte, F.O. (2013) Cocconeis thalassiana sp. nov., a new alveolate diatom (Bacillariophyta) from the Mexican Caribbean. Diatom Research. doi:10.1080/0269249X.2013.797147 CrossRefGoogle Scholar
Round, F.E., Crawford, R.M. and Mann, D.G. (1990) The diatoms: biology and morphology of the genera. New York: Cambridge University Press.Google Scholar
Schmidt, A., Schmidt, M., Fricke, F., Heiden, H., Müller, O. and Hustedt, F. (1874–1959) Atlas der diatomaceenkunde. Reisland, Leipzig: Berlin Akademie-Verlag.Google Scholar
Siqueiros-Beltrones, D.A. (2002) Diatomeas bentónicas de la Península de Baja California; diversidad y potencial ecológico. La Paz, Mexico: IPN–CICIMAR–U.A.B.C.S.Google Scholar
Siqueiros-Beltrones, D.A. (2006) Diatomeas bentónicas asociadas a trombolitos recientes registrados por primera vez en México. CICIMAR Oceánides 21, 113143.CrossRefGoogle Scholar
Siqueiros-Beltrones, D.A. and Voltolina, D. (2000) Grazing selectivity of red abalone Haliotis rufescens postlarvae on benthic diatom films under culture conditions. Journal of the World Aquaculture Society 31, 239246.CrossRefGoogle Scholar
Siqueiros-Beltrones, D.A., Ibarra-Obando, S.E. and Loya-Salinas, D.H. (1985) Una aproximación a la estructura florística de las diatomeas epífitas de Zostera marina y sus variaciones temporales en Bahía Falsa, San Quintín, Baja California. Ciencias Marinas 11, 6988.CrossRefGoogle Scholar
Siqueiros-Beltrones, D.A., López-Fuerte, F.O. and Gárate-Lizárraga, I. (2005) Structure of diatom assemblages living on prop roots of the red mangrove Rhizophora mangle L. from the west coast of Baja California Sur, México. Pacific Science 59, 7996.CrossRefGoogle Scholar
Sullivan, M.J. (1979) Epiphytic diatoms of three seagrass species in Mississippi Sound. Bulletin of Marine Science 29, 459464.Google Scholar
Sullivan, M.J. and Currin, C.A. (2000) Community structure and functional dynamics of benthic microalgae in salt marshes. In Weinstein, M.P. and Kreeger, D.A. (eds) Concepts and controversies in tidal marsh ecology. Dordrecht, The Netherlands: Springer, pp. 81106.Google Scholar
Teena, S.M., Hyun, W.S., Hanna, R. and Spafford, D.C. (2008) A review of epiphyte community development: surface interactions and settlement on seagrass. Journal of Environmental Biology 29, 629638.Google Scholar
Tiffany, M.A. (2011) Epizoic and epiphytic diatoms. In Seckbach, J., Kociolek, P. and Seckbach, J. (eds) The diatom world; cellular origin, life in extreme habitats and astrobiology. Dordrecht, The Netherlands: Springer, pp. 195209.Google Scholar
Witkowski, A., Lange-Bertalot, H. and Metzeltin, D. (2000) Diatom flora of marine coasts I. In Lange-Bertalot, H. (ed.) Annotated diatom micrographs. Königstein, Germany: A.R.G. Gantner Verlag K.G., pp. 1925. [Iconographia Diatomologica, 7. Diversity–Taxonomy–Identification.]Google Scholar
Zieman, J.C., Fourqurean, J.W. and Iverson, R.L. (1989) Distribution, abundance and productivity of seagrasses and macroalgae in Florida Bay. Bulletin of Marine Science 44, 292311.Google Scholar