Studies on picophytoplankton in the southern Gulf of Mexico: recognition of picoprokaryotes and abundances of picophytoplankton during "dry season"

Aquino-Cruz, Aldo; Hernández-Becerril, David Uriel; Signoret-Poillon, Martha; Salas-de-León, David Alberto; Monreal-Gómez, María Adela

Abstracts

The abundance and distribution of total autotrophic picophytoplankton (PFP), temperature, salinity, PAR, and chlorophyll a were determined in two presumably contrasting environments: (1) two coastal areas (close to the mouths of three rivers), and (2) one oceanic area (Campeche Canyon), of the southern Gulf of Mexico, during the "dry season" (June-July, 2004). The picoprokaryotes Prochlorococcus and Synechococcus were identified by TEM, whereas Synechococcus and picoeukaryotes populations were also recognized by flow cytometry. The highest PFP abundance (1.67×105 cells ml-1) was found in shallow waters (~10 m depth) around the Grijalva-Usumacinta river mouth, followed by that found at a station close to the Coatzacoalcos River (1.19×105 cells ml-1); PFP abundances in the Campeche Canyon were usually lower (maximum 1.53×104 cells ml-1). Greater variability in PFP abundances was found in coastal stations than in oceanic waters, and weak relationships appeared between the patterns of chlorophyll a and PFP abundance. Peaks of PFP were detected in both coastal and more oceanic areas, but in the Campeche Canyon they were located deeper (60 m), relatively closer to the deep maximum of chlorophyll (located at about 75 m). Results suggest that PFP populations include a substantial photosynthetic component in both coastal and oceanic waters of the southern Gulf of Mexico.

Abundance; Distribution; Picophytoplankton; Prochlorococcus; southern Gulf of Mexico; Synechococcus

Abundância e distribuição do picofitoplâncton autotrófico total (PFP), temperatura, salinidade, PAR e clorofila-a, foram determinados em dois ambientes presumivelmente diferentes: (1) duas áreas costeiras (perto da foz de três rios) e (2) uma área oceânica (Campeche Canyon), ambas situadas ao sul do Golfo do México, durante a "estação seca" (Junho-Julho, 2004). Os picoprocariontes Prochlorococcus e Synechococcus foram identificados por TEM, e as populações de Synechococcus e de picoeucariontes também foram reconhecidas por citometria de fluxo. A maior abundância de PFP (1,67 × 105 células ml-1) foi encontrada em águas rasas (~ 10 m de profundidade) em torno dos rios Grijalva Usumacinta, seguida de uma estação perto do Rio Coatzacoalcos (1,19 × 105 células ml-1). As abundâncias de PFP em Campeche Canyon foram geralmente menores (máximo 1,53 × 104 células ml-1). A maior variabilidade em abundâncias de PFP foi encontrada em estações costeiras quando comparado às águas oceânicas, e quase não houve correlação entre os padrões de clorofila-a e abundância de PFP. Picos de PFP foram detectados nas áreas costeiras e oceânicas, mas em Campeche Canyon localizaram-se em maior profundidade (60 m), relativamente mais perto do local onde se registrou o máximo de clorofila (cerca de 75 m). Os resultados sugerem que as populações de PFP englobam um componente fotossintético substancial em ambas as águas costeiras e oceânicas do sul do Golfo do México.

Abundância; Distribuição; Picofitoplâncton; Prochlorococcus; sul do Golfo do México; Synechococcus

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ANDERSSON, A.; HAECKY, P.; HAGSTRÖM, Å. Effect of temperature and light on the growth of micro-plankton nano-plankton and pico-plankton: impact on algal succession. Mar. Biol., v. 120, n. 4, p. 511-520, 1994.
ANSOTEGUI, A.; SAROBE, A.; TRIGUEROS, J. M.; URRUTXURTU, I.; ORIVE, E. Size distribution of algal pigments and phytoplankton assemblages in a coastal-estuarine environment: contribution of small eukaryotic algae. J. Plankton Res., v. 25, n. 4, p. 341-355, 2003.
BERTILSSON, S.; BERGLUND, O.; PULLIN, M. J.; CHISHOLM, S. W. Release of dissolved organic matter by Prochlorococcus. Vie Milieu, v. 55, n. 3/4, p. 225-331, 2005.
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Publication Dates

Publication in this collection
10 Apr 2014
Date of issue
Dec 2013

History

Received
25 Feb 2013
Accepted
09 Dec 2013
Reviewed
30 Nov 2013

This work is licensed under a Creative Commons Attribution 4.0 International License.

[1] AGAWIN, N. S. R.; AGUSTÍ, S. Prochlorococcus and Synechococcus cells in the central Atlantic Ocean: distribution, growth and mortality (grazing) rates. Vie Milieu, v.55, n. 3/4, p. 165-175, 2005.

[2] ALONSO-LAITA, P.; NAVARRO, N.; DUARTE, C. M. ; AGUSTÍ, S. Seasonality of pico-phytoplankton abundance and cell death in a Mediterranean Bay (Bay of Palma, Majorca Island). Vie Milieu, v.55, n. 3/4, p. 177-184, 2005.

[3] ÁLVAREZ-GÓNGORA, C. C.; LICEAGA-CORREA, M. D.; HERRERA-SILVEIRA, J. A. Seasonal variations of community structures phytoplankton in groundwater discharge areas along the Northern Yucatan Peninsula coast. Rev. Biol.Trop., v. 60, n. 1, p. 157-72, 2012.

[4] ANDERSSON, A.; HAECKY, P.; HAGSTRÖM, Å. Effect of temperature and light on the growth of micro-plankton nano-plankton and pico-plankton: impact on algal succession. Mar. Biol., v. 120, n. 4, p. 511-520, 1994.

[5] ANSOTEGUI, A.; SAROBE, A.; TRIGUEROS, J. M.; URRUTXURTU, I.; ORIVE, E. Size distribution of algal pigments and phytoplankton assemblages in a coastal-estuarine environment: contribution of small eukaryotic algae. J. Plankton Res., v. 25, n. 4, p. 341-355, 2003.

[6] BERTILSSON, S.; BERGLUND, O.; PULLIN, M. J.; CHISHOLM, S. W. Release of dissolved organic matter by Prochlorococcus. Vie Milieu, v. 55, n. 3/4, p. 225-331, 2005.

[7] BOUMAN, H. A.; ULLOA, O.; BARLOW, R.; LI, W. K. W.; PLATT, T.; ZWIRGLMAIER, K.; SCANLAN, D. J.; SATHYENDRANATH, S. Water column stratification governs the community structure of subtropical marine picophytoplankton. Environ. Microbiol. Rep., v. 3, n. 4, p. 473-482, 2011.

[8] CERINO, F.; AUBRY, F. B.; COPPOLA, J.; FERLA, R. L.; MAIMONE, G.; SOCAL, G.; TOTTI, C. Spatial and temporal variability of pico-, nano- and microphytoplankton in the offshore waters of the southern Adriatic Sea (Mediterranean Sea). Cont. Shelf Res., v. 44, sp.iss., p. 94-105, 2012.

[9] CHEN, B. Z.; WANG, L.; SONG, S. Q.; HUANG, B. Q.; SUN, J.; LIU, H. B. Comparisons of picophytoplankton abundance, size, and fluorescence between summer and winter in northern South China Sea. Cont. Shelf Res., v. 31, n. 4, p. 1527-1540, 2011.

[10] CHISHOLM, S. W.; OLSON, R. J.; ZETTLER, E. R.; GOERICKE, R.; WATERBURY, J. B.; WELSCHMEYER, N. A. A novel free-living prochlorophyte abundant in the oceanic euphotic zone. Nature, v. 334, n. 6180, p. 340-343, 1988.

[11] CONAGUA, SEMARNAT. Gobierno Federal. Secretaría de Medio Ambiente y Recursos Naturales. Programa Nacional Hídrico: 2007-2012. México: CONAGUA, SEMARNAT, 2008. 159 p.

[12] CROSBIE, N. D.; FURNAS, M. J. Abundance, distribution and flow-cytometric characterization of picophytoprokaryote populations in central (17ºS) and southern (20ºS) shelf waters of the Great Barrier Reef. J. Plankton Res., v. 23, n. 8, p. 809-828, 2001.

[13] ESPINOSA-FUENTES, M. L.; FLORES-COTO, C. Cross-shelf and vertical structure of ichthyoplankton assemblages in continental shelf waters of the Southern Gulf of Mexico. Estuarine, Coastal Shelf Sci., v. 59, n. 2, p. 333-352, 2004.

[14] GOERICKE, R.; REPETA, D. J. The pigments of Prochlorococcus marinus: the presence of divinyl chlorophyll-a and chlorophyll-B in a marine prokaryote. Limnol. Oceanogr., v. 37, n. 2, p. 425-433, 1992.

[15] GROB, C.; ULLOA, O.; CLAUSTRE, H.; HUOT, Y.; ALARCÓN, G.; MARIE, D. Contribution of picoplankton to the total particulate organic carbon concentration in the eastern South Pacific. Biogeosciences, v. 4, n. 5, p. 837-852, 2007.

[16] GUILLOU, L.; EIKREM, W.; CHRETIENNOT-DINET, M. J.; LE GALL, F.; MASSANA, R.; ROMARI, K.; PEDROS-ALIÓ, C.; VAULOT, D. Diversity of picoplanktonicprasinophytes assessed by direct nuclear SSU rDNA sequencing of environmental samples and novel isolates retrieved from oceanic and coastal marine ecosystems. Protist, v. 155, n. 2, p. 193-214, 2004.

[17] HALL, J. A.; VINCENT, W. F. Vertical and horizontal structure in the picoplankton communities of a coastal upwelling system. Mar. Biol., v. 106, n. 3, p. 465-471, 1990.

[18] HERNÁNDEZ-BECERRIL, D. U.; GARCÍA-RESÉNDIZ, J. A.; SALAS-DE-LEÓN, D. A.; MONREAL-GÓMEZ, M. A.; SIGNORET-POILLON, M.; ALDECO-RAMÍREZ, J. Nanoplankton fraction in phytoplankton structure from the southern Gulf of Mexico (April 2000). Cienc. Mar., v. 34, n. 1, p. 77-90, 2008.

[19] HERNÁNDEZ-BECERRIL, D. U.; AQUINO-CRUZ, A.; SALAS-DE-LEÓN, D. A.; SIGNORET-POILLON, M.; MONREAL-GÓMEZ, M. A. Studies on picophytoplankton in the southern Gulf of Mexico: pigment analysis and potential importance of the picoeukariote Prasinophyte Micromonas pusilla Mar. Biol. Res., v. 8, n. 4, p. 331-340, 2012.

[20] LANDRY, M. R. Integrating classical and microbial food web concepts: evolving views from the open-ocean tropical Pacific. Hydrobiologia, v. 480, n. 1/3, p. 29-39, 2002.

[21] LE GALL, F.; RIGAUT-JALABERT, F.; MARIE, D.; GARCZAREK, L.; VIPREY, M.; GOBET, A.; VAULOT, D. Picoplankton diversity in the South-East Pacific Ocean from cultures. Biogeosciences, v. 5, n. 1, p. 203-214, 2008.

[22] MAN-AHARONOVICH, D.; PHILOSOF, A.; KIRKUP, B. C.; LE GALL, F.; YOGEV, T.; BERMAN-FRANK, I.; POLZ, M. F.; VAULOT, D., BÉJÀ, O. Diversity of active marine picoeukaryotes in the Eastern Mediterranean Sea unveiled using photosystem-II psbA transcripts. ISME J., v. 4, n. 8, p. 1044-1052, 2010.

[23] MARIE, D.; SHI, X. L.; RIGAUT-JALABERT, F.; VAULOT, D. Use of flow cytometric sorting to better assess the diversity of small photosynthetic eukaryotes in the English Channel. FEMS Microbiol. Ecol., v. 72, n. 2, p. 165-178, 2010.

[24] MITBAVKAR, S.; RAGHU, C.; RAJANEESH, K. M.; PAVAN, D. Picophytoplankton community from tropical marine biofilms. J. Exp. Mar.Biol. Ecol., v. 426/427, p. 88-96, 2012.

[25] MONREAL-GÓMEZ, M. A.; SALAS-DE-LEÓN, D. A. Circulación y estructura termohalina del Golfo de México, In: LAVÍN, M. F. (Ed.). Contribuciones a la oceanografía física de México Ensenada: Unión Geofísica Mexicana, 1997. p. 183-199. (Monografía (Unión Geofísica Mexicana); n. 3).

[26] MOON-VAN DER STAAY, S. Y.; DE WACHTER, R.; VAULOT, D. Oceanic 18S rDNA sequences from picoplankton reveal unsuspected eukaryotic diversity. Nature, v. 409, n. 6820, p. 607-610, 2001.

[27] MOORE, L. R.; CHISHOLM, S. W. Photophysiology of the marine cyanobacterium Prochlorococcus: ecotypic differences among cultured isolates. Limnol. Oceanogr., v. 44, n. 3, p. 628-638, 1999.

[28] NOT, F.; DEL CAMPO, J.; BALAGUÉ, V.; DE VARGAS, C.; MASSANA, R. New insights into the diversity of marine picoeukaryotes. PLoS ONE, v. 4, n. 9, p. E7143, 2009.

[29] NOT, F.; LATASA, M.; MARIE, D.; CARIOU, T.; VAULOT, D.; SIMON, N. A single species, Micromonas pusilla (Prasinophyceae), dominates the eukaryotic picoplankton in the western English channel. Appl. Environ.Microbiol., v. 70, n. 7, p. 4064-4072, 2004.

[30] PARTENSKY, F.; HESS, W. R.; VAULOT, D. Prochlorococcus, a marine photosynthetic prokaryote of global significance. Microbiol. Mol. Biol. Rev., v. 63, n. 1, p. 106-127, 1999.

[31] PERNTHALER, J. Predation on prokaryotes in the water column and its ecological implications. Nat. Rev. Microbiol., v. 3, n. 7, p. 537-546, 2005.

[32] RAVEN, J. A. The twelfth Tansley Lecture. Small is beautiful: the picophytoplankton. Funct. Ecol., v. 12, n. 4, p. 503-513, 1998.

[33] RUIZ-FERNÁNDEZ, A. C., SANCHEZ-CABEZA, J. -A.; ALONSO-HERNÁNDEZ, C.; MARTÍNEZ-HERRERA, V.; PÉREZ-BERNAL, L. H.; PREDA, M.; HILLAIRE-MARCEL, C.; GASTAUD, J.; QUEJIDO-CABEZAS, A. J. Effects of land use change and sediment mobilization on coastal contamination (Coatzacoalcos River, Mexico). Cont. Shelf Res., v. 37, p. 57-65, 2012.

[34] SALAS-DE-LEÓN, D. A.; MONREAL-GÓMEZ, M. A.; SIGNORET, M.; ALDECO, J. Anticyclonic-cyclonic eddies and their impact on near-surface chlorophyll stocks and oxygen supersaturation over the Campeche Canyon, Gulf of Mexico. J. Geophys. Res.: Oceans, v. 109, n. C5, p. C05012, 2004.

[35] SALAS-DE-LEÓN, D. A.; MONREAL-GÓMEZ, M. A.; DÍAZ-FLORES, M. A.; SALAS-MONREAL, D.; VELASCO-MENDOZA, H.; RIVERON-ENZASTIGA, M. L.; ORTIZ-ZAMORA, G. Role of near-bottom currents in the distribution of sediments within the Southern Bay of Campeche, Gulf of México. J. Coastal Res., v. 24, n. 6, p. 1487-1494, 2008.

[36] SANVICENTE-AÑORVE, L.; FLORES-COTO, C.; CHIAPPA-CARRARA, X. Temporal and spatial scales of ichthyoplankton distribution in the southern Gulf of Mexico. Estuarine, Coastal Shelf Sci., v. 51, n. 4, p. 463-475, 2000.

[37] SCHAPIRA, M.; BUSCOT, M. -J.; POLLET, T.; LETERME, S. C.; SEURONT, L. Distribution of picophytoplankton communities from brackish to hypersaline waters in a South Australian coastal lagoon. Saline Syst. , v. 6, p.2, 2010.

[38] SIGNORET, M.; MONREAL-GÓMEZ, M. A.; ALDECO, J.; SALAS-DE-LEÓN, D. A. Hydrography, oxygen saturation, suspended particulate matter, and chlorophyll-a fluorescence in an oceanic region under freshwater influence. Estuarine, Coastal Shelf Sci., v. 69, n. 1/2, p. 153-164, 2006.

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Studies on picophytoplankton in the southern Gulf of Mexico: recognition of picoprokaryotes and abundances of picophytoplankton during "dry season"

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