Search

Your search keyword '"Pedrós-Alió, Carlos"' showing total 881 results
Start Over Author "Pedrós-Alió, Carlos"
881 results on '"Pedrós-Alió, Carlos"'

156. Seasonality in bacterial diversity in north-west Mediterranean coastal waters: assessment through clone libraries, fingerprinting and FISH

Author

Alonso-Sáez, Laura, Balagué, Vanessa, Sà, Elisabet L., Sánchez, Olga, González, José M., Pinhassi, Jarone, Massana, Ramon, Pernthaler, Jakob, Pedrós-Alió, Carlos, Gasol, Josep M., Alonso-Sáez, Laura, Balagué, Vanessa, Sà, Elisabet L., Sánchez, Olga, González, José M., Pinhassi, Jarone, Massana, Ramon, Pernthaler, Jakob, Pedrós-Alió, Carlos, and Gasol, Josep M.

Abstract

We combined denaturing gradient gel electrophoresis (DGGE), catalysed reporter deposition-FISH (CARD-FISH) and clone libraries to investigate the seasonality of the bacterial assemblage composition in north-west Mediterranean coastal waters. DGGE analysis indicated that bacterial diversity changed gradually throughout the year, although with a clear distinction of the summer period. Alphaproteobacteria were the dominant group on an annual basis [29% of the DAPI (4′,6-diamidino-2-phenylindole) counts by CARD-FISH, and 70% of the bacterial clones]. The SAR11 clade was most abundant during spring and summer (>20% of DAPI counts), while the Roseobacter clade was abundant primarily in winter and spring (up to 7% of DAPI counts). The phylum Bacteroidetes constituted the second most important group and was quantitatively uniform throughout the year (average 11% of the DAPI counts). Gammaproteobacteria showed a peak during summer (8% of DAPI counts), when most of them belonged to the NOR5 cluster. Clone libraries and CARD-FISH showed reasonable agreement in the quantitative proportions of Bacteroidetes and Gammaproteobacteria, but Alphaproteobacteria were overrepresented in clone libraries. Sequencing of the most predominant DGGE bands failed to detect the SAR11 group despite their high abundance. The combination of the three molecular approaches allowed a comprehensive assessment of seasonal changes in bacterial diversity

Published
2017

157. Bajo la piel del océano

Author

Sociedad de Amigos del Museo Nacional de Ciencias Naturales (España), Pedrós-Alió, Carlos, Sociedad de Amigos del Museo Nacional de Ciencias Naturales (España), and Pedrós-Alió, Carlos

Abstract

Presentación del Libro "Bajo la Piel del Océano".Este libro levanta la piel del océano y nos acompaña con amenidad y con rigor científico desde la superficie de los mares hasta las fosas abisales. A bordo de un buque noruego en campaña oceanográfica a partir de los datos que nos proporcionan los satélites o en un batiscafo para descender a las zonas más profundas el autor biólogo marino nos propone un recorrido que nos ayudará a entender los ecosistemas marinos la influencia decisiva de mares y océanos en la regulación del clima de todo el planeta y en definitiva a cobrar conciencia de la necesidad de frenar su deterioro si queremos que nuestro mundo sea sostenible

Published
2017

158. Bosque ancestral

Author

Balagué, Vanessa, Rierola, Anna, Vicioso, María, Berdalet, Elisa, Cardelús, Clara, Cros, Lluïsa, Fortuño Alós, José Manuel, Garcés, Esther, Gasol, Josep M., Massana, Ramon, Pedrós-Alió, Carlos, Simó, Rafel, Vaqué, Dolors, Balagué, Vanessa, Rierola, Anna, Vicioso, María, Berdalet, Elisa, Cardelús, Clara, Cros, Lluïsa, Fortuño Alós, José Manuel, Garcés, Esther, Gasol, Josep M., Massana, Ramon, Pedrós-Alió, Carlos, Simó, Rafel, and Vaqué, Dolors

Abstract

En el marco de las sinergias Arte-Ciencia, nace Bosque Ancestral (2017), la primera obra de gran formato (mural de 7 x 3 m) que surge de la colaboración entre Anna Rierola, una artista visual barcelonesa focalizada en imágenes científicas, y el Servei de Microscòpia Òptica i Electrònica y la asesoría científica de l’Institut de Ciències del Mar (ICM-CSIC). La exposición que tuvo lugar en el ICM-CSIC se acompañó de un ciclo de conferencias y 4 paneles divulgativos donde se explicaba la importancia de los microorganismos marinos, los protagonistas del mural, en procesos tan cruciales para la vida en el planeta como la producción de oxígeno, la absorción natural del CO2 o la regulación del clima, así como una guía de identificación de los organismos que aparecían en el mural. Esta exposición temporal dio lugar en febrero de 2019 a un mural exterior de 60 m, Bosque Ancestral (2019), obra también de la artista Anna Rierola, instalado en la fachada del Centre Mediterrani d’Investigacions Marines i Ambientals (CMIMA), sede del Institut de Ciències del Mar (ICM-CSIC) y la Unitat de Tecnologia Marina (UTM-CSIC)

Published
2017

159. The interactive microbial ocean

Author

Brussaard, Corina P. D., Bidle, Kay D., Pedrós-Alió, Carlos, Legrand, Catherine, Brussaard, Corina P. D., Bidle, Kay D., Pedrós-Alió, Carlos, and Legrand, Catherine

Abstract

Marine microorganisms inhabit diverse environments and interact over different spatial and temporal scales. To fully understand how these interactions shape genome structures, cellular responses, lifestyles, community ecology and biogeochemical cycles, integration of diverse approaches and data is essential., EcoChange

Published
2017
Full Text
View/download PDF

160. Art i ciènica: Picasso i l’estructura de l’ADN

Author

Pedrós-Alió, Carlos and Pedrós-Alió, Carlos

Abstract

Art i ciència són dues disciplines humanes aparentment oposades en gairebé tot. L’art és suposadament intuïtiu, espiritual, inútil per a les coses pràctiques, i no té caducitat, entre altres propietats. La ciència, per contra, és suposadament deductiva, racional, pràctica i està sent constantment reformada. Davant d’un quadre abstracte el públic es demana “què significa?” i, potser, “això ho pot fer un nen”. Davant d’un descobriment científic la pregunta més freqüent és “per a què serveix?” En realitat, caldria demanar-se “què signifiquen els descobriments científics?” I “per a què serveix una obra d’art?” Ambdues disciplines comparteixen moltes coses. Els mètodes per arribar a un quadre magistral com Les senyoretes d’Avinyó té molts paral·lelismes amb la descoberta de l’estructura de l’ADN. L’aparent simplicitat dels “blaus” de Joan Miró són l’equivalent de la mateixa aparent simplicitat d’algunes fórmules essencials de l’Univers. Tant l’art com la ciència van començar als inicis de la nostra espècie, i les dues comparteixen la missió de travessar la superfície de les aparences per revelar la realitat que hi ha a sota

Published
2017

161. Exploring Microdiversity in Novel Kordia sp. (Bacteroidetes) with Proteorhodopsin from the Tropical Indian Ocean via Single Amplified Genomes

Author

Ministerio de Economía y Competitividad (España), National Science Foundation (US), Fundación BBVA, Royo-Llonch, Marta, Ferrera, Isabel, Cornejo-Castillo, Francisco M., Sánchez Fernández, Pablo, Salazar, Guillem, Pedrós-Alió, Carlos, Acinas, Silvia G., Ministerio de Economía y Competitividad (España), National Science Foundation (US), Fundación BBVA, Royo-Llonch, Marta, Ferrera, Isabel, Cornejo-Castillo, Francisco M., Sánchez Fernández, Pablo, Salazar, Guillem, Pedrós-Alió, Carlos, and Acinas, Silvia G.

Abstract

Marine Bacteroidetes constitute a very abundant bacterioplankton group in the oceans that plays a key role in recycling particulate organic matter and includes several photoheterotrophic members containing proteorhodopsin. Relatively few marine Bacteroidetes species have been described and, moreover, they correspond to cultured isolates, which in most cases do not represent the actual abundant or ecologically relevant microorganisms in the natural environment. In this study, we explored the microdiversity of 98 Single Amplified Genomes (SAGs) retrieved from the surface waters of the underexplored North Indian Ocean, whose most closely related isolate is Kordia algicida OT-1. Using Multi Locus Sequencing Analysis (MLSA) we found no microdiversity in the tested conserved phylogenetic markers (16S rRNA and 23S rRNA genes), the fast-evolving Internal Transcribed Spacer and the functional markers proteorhodopsin and the beta-subunit of RNA polymerase. Furthermore, we carried out a Fragment Recruitment Analysis (FRA) with marine metagenomes to learn about the distribution and dynamics of this microorganism in different locations, depths and size fractions. This analysis indicated that this taxon belongs to the rare biosphere, showing its highest abundance after upwelling-induced phytoplankton blooms and sinking to the deep ocean with large organic matter particles. This uncultured Kordia lineage likely represents a novel Kordia species (Kordia sp. CFSAG39SUR) that contains the proteorhodopsin gene and has a widespread spatial and vertical distribution. The combination of SAGs and MLSA makes a valuable approach to infer putative ecological roles of uncultured abundant microorganisms

Published
2017

163. Regularidades estacionales en la producción primaria y los parámetros fotosintéticos en una estación costera del NO Mediterráneo

Author

Gasol, Josep M., Cardelús, Clara, G. Morán, Xosé Anxelu, Balagué, Vanessa, Forn, Irene, Marrasé, Cèlia, Massana, Ramon, Pedrós-Alió, Carlos, Montserrat Sala, M., Simó, Rafel, Vaqué, Dolors, Estrada, Marta, and Projects Picodiv (EVK3-CT1999-00021), BASICS (EVK3-CT–2002-00078) and Micro-3B (FP7-OCEAN–2011 287589), and the Spanish projects Estramar, PROCAVIR (CTM2004-06842), MICROVIS (CTM2007–62140), Modivus (CTM2005-04795/ MAR), Gemma (CTM2007-63753-C02-01/MAR), STORM (CTM2009-09352), SUMMER (CTM2008- 03309/MAR) and FLAME (CTM2007-62140)

Subjects
estacion costera a largo término, producción primaria, estacionalidad, parámetros fotosintéticos, PBmax, αB, coastal time-series station, primary production, seasonality, photosynthetic parameters
Abstract

We carried out monthly photosynthesis-irradiance (P-E) experiments with the 14C-method for 12 years (2003–2014) to determine the photosynthetic parameters and primary production of surface phytoplankton in the Blanes Bay Microbial Observatory, a coastal sampling station in the NW Mediterranean Sea. Our goal was to obtain seasonal trends and to establish the basis for detecting future changes of primary production in this oligotrophic area. The maximal photosynthetic rate PBmax ranged 30-fold (0.5-15 mg C mg Chl a–1 h–1), averaged 3.7 mg C mg Chl a–1 h–1 (±0.25 SE) and was highest in August and lowest in April and December. We only observed photoinhibition twice. The initial or light-limited slope of the P-E relationship, αB, was low, averaging 0.007 mg C mg Chl a–1 h–1 (μmol photons m–2 s–1)–1 (±0.001 SE, range 0.001-0.045) and showed the lowest values in spring (April-June). The light saturation parameter or saturation irradiance, EK, averaged 711 μmol photons m–2 s–1 (± 58.4 SE) and tended to be higher in spring and lower in winter. Phytoplankton assemblages were typically dominated by picoeukaryotes in early winter, diatoms in late autumn and late winter, dinoflagellates in spring and cyanobacteria in summer. Total particulate primary production averaged 1.45 mg C m-3 h–1 (±0.13 SE) with highest values in winter (up to 8.50 mg C m-3 h–1) and lowest values in summer (summer average, 0.30 mg C m-3 h–1), while chlorophyll-specific primary production averaged 2.49 mg C mg Chl a–1 h–1 (±0.19, SE) and peaked in summer (up to 12.0 mg C mg Chl a–1 h–1 in August). 14C-determined phytoplankton growth rates varied between ca. 0.3 d–1 in winter and 0.5 d–1 in summer and were within 60-80% of the maximal rates of growth, based on PBmax. Chlorophyll a was a good predictor of primary production only in the winter and autumn. Seasonality appeared to explain most of the variability in the studied variables, while phytoplankton composition played a minor role. Daily integrated primary production was fairly constant throughout the year: similar to previous oxygen-based estimates in winter but considerably lower than these in summer. The difference between 14C- and oxygen-based estimates of primary production could be explained by community respiration. Annually integrated primary production amounted to a rather modest 48 g C m–2 yr–1 (equivalent to 130 mg C m–2 d–1). Although no interannual patterns were detected, our work soundly establishes the seasonal trends for the coastal NW Mediterranean, therefore setting the basis for future detection of change., Hemos llevado a cabo mediciones mensuales de la relación entre fotosíntesis e irradiancia (curvas P-E) con el método del 14C durante 12 años (2003-2014), para obtener los parámetros fotosintéticos y la producción primaria del fitoplancton superficial en el Observatorio Microbiano de la Bahía de Blanes, una estación de muestreo costera en el noroeste del Mediterráneo. Nuestro objetivo era determinar las tendencias estacionales y establecer la línea de base para detectar cambios futuros de la producción primaria en esta área oligotrófica. La tasa fotosintética máxima PBmaxosciló 30 veces (0.5 a 15 mg C mg Chl a–1 h–1), con un promedio de 3.7 mg C mg Chl a–1 h–1 (±0.25, error estándar), y fue máxima en agosto y mínima en abril y diciembre. Sólo se observó fotoinhibicion dos veces. La pendiente inicial de la curva P-E, αB, fue baja, con un promedio de 0.007 mg C mg Chl a–1 h–1 (µmol fotones m–2 s–1)–1 (error estándar ±0.001, rango de 0.001-0.045) y presentó los valores más bajos en primavera (abril-junio). El parámetro de saturación de irradiancia, EK, presentó un promedio de 711 µmol fotones m–2 s–1 (±58.4, error estándar) y tendió a ser mayor en primavera y menor en invierno. El fitoplancton estuvo típicamente dominado por picoeucariotas a principios de invierno, diatomeas a finales de otoño y en el invierno avanzado, dinoflagelados en primavera, y cianobacterias en verano. La producción primaria particulada total promedió 1.45 m–3 h–1 (±0.13 error estándar) con máximos en invierno (hasta 8.50 mg C m–3 h–1) y mínimos en verano (media en verano, 0.30 mg C m–3 h–1), mientras que la producción primaria por unidad de clorofila promedió 2.49 mg C mg Chl a–1 h–1 (±0.19, error estándar) y alcanzó su punto máximo en verano (hasta 12.0 mg C mg Chl a–1 h–1 en agosto). Las tasas de crecimiento del fitoplancton determinadas por 14C oscilaron entre ca. 0.3 d–1 en invierno y 0.5 d–1 en verano, siendo 60-80% de las tasas máximas de crecimiento basadas en los valores de PBmax. La clorofila a resultó ser un buen predictor de la producción primaria sólo en el invierno y el otoño. La estacionalidad explica la mayor parte de la variabilidad en las variables estudiadas, mientras que la composición del fitoplancton juega un papel menor. La producción primaria integrada diaria fue bastante constante durante todo el año, similar a estimaciones anteriores con mediciones de oxígeno en invierno, pero considerablemente más bajas en verano. La diferencia entre las estimaciones de la producción primaria por 14C y las estimaciones en base al oxígeno podrían explicarse por la respiración de la comunidad. Anualmente la producción primaria integrada ascendió a valores más bien modestos de 48 g C m–2 año–1 (equivalentes a 130 mg C m–2 d–1). Aunque no se detectaron patrones interanuales, nuestro trabajo establece las tendencias estacionales para la producción primaria en el litoral Mediterráneo noroccidental, y supone la línea de base para la detección de cambios futuros.

Published
2016
Full Text
View/download PDF

164. Exploring Microdiversity in Novel Kordia sp. (Bacteroidetes) with Proteorhodopsin from the Tropical Indian Ocean via Single Amplified Genomes

Author

Royo-Llonch, Marta, primary, Ferrera, Isabel, additional, Cornejo-Castillo, Francisco M., additional, Sánchez, Pablo, additional, Salazar, Guillem, additional, Stepanauskas, Ramunas, additional, González, José M., additional, Sieracki, Michael E., additional, Speich, Sabrina, additional, Stemmann, Lars, additional, Pedrós-Alió, Carlos, additional, and Acinas, Silvia G., additional

Published
2017
Full Text
View/download PDF

165. Marine bacterial and archaeal ion-pumping rhodopsins : genetic diversity, physiology, and ecology

Author

Pinhassi, Jarone, DeLong, Edward F., Béjà, Oded, González, José M., Pedrós-Alió, Carlos, Pinhassi, Jarone, DeLong, Edward F., Béjà, Oded, González, José M., and Pedrós-Alió, Carlos

Abstract

The recognition of a new family of rhodopsins in marine planktonic bacteria, proton-pumping proteorhodopsin, expanded the known phylogenetic range, environmental distribution, and sequence diversity of retinylidene photoproteins. At the time of this discovery, microbial ion-pumping rhodopsins were known solely in haloarchaea inhabiting extreme hypersaline environments. Shortly thereafter, proteorhodopsins and other light-activated energy-generating rhodopsins were recognized to be widespread among marine bacteria. The ubiquity of marine rhodopsin photosystems now challenges prior understanding of the nature and contributions of "heterotrophic" bacteria to biogeochemical carbon cycling and energy fluxes. Subsequent investigations have focused on the biophysics and biochemistry of these novel microbial rhodopsins, their distribution across the tree of life, evolutionary trajectories, and functional expression in nature. Later discoveries included the identification of proteorhodopsin genes in all three domains of life, the spectral tuning of rhodopsin variants to wavelengths prevailing in the sea, variable light-activated ion-pumping specificities among bacterial rhodopsin variants, and the widespread lateral gene transfer of biosynthetic genes for bacterial rhodopsins and their associated photopigments. Heterologous expression experiments with marine rhodopsin genes (and associated retinal chromophore genes) provided early evidence that light energy harvested by rhodopsins could be harnessed to provide biochemical energy. Importantly, some studies with native marine bacteria show that rhodopsin-containing bacteria use light to enhance growth or promote survival during starvation. We infer from the distribution of rhodopsin genes in diverse genomic contexts that different marine bacteria probably use rhodopsins to support lightdependent fitness strategies somewhere between these two extremes.

Published
2016
Full Text
View/download PDF

166. The interactive microbial ocean

Author

Brussaard, Corina P. D., Bidle, Kay D., Pedrós-Alió, Carlos, Legrand, Catherine, Brussaard, Corina P. D., Bidle, Kay D., Pedrós-Alió, Carlos, and Legrand, Catherine

Abstract

Marine microorganisms inhabit diverse environments and interact over different spatial and temporal scales. To fully understand how these interactions shape genome structures, cellular responses, lifestyles, community ecology and biogeochemical cycles, integration of diverse approaches and data is essential.

Published
2016
Full Text
View/download PDF

167. Composition and interactions among bacterial, microeukaryotic, and T4-like viral assemblages in lakes from both polar zones

Author

Aguirre de Cárcer, Daniel, Pedrós-Alió, Carlos, Pearce, David A., Alcamí, Antonio, Aguirre de Cárcer, Daniel, Pedrós-Alió, Carlos, Pearce, David A., and Alcamí, Antonio

Abstract

In this study we assess global biogeography and correlation patterns among three components of microbial life: bacteria, microeukaryotes, and T4-like myoviruses. In addition to environmental and biogeographical considerations, we have focused our study on samples from high-latitude pristine lakes from both poles, since these simple island-like ecosystems represent ideal ecological models to probe the relationships among microbial components and with the environment. Bacterial assemblages were dominated by members of the same groups found to dominate freshwater ecosystems elsewhere, and microeukaryotic assemblages were dominated by photosynthetic microalgae. Despite inter-lake variations in community composition, the overall percentages of OTUs shared among sites was remarkable, indicating that many microeukaryotic, bacterial, and viral OTUs are globally-distributed. We observed an intriguing negative correlation between bacterial and microeukaryotic diversity values. Notably, our analyses show significant global correlations between bacterial and microeukaryotic community structures, and between the phylogenetic compositions of bacterial and T4-like virus assemblages. Overall, environmental filtering emerged as the main factor driving community structures.

Published
2016

168. The interactive microbial ocean

Author

Brussaard, Corina P.D., Bidle, Kay D., Pedrós-Alió, Carlos, Legrand, Catherine, Brussaard, Corina P.D., Bidle, Kay D., Pedrós-Alió, Carlos, and Legrand, Catherine

Abstract

Marine microorganisms inhabit diverse environments and interact over different spatial and temporal scales. To fully understand how these interactions shape genome structures, cellular responses, lifestyles, community ecology and biogeochemical cycles, integration of diverse approaches and data is essential

Published
2016

169. Global genetic capacity for mixotrophy in marine picocyanobacteria

Author

Fulbright Commission, National Science Foundation (US), European Molecular Biology Laboratory, Simons Foundation, Ministerio de Ciencia e Innovación (España), Gordon and Betty Moore Foundation, Yelton, A.P., Acinas, Silvia G., Sunagawa, Shinichi, Bork, Peer, Pedrós-Alió, Carlos, Chisholm, Sallie W., Fulbright Commission, National Science Foundation (US), European Molecular Biology Laboratory, Simons Foundation, Ministerio de Ciencia e Innovación (España), Gordon and Betty Moore Foundation, Yelton, A.P., Acinas, Silvia G., Sunagawa, Shinichi, Bork, Peer, Pedrós-Alió, Carlos, and Chisholm, Sallie W.

Abstract

The assimilation of organic nutrients by autotrophs, a form of mixotrophy, has been demonstrated in the globally abundant marine picocyanobacterial genera Prochlorococcus and Synechococcus. However, the range of compounds used and the distribution of organic compound uptake genes within picocyanobacteria are unknown. Here we analyze genomic and metagenomic data from around the world to determine the extent and distribution of mixotrophy in these phototrophs. Analysis of 49 Prochlorococcus and 18 Synechococcus isolate genomes reveals that all have the transporters necessary to take up amino acids, peptides and sugars. However, the number and type of transporters and associated catabolic genes differ between different phylogenetic groups, with low-light IV Prochlorococcus, and 5.1B, 5.2 and 5.3 Synechococcus strains having the largest number. Metagenomic data from 68 stations from the Tara Oceans expedition indicate that the genetic potential for mixotrophy in picocyanobacteria is globally distributed and differs between clades. Phylogenetic analyses indicate gradual organic nutrient transporter gene loss from the low-light IV to the high-light II Prochlorococcus. The phylogenetic differences in genetic capacity for mixotrophy, combined with the ubiquity of picocyanobacterial organic compound uptake genes suggests that mixotrophy has a more central role in picocyanobacterial ecology than was previously thought.

Published
2016

170. Composition and interactions among bacterial, microeukaryotic, and T4-like viral assemblages in lakes from both polar zones

Author

Ministerio de Ciencia e Innovación (España), Marie Curie International Incoming Fellowship, Aguirre de Cárcer, Daniel, Pedrós-Alió, Carlos, Pearce, David A., Alcamí, Antonio, Ministerio de Ciencia e Innovación (España), Marie Curie International Incoming Fellowship, Aguirre de Cárcer, Daniel, Pedrós-Alió, Carlos, Pearce, David A., and Alcamí, Antonio

Abstract

In this study we assess global biogeography and correlation patterns among three components of microbial life: Bacteria, microeukaryotes, and T4-like myoviruses. In addition to environmental and biogeographical considerations, we have focused our study on samples from high-latitude pristine lakes from both poles, since these simple island-like ecosystems represent ideal ecological models to probe the relationships among microbial components and with the environment. Bacterial assemblages were dominated by members of the same groups found to dominate freshwater ecosystems elsewhere, and microeukaryotic assemblages were dominated by photosynthetic microalgae. Despite inter-lake variations in community composition, the overall percentages of OTUs shared among sites was remarkable, indicating that many microeukaryotic, bacterial, and viral OTUs are globally-distributed. We observed an intriguing negative correlation between bacterial and microeukaryotic diversity values. Notably, our analyses show significant global correlations between bacterial and microeukaryotic community structures, and between the phylogenetic compositions of bacterial and T4-like virus assemblages. Overall, environmental filtering emerged as the main factor driving community structures.

Published
2016

171. Probing the Rare Biosphere of the North-West Mediterranean Sea: An Experiment with High Sequencing Effort

Author

Ministerio de Ciencia e Innovación (España), Crespo, B. G., Wallhead, Philip J., Logares, Ramiro, Pedrós-Alió, Carlos, Ministerio de Ciencia e Innovación (España), Crespo, B. G., Wallhead, Philip J., Logares, Ramiro, and Pedrós-Alió, Carlos

Abstract

High-throughput sequencing (HTS) techniques have suggested the existence of a wealth of species with very low relative abundance: the rare biosphere. We attempted to exhaustively map this rare biosphere in two water samples by performing an exceptionally deep pyrosequencing analysis (~500,000 final reads per sample). Species data were derived by a 97% identity criterion and various parametric distributions were fitted to the observed counts. Using the best-fitting Sichel distribution we estimate a total species richness of 1,568–1,669 (95% Credible Interval) and 5,027–5,196 for surface and deep water samples respectively, implying that 84–89% of the total richness in those two samples was sequenced, and we predict that a quadrupling of the present sequencing effort would suffice to observe 90% of the total richness in both samples. Comparing the HTS results with a culturing approach we found that most of the cultured taxa were not obtained by HTS, despite the high sequencing effort. Culturing therefore remains a useful tool for uncovering marine bacterial diversity, in addition to its other uses for studying the ecology of marine bacteria

Published
2016

172. Quantifying the Relative Importance of Phylogeny and Environmental Preferences As Drivers of Gene Content in Prokaryotic Microorganisms

Author

Ministerio de Economía y Competitividad (España), Tamames, Javier, Sánchez, Pablo D., Nikel, Pablo I., Pedrós-Alió, Carlos, Ministerio de Economía y Competitividad (España), Tamames, Javier, Sánchez, Pablo D., Nikel, Pablo I., and Pedrós-Alió, Carlos

Abstract

Two complementary forces shape microbial genomes: vertical inheritance of genes by phylogenetic descent, and acquisition of new genes related to adaptation to particular habitats and lifestyles. Quantification of the relative importance of each driving force proved difficult. We determined the contribution of each factor, and identified particular genes or biochemical/cellular processes linked to environmental preferences (i.e., propensity of a taxon to live in particular habitats). Three types of data were confronted: (i) complete genomes, which provide gene content of different taxa; (ii) phylogenetic information, via alignment of 16S rRNA sequences, which allowed determination of the distance between taxa, and (iii) distribution of species in environments via 16S rRNA sampling experiments, reflecting environmental preferences of different taxa. The combination of these three datasets made it possible to describe and quantify the relationships among them. We found that, although phylogenetic descent was responsible for shaping most genomes, a discernible part of the latter was correlated to environmental adaptations. Particular families of genes were identified as environmental markers, as supported by direct studies such as metagenomic sequencing. These genes are likely important for adaptation of bacteria to particular conditions or habitats, such as carbohydrate or glycan metabolism genes being linked to host-associated environments

Published
2016

173. Age-Related Differences in the Gastrointestinal Microbiota of Chinstrap Penguins (Pygoscelis antarctica)

Author

Ministerio de Economía y Competitividad (España), Barbosa, Andrés, Balagué, Vanessa, Valera, Francisco, Martínez Vázquez, Ana María, Benzal, Jesús, Motas, Miguel, Diaz, Julia I., Mira, Alex, Pedrós-Alió, Carlos, Ministerio de Economía y Competitividad (España), Barbosa, Andrés, Balagué, Vanessa, Valera, Francisco, Martínez Vázquez, Ana María, Benzal, Jesús, Motas, Miguel, Diaz, Julia I., Mira, Alex, and Pedrós-Alió, Carlos

Abstract

The gastrointestinal tract microbiota is known to play very important roles in the well being of animals. It is a complex community composed by hundreds of microbial species interacting closely among them and with their host, that is, a microbial ecosystem. The development of high throughput sequencing techniques allows studying the diversity of such communities in a realistic way and considerable work has been carried out in mammals and some birds such as chickens. Wild birds have received less attention and in particular, in the case of penguins, only a few individuals of five species have been examined with molecular techniques. We collected cloacal samples from Chinstrap penguins in the Vapour Col rookery in Deception Island, Antarctica, and carried out pyrosequencing of the V1-V3 region of the 16S rDNA in samples from 53 individuals, 27 adults and 26 chicks. This provided the first description of the Chinstrap penguin gastrointestinal tract microbiota and the most extensive in any penguin species. Firmicutes, Bacteoridetes, Proteobacteria, Fusobacteria, Actinobacteria, and Tenericutes were the main components. There were large differences between chicks and adults. The former had more Firmicutes and the latter more Bacteroidetes and Proteobacteria. In addition, adults had richer and more diverse bacterial communities than chicks. These differences were also observed between parents and their offspring. On the other hand, nests explained differences in bacterial communities only among chicks. We suggest that environmental factors have a higher importance than genetic factors in the microbiota composition of chicks. The results also showed surprisingly large differences in community composition with other Antarctic penguins including the congeneric Adélie and Gentoo penguins

Published
2016

174. Regulation of proteorhodopsin phototrophy in the flavobacterium Dokdonia sp. MED134

Author

Palovaara, J., Akram, Neelam, Pedrós-Alió, Carlos, González, José M., and Pinhassi, Jarone

Abstract

17th Ocean Sciences Meeting, 23-28 February 2014, Honolulu, Hawaii USA, Recent advances reveal the benefit of proteorhodopsin (PR) phototrophy for promoting growth and survival in marine bacteria. Still, the metabolic pathways actually mediating these light responses remain unknown. We therefore investigated metabolic activities and gene expression patterns in Dokdonia sp. MED134 growing in seawater with low concentrations of complex (yeast extract and peptone) or simple (alanine) dissolved organic carbon (DOC). Remarkably, anaplerotic CO2 fixation supplied 30% of the carbon demand in these carbon-limited cultures, with much stronger light responses in alanine. Expression analysis of 11 key genes in bicarbonate uptake, anaplerotic CO2 fixation and TCA cycle pathways showed the PR gene was up-regulated 40-fold in the light, independently of DOC source. Strikingly, the two genes in the glyoxylate shunt (icl and ms) were up-regulated 40- to 100-fold in the light – but only in seawater with alanine. This implies the glyoxylate shunt, which is widespread in marine bacteria, efficiently allows house holding with carbon when PR phototrophy provides ATP. Thus, regulatory interactions between DOC quality and central metabolic pathways critically determine the fitness of surface ocean bacteria engaging in PR phototrophy

Published
2014

175. Ecology and physiology of proteorhodopsin containing bacteria in the oceans

Author

Pedrós-Alió, Carlos

Abstract

XIVth International Congress of Bacteriology and Applied Microbiology International Union of Microbiological Societies Congresses (IUMS 2014), 27 July - 1 August 2014, Montréal, Canada.-- 1 page, About half of the bacteria living in the surface ocean contain a gene coding for proteorhodopsin (PR). PR acts as a light driven proton pump. In this way it provides energy to bacteria in the surface ocean when concentrations of suitable organic matter are low. Some bacteria can only use this extra energy to survive longer under starvation conditions. Flavobacteria, however, grow faster and more efficiently in the light than in the dark. Recent experiments show the intricate regulation of central metabolic pathways necessary for this positive growth effect of light. Finally, recent surveys in deep ocean (4000 m) and in Polar winter waters suggest that PR is present and sometimes active even under such dark conditions

Published
2014

177. Pervasive mixotrophy: genomic and metagenomic evidence for widespread organic compound uptake potential in marine autotrophs

Author

Yelton, A.P., Acinas, Silvia G., and Pedrós-Alió, Carlos

Abstract

Yelton, A.P. ... et. al.-- 17th Ocean Sciences Meeting, 23-28 February 2014, Honolulu, Hawaii USA, Photoheterotrophy or mixotrophy, the assimilation of organic compounds by autotrophs, has recently been demonstrated in both of the major marine cyanobacteria, Prochlorococcus spp. and Synechococcus spp. However, the ubiquity of this lifestyle remains unclear. Here we analyze metagenomic data from sixty-eight stations in all of the major oceans from the Tara Oceans expedition. This data has made it possible for the first time to track the global prokaryotic mixotrophic potential. Taxonomic assignment of organic compound uptake-related genes indicates that many (up to 29%) originate in genomes of “autotrophs”. Prochlorococcus spp. in particular have many organic compound uptake and metabolism genes. Additional data from forty-eight cultured isolates and single cell genomes indicates that Prochlorococcus ecotypes have differential capabilities to take up and catabolize organic compounds with strains belonging to the LL IV clade having the largest number of these genes. Metagenomic data demonstrate more organic compound uptake potential and a different gene complement for deep euphotic zone and mesopelagic Prochlorococcus. Overall, the cyanobacterial genetic potential for mixotrophy is globally distributed and extensive, suggesting cyanobacteria play an important role in oceanic secondary productivity

Published
2014

180. Seasonal patterns in phytoplankton photosynthetic parameters and primary production at a coastal NW Mediterranean site

Author

Gasol, Josep M., primary, Cardelús, Clara, additional, G. Morán, Xosé Anxelu, additional, Balagué, Vanessa, additional, Forn, Irene, additional, Marrasé, Cèlia, additional, Massana, Ramon, additional, Pedrós-Alió, Carlos, additional, Montserrat Sala, M., additional, Simó, Rafel, additional, Vaqué, Dolors, additional, and Estrada, Marta, additional

Published
2016
Full Text
View/download PDF

187. Diversity of planktonic microorganisms in the Arctic Ocean

Author

Fonds de Recherche du Québec, Ministerio de Ciencia e Innovación (España), Pedrós-Alió, Carlos, Potvin, Marianne, Lovejoy, Connie, Fonds de Recherche du Québec, Ministerio de Ciencia e Innovación (España), Pedrós-Alió, Carlos, Potvin, Marianne, and Lovejoy, Connie

Abstract

The present paper begins by reviewing recent developments in our understanding of the diversity of planktonic microorganisms in the Arctic Ocean, taking into account recent data from high throughput sequencing techniques. This data has enabled deeper analysis of the many thousands of different microorganisms present in natural samples. The Arctic Ocean is similar to the other oceans in terms of the abundance and general composition of microbial communities. However, some traits are unique. For example, there are essentially no cyanobacteria in the Arctic and their ecological role seems to be taken up by picoeukaryotic algae. Recent comparisons of the bacterial communities from the two Polar oceans with those from temperate waters showed that Polar communities were closer to each other than to the lower latitude ones. However, they only shared about 15% of the taxa. Newer data considerably increases the coverage of Arctic sites sampled and indicates that bacterial communities in the Arctic vary significantly across regions and seasons. In particular several recent cruises have provided access to the Arctic Ocean during the winter, the least known season and we review two instances of active microbes during the winter. First a bloom of Thaumarchaeota that may have been based on the use of urea as a source of carbon and reducing power, and second the increase in picoeukaryotic algae as soon as light reaches the ocean in February. Both examples show that there is considerable microbial activity during the Polar winter

Published
2015

188. Winter diversity and expression of proteorhodopsin genes in a polar ocean

Author

Nguyen, D., Maranger, Roxanne, Balagué, Vanessa, Coll-Lladó, Montserrat, Lovejoy, Connie, Pedrós-Alió, Carlos, Nguyen, D., Maranger, Roxanne, Balagué, Vanessa, Coll-Lladó, Montserrat, Lovejoy, Connie, and Pedrós-Alió, Carlos

Abstract

Mixotrophy is a valuable functional trait used by microbes when environmental conditions vary broadly or resources are limited. In the sunlit waters of the ocean, photoheterotrophy, a form of mixotrophy, is often mediated by proteorhodopsin (PR), a seven helices transmembrane protein binding the retinal chromophore. Altogether, they allow bacteria to capture photic energy for sensory and proton gradient formation cell functions. The seasonal occurrence and diversity of the gene coding for PR in cold oligotrophic polar oceans is not known and PR expression has not yet been reported. Here we show that PR is widely distributed among bacterial taxa, and that PR expression decreased markedly during the winter months in the Arctic Ocean. Gammaproteobacteria- like PR sequences were always dominant. However, within the second most common affiliation, there was a transition from Flavobacteria-like PR in early winter to Alphaproteobacteria- like PR in late winter. The phylogenetic shifts followed carbon dynamics, where patterns in expression were consistent with community succession, as identified by DNA community fingerprinting. Although genes for PR were always present, the trend in decreasing transcripts from January to February suggested reduced functional utility of PR during winter. Under winter darkness, sustained expression suggests that PR may continue to be useful for non-ATP forming functions, such as environmental sensing or small solute transport. The persistence of PR expression in winter among some bacterial groups may offer a competitive advantage, where its multifunctionality enhances microbial survival under harsh polar conditions

Published
2015

189. Ecology of marine Bacteroidetes: a comparative genomics approach

Author

Pedrós-Alió, Carlos, Fernández-Gómez, Beatriz, Richter, Michael, Schüler, Margarete, Pinhassi, Jarone, Fernàndez-Guerra, Antoni, Casamayor, Emilio O., Acinas, Silvia G., and González, José M.

Abstract

5th Congress of European Microbiologists (FEMS 2013), 21-25 july 2013, Leipzig, Germany.-- 1 page

Published
2013

190. The Ocean: A microbial ecosystem

Author

Pedrós-Alió, Carlos

Abstract

International Symposium: The Exploration of the Ocean: Achievements and Challenges, 13-14 June 2013, Madrid

Published
2013

193. La vida al límite

Author

Pedrós-Alió, Carlos

Abstract

Bacterias que comen piedras y que viven del aire, vida en otros planetas, crecer en agua hirviendo o soportar radiaciones gamma cuarenta veces mayores que las que podrían matar a un ser humano. Aunque la vida al límite pueda parecer verdaderamente cosa de alienígenas, en realidad, como nos explica Carlos Pedrós-Alió, algunos de los ecosistemas más extremos los tenemos muy cerca: en la cocina. Si analizamos la nevera, el microondas o el especiero, aprenderemos muchas cosas sobre cómo se abre camino la vida y por qué resulta tan difícil encontrar un desierto perfecto. Además, en esta obra veremos para qué sirven los metabolismos exóticos y cómo los aprovechamos para nuestros detergentes, la minería o para disfrutar el mismo placer estético que experimentamos ante una sinfonía

Published
2013

194. The metabolism of polar archaea: is urea playing a role?

Author

Alonso-Sáez, Laura, Estrada, Marta, Pedrós-Alió, Carlos, and Bertilsson, S.

Abstract

Alonso-Sáez, Laura ... et. al.-- 14th International Symposium on Microbial Ecology (ISME14), 19-24 August 2012 Copenhagen, Denmark, An annual recurrent growth of archaea in winter surface waters has been detected in polar systems. However, the sources of carbon and energy sustaining their growth remain elusive. We collected data on abundance and metabolic activity of Thaumarchaeota in Arctic and Antarctic waters by in situ single-cell analyses. The abundance of archaea grew one order of magnitude throughout the winter in Arctic waters. Yet, paradoxically, analyses by MicroAutoRadiography combined with Fluorescence In Situ Hybridization (MAR-FISH) revealed an unexpectedly low metabolic activity of Thaumarchaeota for both polar systems. Less than 5% of all thaumarchaeal cells took up leucine or bicarbonate, inconsistent with currently recognized heterotrophic and autotrophic archaeal lifestyles. To better understand how archaea obtain energy and carbon for growth, we analyzed a metagenome collected during the Arctic winter, when the Thaumarchaeota population was at its maximum of abundance (18% of cell counts). The metagenomic analysis revealed that archaeal amoA genes were abundant, indicating that polar archaea have the potential for ammonia oxidation. Furthermore, the presence of archaeal genes involved in urea transport and degradation suggests that Arctic archaea may use urea as an alternative source of ammonia, and thus energy for growth. Genes encoding ureases were also detected in Antarctic waters, confirming that urea degradation pathways are widespread among polar Thaumarchaeota, and hinting at the potential importance of urea to sustain their growth

Published
2012

195. Arctic marine microbes: looking forward to a shorter winter?

Author

Pedrós-Alió, Carlos

Abstract

14th International Symposium on Microbial Ecology (ISME14), 19-24 August 2012 Copenhagen, Denmark, Global change is particularly fast in the Arctic, where sea ice has been decreasing at a fast pace for several decades. As a consequence, the Arctic Ocean freezes later and melts earlier than before. This will likely affect the length of the growing season and the timing of the main phytoplankton bloom. However, the consequences for the winter community are unknown. In fact, the functioning of the winter ecosystem remains mostly in the dark. Thanks to a few overwintering cruises in the past few years we begin to realize that the microbial community during the Arctic winter is active. In fact, there are particular archaea and phototrophic flagellates that grow exponentially during the winter. We have determined their growth rates, the grazing by heterotrophic flagellates on them and we have explored their food and energy sources. Another question is whether a warming of the Arctic Ocean will cause extinction of endemic microorganisms. Most of the important Arctic Ocean microbes are different from those in the temperate zones. The bacterial assemblage shares similarities with the Southern Ocean microbiota. However, Arctic and Antarctic bacterial assemblages are clearly different. Thus, warming of the Arctic may endanger a unique microbiota adapted to cold and dark waters

Published
2012

196. Blanes Bay (Site 55)

Author

Gasol, Josep M., Massana, Ramon, Simó, Rafel, Marrasé, Cèlia, Acinas, Silvia G., Pedrós-Alió, Carlos, Pelejero, Carles, Sala, M. Montserrat, Calvo, Eva María, Vaqué, Dolors, and Peters, Francesc

Abstract

4 pages, 2 figures, Blanes Bay is an open, east-facing bay in the northwest Mediterranean Catalan coast ca. 70 km north of the city of Barcelona. It was selected as a monitoring site because it is a good example of an oligotrophic (relatively nutrient-poor) coastal ecosystem that is relatively unaffected by human influence. It is also one of the sites for which more information exists on the ecology of the Mediterranean planktonic environment, with papers on phytoplankton dating back to the 1940s (Margalef, 1945). [...]

Published
2012

197. The biosphere of rare bacteria: the largest and oldest cooperative in the world

Author

Pedrós-Alió, Carlos

Abstract

I Congrés Internacional de Biologia de Catalunya (CIBICAT): Global Questions on Advanced Biology. An international conference on interdisciplinary frontiers in biology. As part of the first Centenary of the Societat Catalana de Biologia. 9-12 July 2012, Barcelona, All communities are dominated by a few species that account for most of the biomass and carbon cycling. On the other hand, a large number of species are represented by only a few individuals. In the case of bacteria, these rare species were until recently invisible. Due to their low numbers, conventional molecular techniques could not retrieve them. Isolation in pure culture was the only way to identify some of them, but current culturing techniques are unable to isolate most of the bacteria in nature. The recent development of fast and cheap high throughput sequencing has begun to allow access to the rare species. In the case of bacteria, exploring this “rare biosphere” has several points of interest. First, it will eventually produce a reasonable estimate of the total number of bacterial taxa in the oceans. Right now we do not even know the right order of magnitude. Second, it will solve the question of whether everything is everywhere or not. Third, it will require hypothesizing and testing the ecological mechanisms that allow subsistence of many species in low numbers. And fourth, it will open an avenue of research into the immense reserve of genes with potential applications hidden in the rare biosphere. One of the most attractive perspectives is to consider this immense set of bacteria and genomes as a community that cooperates to maintain the cycles of elements and the flux of energy.

Published
2012

198. Growth and Grazing of the Arctic Picophytoplankton from Winter to Spring

Author

Rodríguez-Martínez, Raquel, Massana, Ramon, and Pedrós-Alió, Carlos

Abstract

IPY2012 Conference Montréal. From Knowledge to Action, 22-27 April 2012, Montréal, Canada, Polar waters during winter are still one of the least known ecosystems in the world due to remoteness and harsh conditions. Yet, winter ecology is the necessary previous step for everything that occurs during spring and summer. The Canadian IPY project Circumpolar Flaw Lead Polynya Study (on board of the CCGS Amundsen) included a time series from the darkest (December 2007) to the most lit times of the year (June 2008) in Amundsen Gulf, a dynamic area due to the presence of a polynya. Our objective was to determine the activities and trophic relationships of planktonic microorganisms during winter. We observed that chlorophyll a decreased during the fall and early winter as expected. In middle February, however, chlorophyll started to increase exponentially despite the low light levels. This could be attributed to small flagellates, particularly Micromonas. This growth was followed by an increase in large flagellates that likely fed on these algae. Heterotrophic bacteria increased in numbers about a month later than the algal bloom and bacterivory by small pico and nanoflagellates followed. Thus, the first link of the trophic chain to become active after the total darkness period was autotrophic picoflagellates (mostly Micromonas) to large nanoflagellates. As a first approach to determine the role of this picophytoplankton we carried out several grazing experiments starting in winter (January 2008). We did 96-hour incubations with the in situ predator-prey community and an external alive Micromonas culture (RCC497 strain) as a tracer. The fascinating thing was that the grazing rates on Micromonas obtained were of the same order of magnitude as the in situ net death rates of the algae during December and January. This suggests that the decrease in chlorophyll a was not due to lack of light but to grazing. That is, the algae were able to subsist for a few months despite the absence of light. This is of larger significance, since it has been shown that this Micromonas phylotype is an Arctic endemism and is widespread throughout the Arctic Ocean, presumably playing a role similar to that of cyanobacteria at lower altitudes

Published
2012

199. The microbial food web during the Arctic winter

Author

Pedrós-Alió, Carlos, Alonso-Sáez, Laura, Fernández-Gómez, Beatriz, Sala, M. Montserrat, Vaqué, Dolors, Rodríguez-Martínez, Raquel, Massana, Ramon, Bertilsson, Stefan, Galand, Pierre E., and Casamayor, Emilio O.

Abstract

IPY2012 Conference Montréal. From Knowledge to Action, 22-27 April 2012, Montréal, Canada, The microbial ecology of polar oceans is still poorly known, especially in winter, when only a handful of studies have been carried out. The Canadian IPY project Circumpolar Flaw Lead Polynya Study included a time series from the darkest (December 2007) to the most lit times of the year (June 2008) in Amundsen Gulf, a dynamic area due to the presence of a polynya. Our objective was to determine the activities and trophic relationships of planktonic microorganisms during winter. Chlorophyll a decreased during the fall and early winter as expected. In middle February, however, chlorophyll started to increase exponentially despite the low light levels. This could be attributed to small flagellates, particularly Micromonas. We determined grazing rates on these algae that were of the same order of magnitude as the in situ net decrease rates in January. This grazing was mostly due to relatively large nanoflagellates (non bacterivorous). Heterotrophic bacteria increased in numbers about a month later than the algal bloom and bacterivory by small pico and nanoflagellates followed. Thus, the first trophic chain to become active after the total darkness period was autotrophic picoflagellates (mostly Micromonas) to large nanoflagellates. We studied the trophic mode of the heterotrophic bacteria and archaea with custom designed BIOLOG plates. We also carried out enrichment experiments in the dark and followed the development of different prokaryotes determining their ability to use leucine and bicarbonate by microautoradiography combined with FISH (fluorescence in situ hybridization). Finally, we determined bacterivory rates. The bacteria were active on the substrates assayed. The archaea, however, showed very low activities both with organic substrates and with bicarbonate. Their main source of carbon, therefore, remains elusive

Published
2012

Catalog

Books, media, physical & digital resources
See catalog results