Your search keyword '"Rodríguez-Gallego L"' showing total 9 results

1. Distribution of Saltmarsh Plant Communities Associated with Environmental Factors along a Latitudinal Gradient on the South-West Atlantic Coast

Author

Isacch, J. P., Costa, C. S. B., Rodríguez-Gallego, L., Conde, D., Escapa, M., Gagliardini, D. A., and Iribarne, O. O.

Published

2006

2. Chapter 13 - Solutions for Sustainable Coastal Lagoon Management: From Conflict to the Implementation of a Consensual Decision Tree for Artificial Opening

Author

Conde, D., Vitancurt, J., Rodríguez-Gallego, L., de Álava, D., Verrastro, N., Chreties, C., Solari, S., Teixeira, L., Lagos, X., Piñeiro, G., Seijo, L., Caymaris, H., and Panario, D.

Published

2015

3. Contributors

Author

Ansong, Joseph Onwona, Avalos, Francisco Miranda, Ba, Alioune, Baztan, Juan, Beye Mendy, Anastasie, Black, Kenny, Blanchard, Anne, Bowen, Kieran, Bremer, Scott, Brennan, Ruth, Broglio, Elisabetta, Carrasco, Ana, Caymaris, H., Chouinard, Omer, Chreties, C., Clarke, Colleen Mercer, Clarke, John D., Conde, D., Cook, Elizabeth, Cornacchia, Loreta, Da Cunha, Charlotte, Davidson, Keith, de Álava, D., Ernsteins, Raimonds, Fall Niang, Awa, Galgani, François, García-León, M., Garrabou, Joaquim, Gaye, Ndickou, Gobin, Judith, Gopalakrishnan, Sathya, Gràcia, V., Huck, Thierry, Huvet, Arnaud, Iglesias-Campos, Alejandro, Jorgensen, Bethany, Jouitteau, Mélanie, Kaiser, Matthias, Kane, Alioune, Kaulins, Janis, Keeler, Andrew G., Lagos, X., Landry, Craig E., Lane, Daniel E., Lontone, Anita, McNamara, Dylan, Meiner, Andrus, Miguelez, Aquilino, Moore, Laura J., Murray, A. Brad, Mycoo, Michelle, Pahl, Sabine, Panario, D., Paul-Pont, Ika, Piñeiro, G., Plante, Steve, Quenet, Gregory, Quensière, Jacques, Rabeniaina, Tiavina Rivoarivola, Rodríguez-Gallego, L., Sánchez-Arcilla, A., Seck, Aichetou, Seijo, L., Smith, Martin D., Solari, S., Soudant, Philippe, Surette, Céline, Taramelli, Andrea, Teixeira, L., Tett, Paul, Thiaw, Diatou, Thompson, Richard, Torero, Mariano Gutiérrez, Valentini, Emiliana, Vanderlinden, Jean-Paul, Vasseur, Liette, Verrastro, N., Vitancurt, J., Weissenberger, Sebastian, and Zilniece, Ilga

Published

2015

4. The effects of an artificial wetland dominated by free-floating plants on the restoration of a subtropical, hypertrophic lake.

Author

Rodríguez-Gallego, L. R., Mazzeo, N., Gorga, J., Meerhoff, M., Clemente, J., Kruk, C., Scasso, F., Lacerot, G., García, J., and Quintans, F.

Subjects

*CONSTRUCTED wetlands, *BIOTIC communities, *WATER pollution, *WATER quality, *AQUATIC organisms, *AQUATIC plants

Abstract

Lake Rodó (Montevideo, Uruguay) is a small, urban, hypertrophic lake undergoing restoration. In this study, we evaluated the nutrient removal efficiency and water quality improvement attributable to a water recirculation system, consisting of the lake and three connected pools converted to artificial wetlands dominated by free-floating hydrophytes.Eichhornia crassipesandSpirodela intermediadominated the hydrophyte community during summer and winter, respectively, with the biomass production being maintained throughout the year. The maximum production values ofE. crassipeswere 11.3 and 5.6 g DW m−2 d−1 in the summers of 1998 and 2000, respectively, while those ofS. intermediawere 2.7 and 0.8 g DW m−2 d−1 in the summers of 1999 and 2000, respectively. The aquatic plant community reduced the concentration of nutrients in the water column but did not significantly affect the sediment concentrations. Harvesting the hydrophytes removed the equivalent of 58–88% and 39–78% of the nitrogen (N) and phosphorus (P) load associated with the water column, respectively. In contrast, the harvests accounted for only 1–2% of the N and P load associated with the sediments. In the pools, the combination of water recirculation and hydrophytes generally diminished the algal biomass and the associated N and P, compared to that observed for the lake. The combined use of adequate aquatic plant harvests and hydraulic management increased the efficiency of the system and, therefore, seems to be a useful tool for restoring small, shallow lakes in tropical and subtropical regions. [ABSTRACT FROM AUTHOR]

Published

2004

5. Spatial and temporal dynamics and potential pathogenicity of fecal coliforms in coastal shallow groundwater wells.

Author

Soumastre M, Piccini J, Rodríguez-Gallego L, González L, Rodríguez-Graña L, Calliari D, and Piccini C

Subjects

Environmental Monitoring, Humans, Virulence, Water Wells, Escherichia coli, Groundwater

Abstract

Access to water through shallow groundwater wells is a common practice in coastal settlements. This, coupled with a lack of planning for wastewater disposal promotes fecal contamination of groundwater and poses a threat to human health. Here, the spatial and temporal dynamics of groundwater fecal contamination was evaluated during summer and winter (2013 and 2014) in a coastal protected area having a high touristic relevance (Cabo Polonio, Uruguay). Fecal coliforms (FC) abundance in groundwater was significantly higher during summer, related to an influx of ~ 1000 tourists per day. A significant spatial autocorrelation was found in 2014, when the abundance of FC in a well was influenced by its three nearest wells (Moran and Geary tests). The applied statistical models (mixed models) indicated that total phosphorus and organic matter were the variables significantly explaining FC abundance. The risk for human health was estimated using groundwater-extracted DNA and qPCR of genes encoding for E. coli virulence factors (stx1, stx2, and eae). Potential Shiga toxin-producing enteropathogenic and enterohemorrhagic pathotypes were detected, even at FC abundances ≤ 1 CFU (100 mL -1 ). Moreover, we found that contaminated groundwater reached the beach, being the presence of FC in sand detected even in winter and showing its highest frequency nearby groundwater wells consistently having high FC abundance (hot spots). Altogether, the results show that fecal contamination of shallow groundwater in Cabo Polonio involves a risk for human health that intensifies during summer (associated to a significant increase of tourists). This contamination also impacts the beach, where FC can remain through the whole year., (© 2022. The Author(s), under exclusive licence to Springer Nature Switzerland AG.)

Published

2022

6. Trophic assessment in South American Atlantic coastal lagoons: Linking water, sediment and diatom indicators.

Author

Tudurí A, Becoña LP, Venturini N, Rodríguez-Gallego L, García-Rodríguez F, González L, Lescano C, Costa S, Del Puerto L, and Bergamino L

Subjects

Environmental Monitoring, Eutrophication, Water, Water Quality, Diatoms

Abstract

Within two coastal shallow lagoons, trophic state was assessed by integrating water and sediment chemical indicators such as the TRIX and the benthic biopolymeric carbon (BPC) trophic indicator, altogether with biological environmental indicators (diatom species characterization). Spatial and temporal behavior of TRIX and BPC indices suggest that water column trophic indicators reflect rather short-term variations in water quality changes, while benthic trophic indicators rather reflect consistent long-term trends which make them useful as enduring indicators of eutrophication. Canonical Correspondence Analysis (CCA) showed that both sediment and transitional water trophic state indices increased eutrophic conditions with a decreasing salinity and increasing total nutrients. Diatom species associated with elevated eutrophic condition such as Staurosirella martyi, Staurosira breviestriata, Amphora copulata, Amphora veneta, Nitzschia sp., and Bacillaria paradoxa, showed a positive correlation with both trophic indices. We highlight the need for considering sediment eutrophication indicators towards in monitoring programmes within shallow coastal lagoons., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

7. Basin-scale monitoring and risk assessment of emerging contaminants in South American Atlantic coastal lagoons.

Author

Griffero L, Alcántara-Durán J, Alonso C, Rodríguez-Gallego L, Moreno-González D, García-Reyes JF, Molina-Díaz A, and Pérez-Parada A

Abstract

Emerging contaminants (ECs) such as pharmaceuticals, personal care products, drugs of abuse and polar pesticides are under particular attention due to their high consumption, frequent detection in the environment and reported ecotoxicological risk. This study investigates the occurrence and distribution of multiclass of ECs in surface waters at basin scale of two Atlantic coastal lagoons of Uruguay, South America. For this purpose, a target screening approach covering up to 362 compounds was employed using nanoflow liquid chromatography - high resolution mass spectrometry (nanoLC/HRMS). 56 compounds were identified including five banned pesticides in the European Union: atrazine, carbendazim, chlorpyrifos ethyl, diazinon, and ethion. Pharmaceuticals, hormones and drugs of abuse showed maximum detection frequencies and concentrations downstream cities. The highest occurrence of pesticides was found in lagoons and streams with neighboring agricultural activity. ECs were also found in coastal sea. Environmental risk assessment revealed that the hormones 17α-ethinylestradiol and 17-β-estradiol showed the highest risk to aquatic organisms in these basins. This study represents the first basin- scale monitoring of ECs in superficial waters encompassing streams, lagoons, and coastal seas in Uruguay, South America., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

8. Global patterns and drivers of ecosystem functioning in rivers and riparian zones.

Author

Tiegs SD, Costello DM, Isken MW, Woodward G, McIntyre PB, Gessner MO, Chauvet E, Griffiths NA, Flecker AS, Acuña V, Albariño R, Allen DC, Alonso C, Andino P, Arango C, Aroviita J, Barbosa MVM, Barmuta LA, Baxter CV, Bell TDC, Bellinger B, Boyero L, Brown LE, Bruder A, Bruesewitz DA, Burdon FJ, Callisto M, Canhoto C, Capps KA, Castillo MM, Clapcott J, Colas F, Colón-Gaud C, Cornut J, Crespo-Pérez V, Cross WF, Culp JM, Danger M, Dangles O, de Eyto E, Derry AM, Villanueva VD, Douglas MM, Elosegi A, Encalada AC, Entrekin S, Espinosa R, Ethaiya D, Ferreira V, Ferriol C, Flanagan KM, Fleituch T, Follstad Shah JJ, Frainer Barbosa A, Friberg N, Frost PC, Garcia EA, García Lago L, García Soto PE, Ghate S, Giling DP, Gilmer A, Gonçalves JF Jr, Gonzales RK, Graça MAS, Grace M, Grossart HP, Guérold F, Gulis V, Hepp LU, Higgins S, Hishi T, Huddart J, Hudson J, Imberger S, Iñiguez-Armijos C, Iwata T, Janetski DJ, Jennings E, Kirkwood AE, Koning AA, Kosten S, Kuehn KA, Laudon H, Leavitt PR, Lemes da Silva AL, Leroux SJ, LeRoy CJ, Lisi PJ, MacKenzie R, Marcarelli AM, Masese FO, McKie BG, Oliveira Medeiros A, Meissner K, Miliša M, Mishra S, Miyake Y, Moerke A, Mombrikotb S, Mooney R, Moulton T, Muotka T, Negishi JN, Neres-Lima V, Nieminen ML, Nimptsch J, Ondruch J, Paavola R, Pardo I, Patrick CJ, Peeters ETHM, Pozo J, Pringle C, Prussian A, Quenta E, Quesada A, Reid B, Richardson JS, Rigosi A, Rincón J, Rîşnoveanu G, Robinson CT, Rodríguez-Gallego L, Royer TV, Rusak JA, Santamans AC, Selmeczy GB, Simiyu G, Skuja A, Smykla J, Sridhar KR, Sponseller R, Stoler A, Swan CM, Szlag D, Teixeira-de Mello F, Tonkin JD, Uusheimo S, Veach AM, Vilbaste S, Vought LBM, Wang CP, Webster JR, Wilson PB, Woelfl S, Xenopoulos MA, Yates AG, Yoshimura C, Yule CM, Zhang YX, and Zwart JA

Subjects

Human Activities, Humans, Carbon Cycle physiology, Ecosystem, Environmental Monitoring methods, Rivers microbiology, Temperature

Abstract

River ecosystems receive and process vast quantities of terrestrial organic carbon, the fate of which depends strongly on microbial activity. Variation in and controls of processing rates, however, are poorly characterized at the global scale. In response, we used a peer-sourced research network and a highly standardized carbon processing assay to conduct a global-scale field experiment in greater than 1000 river and riparian sites. We found that Earth's biomes have distinct carbon processing signatures. Slow processing is evident across latitudes, whereas rapid rates are restricted to lower latitudes. Both the mean rate and variability decline with latitude, suggesting temperature constraints toward the poles and greater roles for other environmental drivers (e.g., nutrient loading) toward the equator. These results and data set the stage for unprecedented "next-generation biomonitoring" by establishing baselines to help quantify environmental impacts to the functioning of ecosystems at a global scale.

Published

2019

9. Temperature and precipitation shape the distribution of harmful cyanobacteria in subtropical lotic and lentic ecosystems.

Author

Haakonsson S, Rodríguez-Gallego L, Somma A, and Bonilla S

Subjects

Climate Change, Seasons, South America, Temperature, Cyanobacteria growth & development, Ecosystem, Environmental Monitoring, Eutrophication, Fresh Water microbiology

Abstract

Cyanobacterial blooms are expected to become more frequent in freshwaters globally due to eutrophication and climate change effects. However, our knowledge about cyanobacterial biogeography in the subtropics, particularly in lotic ecosystems, is still very limited and the relationship of blooms to temperature and precipitation remains unclear. We took advantage of a comprehensive database of field data compiled over several years (1997 to 2015) to compare cyanobacteria biomass and distribution between lentic and lotic subtropical freshwaters (36 ecosystems, 30°-35°S) and to investigate the role of water temperature and precipitation as significant predictors in eutrophic ecosystems. A filamentous Nostocales, Dolichospermum (Anabaena), was the most widely distributed and frequent genus in the region of the study, followed by the colonial Microcystis, supporting observations of a global latitudinal pattern. Similar total cyanobacteria biovolumes (TCB) were found in lentic and lotic ecosystems, but the proportion of Dolichospermum was higher in lotic ecosystems. Using generalized linear models (GLMs), we found that temperature and rainfall explained 27% of the variation in TCB in lotic ecosystems, while temperature explained 19 and 28% of Dolichospermum and Microcystis biovolume, respectively. In lentic ecosystems, accumulated rainfall explained 34% of the variation of Microcystis biovolume while temperature explained 64%. Our results imply that the increase in extreme meteorological events and temperature predicted by climate models will promote increasingly severe cyanobacterial blooms in eutrophic subtropical freshwaters. Our analysis provides new information about the occurrence of bloom-forming cyanobacteria for southeastern South America and thus fills an important knowledge gap for subtropical freshwaters., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017