Benthic diatoms in relation to environmental factors in an allochthonous river from Patagonia, Argentina
Camilo Vélez-Agudelo A B C and Marcela A. Espinosa A BA Instituto de Geología de Costas y del Cuaternario, Universidad Nacional de Mar del Plata/CIC, Dean Funes 3350, Mar del Plata 7600, Argentina.
B Instituto de Investigaciones Marinas y Costeras, CONICET/UNMdP, Universidad Nacional de Mar del Plata, Dean Funes 3350, Mar del Plata 7600, Argentina.
C Corresponding author. Email: kmilovelez82@gmail.com
Marine and Freshwater Research 72(9) 1340-1352 https://doi.org/10.1071/MF20249
Submitted: 13 August 2020 Accepted: 9 March 2021 Published: 19 April 2021
Abstract
Natural and human pressures increasingly threatening the biodiversity and water resources of dryland rivers. Fluvial environments of Patagonia harbour high diatom diversity, but their management value is overlooked. The aim of this study is to explore the diatom distribution in surface sediments of the Chubut River and evaluate their relationship with environmental variables. In total, 243 diatom taxa were identified in 16 littoral zone sites. The physical and chemical variables independently explained the variance in diatom data, whereas sediment texture had a low influence. Conductivity, major ions (HCO3–, Cl–, SO42–, Na+, K+, Ca2+ and Mg2+) and pH were the main environmental drivers explaining the diatom composition. As the highlighted variables increased near the mouth, so did the relative abundances of marine–brackish taxa such as Amphora copulatoides, Sarcophagodes alfred-wegeneri, Nitzschia fonticola and Tryblionella apiculata. Meanwhile, the presence of high pollution-tolerant diatoms can be put forward to explain the river health deterioration towards downstream areas. The marine–brackish taxa found at freshwater sites reflect a weak tidal influence in the estuary compared with other coastal systems of Patagonia. This study provides valuable information to test the hypothesis on the ecological status of aquatic resources and the potential effects of climatic and hydrological changes in the area.
Keywords: algae, benthos, freshwater, estuarine, ecohydrology.
References
APHA (1998). ‘Standard Methods for the Examination of Water and Wastewater.’ (American Public Health Association: Washington, DC, USA.)Austin, P., Mackay, A., Palagushkina, O., and Leng, M. (2007). A high-resolution diatom-inferred palaeoconductivity and lake level record of the Aral Sea for the last 1600 yr. Quaternary Research 67, 383–393.
| A high-resolution diatom-inferred palaeoconductivity and lake level record of the Aral Sea for the last 1600 yr.Crossref | GoogleScholarGoogle Scholar |
Ayestarán, M., and Sastre, A. (1995). Diatomeas del curso inferior del Río Chubut (Patagonia Argentina). Pennales I: Naviculaceae. Boletín de la Sociedad Argentina de Botánica 31, 57–68.
B-Béres, V., Török, P., Kókai, Z., Krasznai, E. T., Tóthmérész, B., and Bácsi, I. (2014). Ecological diatom guilds are useful but not sensitive enough as indicators of extremely changing water regimes. Hydrobiologia 738, 191–204.
| Ecological diatom guilds are useful but not sensitive enough as indicators of extremely changing water regimes.Crossref | GoogleScholarGoogle Scholar |
Baigún, C., and Ferriz, R. (2003). Distribution patterns of native freshwater fishes in Patagonia (Argentina). Organisms, Diversity & Evolution 3, 151–159.
| Distribution patterns of native freshwater fishes in Patagonia (Argentina).Crossref | GoogleScholarGoogle Scholar |
Barbosa, L. G., Amorim, C. A., Parra, G., Laco Portinho, J., Morais, M., Morales, E. A., and Menezes, R. F. (2020). Advances in limnological research in Earth’s drylands. Inland Waters 10, 429–437.
| Advances in limnological research in Earth’s drylands.Crossref | GoogleScholarGoogle Scholar |
Battarbee, R. W., Jones, V. J., Flower, R. J., Cameron, N. G., Bennion, H., Carvalho, L., and Juggins, S. (2001). Diatoms. In ‘Tracking Environmental Change Using Lake Sediments: Terrestrial, Algal, and Siliceous Indicators’. Vol. 3. (Eds J. Smol, H. Birks, and W. Last.) pp. 155–202. (Springer: Netherlands.)
Bere, T. (2014). Ecological preferences of benthic diatoms in a tropical river system in São Carlos-SP, Brazil. Tropical Ecology 55, 47–61.
Bere, T., and Tundisi, J. (2010). Biological monitoring of lotic ecosystems: the role of diatoms. Brazilian Journal of Biology 70, 493–502.
| Biological monitoring of lotic ecosystems: the role of diatoms.Crossref | GoogleScholarGoogle Scholar |
Bermejo, P., Helbling, E. W., Durán-Romero, C., Cabrerizo, M. J., and Villafañe, V. E. (2018). Abiotic control of phytoplankton blooms in temperate coastal marine ecosystems: a case study in the South Atlantic Ocean. The Science of the Total Environment 612, 894–902.
| Abiotic control of phytoplankton blooms in temperate coastal marine ecosystems: a case study in the South Atlantic Ocean.Crossref | GoogleScholarGoogle Scholar | 28886541PubMed |
Bertolli, L. M., Talgatti, D. M., Nascimento, T. M. S., and Torgan, L. C. (2020). The genus Tryblionella W. Smith (Bacillariaceae, Bacillariophyta) in southern Brazil salt marshes. Biota Neotropica 20, e20190774.
| The genus Tryblionella W. Smith (Bacillariaceae, Bacillariophyta) in southern Brazil salt marshes.Crossref | GoogleScholarGoogle Scholar |
Bey, M., and Ector, L. (2013). ‘Atlas des diatomées des cours d’eau de la region Rhône-Alpes. Tome 1–6.’ (Direction regionale de l’Environnement, de l’Amenagement et du Logement Rhone-Alpes: Lyon, France.)
Bicudo, D. C., Tremarin, P. I., Almeida, P. D., Zorzal-Almeida, S., Wengrat, S., Faustino, S. B., Costa, L. F., Bartozek, E. C., Rocha, A. C., and Bicudo, C. E. (2016). Ecology and distribution of Aulacoseira species (Bacillariophyta) in tropical reservoirs from Brazil. Diatom Research 31, 199–215.
| Ecology and distribution of Aulacoseira species (Bacillariophyta) in tropical reservoirs from Brazil.Crossref | GoogleScholarGoogle Scholar |
Borcard, D., Legendre, P., and Drapeau, P. (1992). Partialling out the spatial component of ecological variation. Ecology 73, 1045–1055.
| Partialling out the spatial component of ecological variation.Crossref | GoogleScholarGoogle Scholar |
Brunet, F., Gaiero, D., Probst, J., Depetris, P. J., Gauthier Lafaye, F., and Stille, P. (2005). δ13C tracing of dissolved inorganic carbon sources in Patagonian rivers (Argentina). Hydrological Processes 19, 3321–3344.
| δ13C tracing of dissolved inorganic carbon sources in Patagonian rivers (Argentina).Crossref | GoogleScholarGoogle Scholar |
Burford, M. A., Cook, A. J., Fellows, C. S., Balcombe, S. R., and Bunn, S. E. (2008). Sources of carbon fuelling production in an arid floodplain river. Marine and Freshwater Research 59, 224–234.
| Sources of carbon fuelling production in an arid floodplain river.Crossref | GoogleScholarGoogle Scholar |
Camargo, J. A., and Jiménez, A. (2007). Ecological responses of epilithic diatoms and aquatic macrophytes to fish farm pollution in a Spanish river. Anales del Jardin Botanico de Madrid 64, 213–219.
| Ecological responses of epilithic diatoms and aquatic macrophytes to fish farm pollution in a Spanish river.Crossref | GoogleScholarGoogle Scholar |
Chiarandini Fiore, J. P., Scapini, M. C., and Olivieri, A. C. (2013). Excitation–emission matrices applied to the study of urban effluent discharges in the Chubut River (Patagonia, Argentina). Environmental Monitoring and Assessment 185, 6909–6919.
| Excitation–emission matrices applied to the study of urban effluent discharges in the Chubut River (Patagonia, Argentina).Crossref | GoogleScholarGoogle Scholar | 23325315PubMed |
Cochero, J., Licursi, M., and Gómez, N. (2015). Changes in the epipelic diatom assemblage in nutrient rich streams due to the variations of simultaneous stressors. Limnologica 51, 15–23.
| Changes in the epipelic diatom assemblage in nutrient rich streams due to the variations of simultaneous stressors.Crossref | GoogleScholarGoogle Scholar |
Commendatore, M., and Esteves, J. (2004). Natural and anthropogenic hydrocarbons in sediments from the Chubut River (Patagonia, Argentina). Marine Pollution Bulletin 48, 910–918.
| Natural and anthropogenic hydrocarbons in sediments from the Chubut River (Patagonia, Argentina).Crossref | GoogleScholarGoogle Scholar | 15111038PubMed |
Coronato, A., Coronato, F., Mazzoni, E., and Vázquez, M. (2008). The physical geography of Patagonia and Tierra del Fuego. Developments in Quaternary Sciences 11, 13–55.
| The physical geography of Patagonia and Tierra del Fuego.Crossref | GoogleScholarGoogle Scholar |
Coronato, A., Mazzoni, E., Vázquez, M., and Coronato, F. (2017). ‘Patagonia. Una síntesis de su geografía física.’ (Ediciones Universidad Nacional de la Patagonia Austral: Santa Cruz, Argentina.)
Dalu, T., Bere, T., Richoux, N. B., and Froneman, P. W. (2015). Assessment of the spatial and temporal variations in periphyton communities along a small temperate river system: a multimetric and stable isotope analysis approach. South African Journal of Botany 100, 203–212.
| Assessment of the spatial and temporal variations in periphyton communities along a small temperate river system: a multimetric and stable isotope analysis approach.Crossref | GoogleScholarGoogle Scholar |
Dalu, T., Richoux, N. B., and Froneman, P. W. (2016). Distribution of benthic diatom communities in a permanently open temperate estuary in relation to physico-chemical variables. South African Journal of Botany 107, 31–38.
| Distribution of benthic diatom communities in a permanently open temperate estuary in relation to physico-chemical variables.Crossref | GoogleScholarGoogle Scholar |
Davies, J., Barchiesi, S., Ogali, C. J., Welling, R., Dalton, J., and Laban, P. (2016). ‘Water in Drylands: Adapting to Scarcity Through Integrated Management.’ (IUCN: Gland, Switzerland.)
Echazú, D. M. (2012). Biodiversidad de diatomeas en humedales del sur de la Provincia de Santa Cruz, Argentina. Ph.D. thesis, Universidad de Buenos Aires, Argentina.
Espinosa, M. A. (2008). Diatoms from Patagonia and Tierra del Fuego. In ‘Late Cenozoic of Patagonia and Tierra del Fuego’. Vol. 11. (Ed. J. Rabassa.) pp. 383–392. (Developments in Quaternary Sciences: Elsevier.)
Espinosa, M., and Beilinson, E. (2019). Late Pleistocene diatoms of the lower basin from the Quequén Salado River, Argentina. In ‘Advances in South American Micropaleontology’. (Eds G. Cusminsky, E. Bernasconi, and A. Concheyro.) pp. 130–142. (Springer: Switzerland.)
Espinosa, M. A., and Isla, F. I. (2011). Diatom and sedimentary record during the Mid-Holocene evolution of the San Blas estuarine complex, Northern Patagonia, Argentina. Ameghiniana 48, 411–423.
| Diatom and sedimentary record during the Mid-Holocene evolution of the San Blas estuarine complex, Northern Patagonia, Argentina.Crossref | GoogleScholarGoogle Scholar |
Espinosa, M. A., and Isla, F. I. (2015). Modern diatom assemblages in surface sediments from meso-macrotidal estuaries of Patagonia, Argentina. Pan-American Journal of Aquatic Sciences 10, 29–43.
Fayó, R., and Espinosa, M. A. (2014). Reconstrucción paleoambiental de la planicie costera de Mar Chiquita (Provincia de Buenos Aires, Argentina) durante el Holoceno, basada en diatomeas. Ameghiniana 51, 510–528.
| Reconstrucción paleoambiental de la planicie costera de Mar Chiquita (Provincia de Buenos Aires, Argentina) durante el Holoceno, basada en diatomeas.Crossref | GoogleScholarGoogle Scholar |
Ferrario, M. E., and Sar, E. (1984). Consideraciones taxonómicas sobre diatomeas epífitas del intermareal rocoso marplatense. I. Revista del Museo de La Plata 13, 197–211.
Ferrario, M., and Sastre, V. (1990). Ultraestructura, polimorfismo y ecología de Odontella aurita (Lyngbye) Agardh (Bacillariophyceae) en el estuario del río Chubut, Argentina. Revista de la Facultad de Oceanografía Pesquera y Ciencias Alimentarias de la Universidad Nacional Federico Villareal 2, 98–106.
Folk, R. L. (1980). ‘Petrology of Sedimentary Rocks.’ (Hemphill Publishing Company: Austin, TX, USA.)
Genkal, S. (2009). New data on the morphology, taxonomy, ecology, and distribution of Stephanodiscus agassizensis Håkansson et Hickel (Bacillariophyta). Inland Water Biology 2, 113–126.
| New data on the morphology, taxonomy, ecology, and distribution of Stephanodiscus agassizensis Håkansson et Hickel (Bacillariophyta).Crossref | GoogleScholarGoogle Scholar |
Gómez, N., and Licursi, M. (2001). The Pampean Diatom Index (IDP) for assessment of rivers and streams in Argentina. Aquatic Ecology 35, 173–181.
| The Pampean Diatom Index (IDP) for assessment of rivers and streams in Argentina.Crossref | GoogleScholarGoogle Scholar |
Gregory-Eaves, I., and Beisner, B. E. (2011). Palaeolimnological insights for biodiversity science: an emerging field. Freshwater Biology 56, 2653–2661.
| Palaeolimnological insights for biodiversity science: an emerging field.Crossref | GoogleScholarGoogle Scholar |
Guasch, H., Leira, M., Montuelle, B., Geiszinger, A., Roulier, J. L., Tornés, E., and Serra, A. (2009). Use of multivariate analyses to investigate the contribution of metal pollution to diatom species composition: search for the most appropriate cases and explanatory variables. Hydrobiologia 627, 143–158.
| Use of multivariate analyses to investigate the contribution of metal pollution to diatom species composition: search for the most appropriate cases and explanatory variables.Crossref | GoogleScholarGoogle Scholar |
Hassan, G. S., Espinosa, M. A., and Isla, F. I. (2006). Modern diatom assemblages in surface sediments from estuarine systems in the Southeastern Buenos Aires Province, Argentina. Journal of Paleolimnology 35, 39–53.
| Modern diatom assemblages in surface sediments from estuarine systems in the Southeastern Buenos Aires Province, Argentina.Crossref | GoogleScholarGoogle Scholar |
Hassan, G. S., Espinosa, M. A., and Isla, F. I. (2007). Dead diatom assemblages in surface sediments from a low impacted estuary: the Quequen Salado river, Argentina. Hydrobiologia 579, 257–270.
| Dead diatom assemblages in surface sediments from a low impacted estuary: the Quequen Salado river, Argentina.Crossref | GoogleScholarGoogle Scholar |
Helbling, E. W., Santamarina, J., and Villafañe, V. (1992). Chubut river estuary (Argentina): estuarine variability under different conditions of river discharge. Revista de Biología Marina 27, 73–90.
Helbling, E. W., Pérez, D. E., Medina, C. D., Lagunas, M. G., and Villafañe, V. E. (2010). Phytoplankton distribution and photosynthesis dynamics in the Chubut River estuary (Patagonia, Argentina) throughout tidal cycles. Limnology and Oceanography 55, 55–65.
| Phytoplankton distribution and photosynthesis dynamics in the Chubut River estuary (Patagonia, Argentina) throughout tidal cycles.Crossref | GoogleScholarGoogle Scholar |
Huang, J., Li, Y., Fu, C., Chen, F., Fu, Q., Dai, A., Shinoda, M., Ma, Z., Guo, W., and Li, Z. (2017). Dryland climate change: Recent progress and challenges. Reviews of Geophysics 55, 719–778.
| Dryland climate change: Recent progress and challenges.Crossref | GoogleScholarGoogle Scholar |
Isla, F., Espinosa, M., Rubio, B., Escandell, A., Gerpe, M., Miglioranza, K., Rey, D., and Vilas, F. (2015). Avulsion at a drift-dominated mesotidal estuary: the Chubut River outlet, Patagonia, Argentina. Journal of Hydrology 529, 632–639.
| Avulsion at a drift-dominated mesotidal estuary: the Chubut River outlet, Patagonia, Argentina.Crossref | GoogleScholarGoogle Scholar |
Jahn, R., Kusber, W., and Romero, O. (2009). Cocconeis pediculus Ehrenberg and C. placentula Ehrenberg var. placentula (Bacillariophyta): typification and taxonomy. Fottea 9, 275–288.
| Cocconeis pediculus Ehrenberg and C. placentula Ehrenberg var. placentula (Bacillariophyta): typification and taxonomy.Crossref | GoogleScholarGoogle Scholar |
Juggins, S. (2015). Rioja: analysis of quaternary science data. R package version 0.9-5. Available at https://cran.r-project.org/package=rioja.
Kampstra, P. (2015). beanplot: visualization via beanplots. R package version 1.2. Available at https://cran.r-project.org/package=beanplot.
Kókai, Z., Bácsi, I., Török, P., Buczkó, K., Enikő, T., Balogh, C., Tóthmérész, B., and Béres, V. (2015). Halophilic diatom taxa are sensitive indicators of even short term changes in lowland lotic systems. Acta Botanica Croatica 74, 287–302.
| Halophilic diatom taxa are sensitive indicators of even short term changes in lowland lotic systems.Crossref | GoogleScholarGoogle Scholar |
Kókai, Z., Borics, G., Bácsi, I., Lukács, Á., Tóthmérész, B., Csépes, E., Török, P., and Viktória, B. (2019). Water usage and seasonality as primary drivers of benthic diatom assemblages in a lowland reservoir. Ecological Indicators 106, 105443.
| Water usage and seasonality as primary drivers of benthic diatom assemblages in a lowland reservoir.Crossref | GoogleScholarGoogle Scholar |
Kotsedi, D., Adams, J. B., and Snow, G. C. (2012). The response of microalgal biomass and community composition to environmental factors in the Sundays Estuary. Water SA 38, 177–190.
| The response of microalgal biomass and community composition to environmental factors in the Sundays Estuary.Crossref | GoogleScholarGoogle Scholar |
Krammer, K., and Lange-Bertalot, H. (1986). Bacillariophyceae. 1. Teil: Naviculaceae. In ‘Süsswasserflora von Mitteleuropa’. Vol. 1. (Eds H. Ettl, J. Gerloff, H. Heynig, and D. Mollenhauer.) p. 876. (Veb Gustav Fisher Verlag: Jena.)
Krammer, K., and Lange-Bertalot, H. (1988). Bacillariophyceae. 2. Teil: Bacillariophyceae, Epithemiaceae, Surirellaceae. In ‘Süsswasserflora von Mitteleuropa’. Vol. 2. (Eds H. Ettl, J. Gerloff, H. Heynig, and D. Mollenhauer.) p. 596. (Veb Gustav Fisher Verlag: Jena.)
Lange-Bertalot, H. (2001). Navicula sensu stricto. 10 Genera separated from Navicula sensu lato. Frustulia. Diatoms of Europe: Diatoms of the European Inland Waters and Comparable habitats’. Vol. 2. pp. 1–526. (A.R.G. Gantner Verlag. K.G.)
Larkin, Z., Ralph, T., Tooth, S., Fryirs, K., and Carthey, A. (2020). Identifying threshold responses of Australian dryland rivers to future hydroclimatic change. Scientific Reports 10, 6653.
| Identifying threshold responses of Australian dryland rivers to future hydroclimatic change.Crossref | GoogleScholarGoogle Scholar | 32313045PubMed |
Lavoie, I., Dillon, P. J., and Campeau, S. (2009). The effect of excluding diatom taxa and reducing taxonomic resolution on multivariate analyses and stream bioassessment. Ecological Indicators 9, 213–225.
| The effect of excluding diatom taxa and reducing taxonomic resolution on multivariate analyses and stream bioassessment.Crossref | GoogleScholarGoogle Scholar |
Legendre, P., and Birks, H. (2012). From classical to canonical ordination. In ‘Tracking Environmental Change Using Lake Sediments. Developments in Paleoenvironmental Research’. Vol. 5. (Eds H. Birks, A. Lotter, S. Juggins, and J. Smol.) pp. 201–248. (Springer: Dordrecht, Netherlands.)
Levkov, Z. (2009). Amphora sensu lato. In ‘Diatoms of Europe: Diatoms of the European Inland Waters and Comparable Habitats’. Vol. 5. (Ed. H. Lange-Bertalot.) pp. 5–916. (A.R.G. Gantner Verlag K.G.)
Li, C. L., Witkowski, A., Ashworth, M. P., Dąbek, P., Sato, S., Zgłobicka, I., Witak, M., Khim, J. S., and Kwon, C.-J. (2018). The morphology and molecular phylogenetics of some marine diatom taxa within the Fragilariaceae, including twenty undescribed species and their relationship to Nanofrustulum, Opephora and Pseudostaurosira. Phytotaxa 355, 1–104.
| The morphology and molecular phylogenetics of some marine diatom taxa within the Fragilariaceae, including twenty undescribed species and their relationship to Nanofrustulum, Opephora and Pseudostaurosira.Crossref | GoogleScholarGoogle Scholar |
Licursi, M., and Gómez, N. (2009). Effects of dredging on benthic diatom assemblages in a lowland stream. Journal of Environmental Management 90, 973–982.
| Effects of dredging on benthic diatom assemblages in a lowland stream.Crossref | GoogleScholarGoogle Scholar | 18420334PubMed |
Licursi, M., Gómez, N., and Donadelli, J. (2010). Ecological optima and tolerances of coastal benthic diatoms in the freshwater-mixohaline zone of the Río de la Plata estuary. Marine Ecology Progress Series 418, 105–117.
| Ecological optima and tolerances of coastal benthic diatoms in the freshwater-mixohaline zone of the Río de la Plata estuary.Crossref | GoogleScholarGoogle Scholar |
Lobo, E., Callegaro, V., Hermany, G., Gomez, N., and Ector, L. (2004). Review of the use of microalgae in South America for monitoring rivers, with special reference to diatoms. Vie et Milieu 54, 105–114.
Mangadze, T., Wasserman, R. J., and Dalu, T. (2017). Use of diatom communities as indicators of conductivity and ionic composition in a small austral temperate river system. Water, Air, and Soil Pollution 228, 428.
| Use of diatom communities as indicators of conductivity and ionic composition in a small austral temperate river system.Crossref | GoogleScholarGoogle Scholar |
Miserendino, M. L. (2006). Seasonal and spatial distribution of stoneflies in the Chubut River (Patagonia, Argentina). Hydrobiologia 568, 263–274.
| Seasonal and spatial distribution of stoneflies in the Chubut River (Patagonia, Argentina).Crossref | GoogleScholarGoogle Scholar |
Miserendino, M. L., and Brand, C. (2009). Environmental effects of urbanization on streams and rivers in Patagonia (Argentina): the use of macroinvertebrates in monitoring. Advances in Environmental Research 6, 183–220.
Morales, E. A., Wetzel, C. E., Novais, M. H., Buczkó, K., Morais, M. M., and Ector, L. (2019). Morphological reconsideration of the araphid genus Pseudostaurosira (Bacillariophyceae), a revision of Gedaniella, Popovskayella and Serratifera, and a description of a new Nanofrustulum species. Plant Ecology and Evolution 152, 262–284.
| Morphological reconsideration of the araphid genus Pseudostaurosira (Bacillariophyceae), a revision of Gedaniella, Popovskayella and Serratifera, and a description of a new Nanofrustulum species.Crossref | GoogleScholarGoogle Scholar |
Morin, S., Gómez, N., Tornés, E., Licursi, M., and Rosebery, J. (2016). Benthic diatom monitoring and assessment of freshwater environments: standard methods and future challenges. In ‘Aquatic Biofilms: Ecology, Water and Wastewater Treatment’. (Eds A. Romani, H. Guasch and M. Balaguer.) pp. 111–124. (Caister Academic Press: Poole, UK.)
Nodine, E. R., and Gaiser, E. E. (2014). Distribution of diatoms along environmental gradients in the Charlotte harbor, Florida (USA), estuary and its watershed: implications for bioassessment of salinity and nutrient concentrations. Estuaries and Coasts 37, 864–879.
| Distribution of diatoms along environmental gradients in the Charlotte harbor, Florida (USA), estuary and its watershed: implications for bioassessment of salinity and nutrient concentrations.Crossref | GoogleScholarGoogle Scholar |
Oksanen, J., Blanchet, G., Kindt, R., Legendre, P., Minchin, P. R., O’Hara, R. B., Simpson, G. L., Solymos, P., Stevens, M. H. H., and Wagner, H. (2015). Vegan: community ecology package. R package version 2.3-0. Available at https://cran.r-project.org/package=vegan.
Owen, J., Hughes, G., Herrera, G., Serdá, A., and Griznik, M. (2005). Manejo integral del estuario del río Chubut. Párrafos Geográficos 4, 143–189.
Pandey, L. K., Sharma, Y. C., Park, J., Choi, S., Lee, H., Lyu, J., and Han, T. (2018). Evaluating features of periphytic diatom communities as biomonitoring tools in fresh, brackish and marine waters. Aquatic Toxicology 194, 67–77.
| Evaluating features of periphytic diatom communities as biomonitoring tools in fresh, brackish and marine waters.Crossref | GoogleScholarGoogle Scholar | 29156433PubMed |
Pasquini, A. I., and Depetris, P. J. (2007). Discharge trends and flow dynamics of South American rivers draining the southern Atlantic seaboard: an overview. Journal of Hydrology 333, 385–399.
| Discharge trends and flow dynamics of South American rivers draining the southern Atlantic seaboard: an overview.Crossref | GoogleScholarGoogle Scholar |
Pérez, L., Lorenschat, J., Massaferro, J., Pailles, C., Sylvestre, F., Hollwedel, W., Brandorff, G., Brenner, M., Gerald, I., and Lozano, M. (2013). Bioindicators of climate and trophic state in lowland and highland aquatic ecosystems of the Northern Neotropics. Revista de Biología Tropical 61, 603–644.
| Bioindicators of climate and trophic state in lowland and highland aquatic ecosystems of the Northern Neotropics.Crossref | GoogleScholarGoogle Scholar | 23885579PubMed |
Perillo, G. M., Piccolo, M. C., and del Carmen Scapini, M. (1989). Hydrography and circulation of the Chubut River estuary (Argentina). Estuaries 12, 186–194.
| Hydrography and circulation of the Chubut River estuary (Argentina).Crossref | GoogleScholarGoogle Scholar |
Piccolo, M. C., and Perillo, G. M. (1999). The Argentina estuaries: a review. In ‘Estuaries of South America’. (Eds G. M. Perillo, M. C. Piccolo, and M. Pino-Quivira.) pp. 101–132. (Springer: Berlin, Germany.)
Piper, A. M. (1944). A graphic procedure in the geochemical interpretation of water analyses. Eos 25, 914–928.
Potapova, M., and Charles, D. F. (2003). Distribution of benthic diatoms in US rivers in relation to conductivity and ionic composition. Freshwater Biology 48, 1311–1328.
| Distribution of benthic diatoms in US rivers in relation to conductivity and ionic composition.Crossref | GoogleScholarGoogle Scholar |
R Development Core Team (2015). R: Language and environmental for statistical computing. R Foundation for Statistical Computing, Vienna, Austria. Available at www.r-project.org.
Rimet, F., and Bouchez, A. (2012). Life-forms, cell-sizes and ecological guilds of diatoms in European rivers. Knowledge and Management of Aquatic Ecosystems 406, 01.
| Life-forms, cell-sizes and ecological guilds of diatoms in European rivers.Crossref | GoogleScholarGoogle Scholar |
Rivera, P., Cruces, F., and Vila, I. (2002). Primera cita de Stephanodiscus agassizensis Hakansson and Kling (Bacillariophyceae) en Chile. Gayana. Botánica 59, 79–86.
| Primera cita de Stephanodiscus agassizensis Hakansson and Kling (Bacillariophyceae) en Chile.Crossref | GoogleScholarGoogle Scholar |
Romero, O. E., and Jahn, R. (2013). Typification of Cocconeis lineata and Cocconeis euglypta (Bacillariophyta). Diatom Research 28, 175–184.
| Typification of Cocconeis lineata and Cocconeis euglypta (Bacillariophyta).Crossref | GoogleScholarGoogle Scholar |
Ros, M. D., Marín-Murcia, J. P., and Aboal, M. (2009). Biodiversity of diatom assemblages in a Mediterranean semiarid stream: implications for conservation. Marine and Freshwater Research 60, 14–24.
| Biodiversity of diatom assemblages in a Mediterranean semiarid stream: implications for conservation.Crossref | GoogleScholarGoogle Scholar |
Rovira, L., Trobajo, R., and Ibáñez, C. (2012). The use of diatom assemblages as ecological indicators in highly stratified estuaries and evaluation of existing diatom indices. Marine Pollution Bulletin 64, 500–511.
| The use of diatom assemblages as ecological indicators in highly stratified estuaries and evaluation of existing diatom indices.Crossref | GoogleScholarGoogle Scholar | 22305410PubMed |
Sabbe, K., and Vyverman, W. (1995). Taxonomy, morphology and ecology of some widespread representatives of the diatom genus Opephora. European Journal of Phycology 30, 235–249.
| Taxonomy, morphology and ecology of some widespread representatives of the diatom genus Opephora.Crossref | GoogleScholarGoogle Scholar |
Sakai, M., Kawakami, M., and Amada, K. (2013). Evaluation of the water quality of the Hakata River based on diatoms. Journal of Environmental Sciences 25, S132–S135.
| Evaluation of the water quality of the Hakata River based on diatoms.Crossref | GoogleScholarGoogle Scholar |
Santamarina, J., Villafañe, V., and Helbling, E. W. (1991). Condiciones para la formación de floraciones fitoplactónicas en el estuario del río Chubut (Chubut, Argentina). Biologia Acuatica 15, 102–103.
Santinelli, N., Sastre, A., and Caille, G. (1990). Fitoplancton del estuario inferior del río Chubut (Patagonia Argentina) y su relación con la salinidad y la temperatura. Revista de la Asociacion de Ciencias Naturales del Litoral 21, 69–79.
Sar, E., Sunesen, I., and Fernandez, P. V. (2007). Marine diatoms from Buenos Aires coastal waters (Argentina). II. Thalassionemataceae and Rhaphoneidaceae. Revista Chilena de Historia Natural 80, 63–79.
| Marine diatoms from Buenos Aires coastal waters (Argentina). II. Thalassionemataceae and Rhaphoneidaceae.Crossref | GoogleScholarGoogle Scholar |
Sastre, A., Santinelli, N., and Caille, G. (1990). Diatomeas y dinoflagelados del estuario del río Chubut (Patagonia, Argentina). II Estructura de las comunidades. Revista Facultad de Oceanografía. Pesquería y Ciencias Alimentarias 2, 181–192.
Sastre, A., Otaño, S., Santinelli, N., Pangaro, M., Ayestarán, M., and Ivanissevich, M. (1994a). Fitoplancton, nutrientes, manejo del embalse Florentino Ameghino y su influencia en el río Chubut (Chubut, Argentina). Naturalia Patagonica Ciencias Biologicas 2, 59–69.
Sastre, A., Santinelli, N., Otaño, S., Ivanissevich, M., and Ayestarán, M. (1994b). Diatom blooms and their relation to water supply. Internationale Vereinigung für Theoretische und Angewandte Limnologie: Verhandlungen 25, 1974–1978.
| Diatom blooms and their relation to water supply.Crossref | GoogleScholarGoogle Scholar |
Sastre, A., Santinelli, N., and Sendín, M. (1994c). Floración de Aulacoseira granulata (Ehr.) Simonsen (Bacillariophyceae) en el curso inferior del Río Chubut, Patagonia Argentina. Revista Brasileira de Biologia 54, 641–647.
Sastre, A., Santinelli, N., Otaño, S., and Ivanissevich, M. (1998). Water quality in the lower section of the Chubut River, Patagonia, Argentina. Internationale Vereinigung für Theoretische und Angewandte Limnologie: Verhandlungen 26, 951–955.
| Water quality in the lower section of the Chubut River, Patagonia, Argentina.Crossref | GoogleScholarGoogle Scholar |
Scapini, M., Conzonno, V. H., Orfila, J., Saravia, J., Balzaretti, V., and Cirelli, A. F. (2011). Limnological aspects of humic substances in Chubut River (Patagonia-Argentina). River Research and Applications 27, 1264–1269.
| Limnological aspects of humic substances in Chubut River (Patagonia-Argentina).Crossref | GoogleScholarGoogle Scholar |
Scarpati, O. E., Botana, M. I., Capriolo, A. D., Pohl Schnake, V., Puga, Y., and Salaverry, E. (2011). Present characteristics of northwestern Patagonia (Argentina). Water 3, 576–589.
| Present characteristics of northwestern Patagonia (Argentina).Crossref | GoogleScholarGoogle Scholar |
Soininen, J. (2007). Environmental and spatial control of freshwater diatoms: a review. Diatom Research 22, 473–490.
| Environmental and spatial control of freshwater diatoms: a review.Crossref | GoogleScholarGoogle Scholar |
Stancheva, R. (2018). Cocconeis cascadensis, a new monoraphid diatom from mountain streams in northern California, USA. Diatom Research 33, 471–483.
| Cocconeis cascadensis, a new monoraphid diatom from mountain streams in northern California, USA.Crossref | GoogleScholarGoogle Scholar |
Stancheva, R., Sheath, R. G., Read, B. A., McArthur, K. D., Schroepfer, C., Kociolek, J. P., and Fetscher, A. E. (2013). Nitrogen-fixing cyanobacteria (free-living and diatom endosymbionts): their use in southern California stream bioassessment. Hydrobiologia 720, 111–127.
| Nitrogen-fixing cyanobacteria (free-living and diatom endosymbionts): their use in southern California stream bioassessment.Crossref | GoogleScholarGoogle Scholar |
Stepanek, J. G., and Kociolek, J. P. (2013). Several new species of Amphora and Halamphora from the western USA. Diatom Research 28, 61–76.
| Several new species of Amphora and Halamphora from the western USA.Crossref | GoogleScholarGoogle Scholar |
Thomas, E., and John, J. (2010). Diatoms in wetlands from the south-west of western Australia: community structure in relation to pH. Journal of the Royal Society of Western Australia 93, 29–42.
Tibby, J., Richards, J., Tyler, J., Barr, C., Fluin, J., and Goonan, P. (2020). Diatom–water quality thresholds in South Australian streams indicate a need for more stringent water quality guidelines. Marine and Freshwater Research 71, 942–952.
| Diatom–water quality thresholds in South Australian streams indicate a need for more stringent water quality guidelines.Crossref | GoogleScholarGoogle Scholar |
Tokatli, C. (2013). Evaluation of water quality by using trophic diatom index: example of Porsuk dam lake. Journal of Applied Biological Sciences 7, 1–4.
Villafañe, V., Helbling, E., and Santamarina, J. (1991). Phytoplankton blooms in the Chubut River estuary (Argentina): influence of stratification and salinity. Revista de Biología Marina 26, 1–20.
Villafañe, V. E., Janknegt, P. J., de Graaff, M., Visser, R. J., van de Poll, W. H., Buma, A. G., and Helbling, E. W. (2008). UVR-induced photoinhibition of summer marine phytoplankton communities from Patagonia. Marine Biology 154, 1021–1029.
| UVR-induced photoinhibition of summer marine phytoplankton communities from Patagonia.Crossref | GoogleScholarGoogle Scholar |
Walsh, G. W., and Wepener, V. (2009). The influence of land use on water quality and diatom community structures in urban and agriculturally stressed rivers. Water SA 35, 579–594.
| The influence of land use on water quality and diatom community structures in urban and agriculturally stressed rivers.Crossref | GoogleScholarGoogle Scholar |
Witkowski, A., Lange-Bertalot, H., and Metzeltin, D. (2000). Diatom flora of marine coasts I. In ‘Iconographia Diatomologica’. Vol. 7. (Ed. H. Lange-Bertalot.) pp. 1–925. (Koeltz: Königstein, Germany.)
Wu, N., Dong, X., Liu, Y., Wang, C., Baattrup-Pedersen, A., and Riis, T. (2017). Using river microalgae as indicators for freshwater biomonitoring: review of published research and future directions. Ecological Indicators 81, 124–131.
| Using river microalgae as indicators for freshwater biomonitoring: review of published research and future directions.Crossref | GoogleScholarGoogle Scholar |