Physical and chemical variables of the water and its influence on the periphytic biomass on the lower parts of the Luján river (Buenos Aires Province)

Pizarro, H.; Alemanni, M.E.

Navegar

Documento Últimos Documentos Autor FCEN - Año Autor FCEN - Revista Año - Revista Revista - Año SubjectPcEn Colores Type

Colección

Artículo

Pizarro, H.; Alemanni, M.E. "Physical and chemical variables of the water and its influence on the periphytic biomass on the lower parts of the Luján river (Buenos Aires Province) " (2005) Ecologia Austral. 15(1):73-88

https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_03275477_v15_n1_p73_Pizarro

Estamos trabajando para incorporar este artículo al repositorio

Consulte la política de Acceso Abierto del editor

Abstract:

The influence of some physical and chemical variables of the water on the periphyton (dry weight, ash, ash-free dry weight, chlorophyll 'a') located on an artificial substratum (acetate) of four different polluted sites of the lower parts of the Luján River, Buenos Aires province, was studied. Samplings were conducted nearly monthly, from January to October 1999. Because of the discontinuity on the water level, caused by the Gobernador Arias stream which discharges a great amount of water from the Paraná River, numerical analyses (correlations and multiple linear regressions) were separately done for stations located up (E1 and E2) and downstream (E3 and E4) of the river outlet. Lakatos and autotrophic indexes were used to characterize the periphyton. Physical and chemical variables of the water showed that the Luján River presented signs of pollution, alternating periods of poorer and better water quality. Some of the variables exceeded the allowed limits for human use and aquatic life protection. E1 and E4 showed periods of very low water quality. E1 was likely to be affected by urban pollution from the upper stretch of the river and E4 by the simultaneous action of the Claro stream and the water reflux produced by the relief channel of the Reconquista River. The different fractions of periphytic mass were less variable in E1 and E2 than in E3 and E4, where the fluctuations in the hydrometric level would represent the main regulating factor for the periphyton. The values of the Lakatos indexes regarding dry weight, showed a gradual increase in community mass with time. The recorded types resulting from the percentage of ashes were generally inorganic-organic, with prevalence of the inorganic type in E2. According to the percentage of chlorophyll 'a', the hetero-autotrophic type predominated in the community, with heterotrophic types occasionally observed. Autotrophic index values were usually greater than 100 due to the high concentrations of organic matter in the stream which, in turn, supported a larger biomass of heterotrophs; and detritus. The results indicated that the Luján River has a high concentration of inorganic solids, enriched with organic matter. According to the results of multiple regression analyses, biomass variables were mainly explained by nutrients.

Registro:

Documento:	Artículo
Título:	Physical and chemical variables of the water and its influence on the periphytic biomass on the lower parts of the Luján river (Buenos Aires Province)
Autor:	Pizarro, H.; Alemanni, M.E.
Filiación:	Departamento de Ecología Genética y Evolución, Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires, C1428EHA Buenos Aires, Argentina
Palabras clave:	Argentine; Artificial substrata; Ash-free dry weight; Biofilm; Chlorophyll 'a'; Dry weight; Urban polluted rivers; biofilm; biomass; chlorophyll a; physical property; water chemistry; water pollution; Argentina; Buenos Aires [Argentina]; Lujan River; Parana River; Reconquista River; South America; Western Hemisphere; World; Arias
Año:	2005
Volumen:	15
Número:	1
Página de inicio:	73
Página de fin:	88
Título revista:	Ecologia Austral
Título revista abreviado:	Ecol. Austral
ISSN:	03275477
Registro:	https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_03275477_v15_n1_p73_Pizarro

Referencias:

Allan, J.D., (1995) Stream Ecology. Structure and Function of Running Waters, p. 388. , Chapman & Hall. London
(1992) Standard Methods for the Examination of Water and Wastewater, p. 1193. , American Public Health Association (APHA). American Public Health Association. Washington
Bicudo, D.C., Concideraçoes sobre metodologias de contagem de algas do perifiton (1990) Acta Limnol. Brasil, 3, pp. 459-475
Biggs, B.J.F., Biomonitoring of organic pollution using periphyton, South Branch, Canterbury, New Zealand (1989) New Zealand J. of Marine and Freshwater Research, 23, pp. 263-274
Biggs, B.J.F., The contribution of flood disturbance, catchment geology and land use to the habitat template of periphyton in stream ecosystems (1995) Freshwater Biol., 33, pp. 419-438
Biggs, B.J.F., Patterns in benthic algae of streams (1996) Algal Ecology. Freshwater Benthic Ecosystems, pp. 31-56. , RJ Stenvenson; ML Bothwell & RL Lowe (eds.). Academic Press. San Diego, New York, Boston, London, Sydney, Tokyo, Toronto. 753 pp
Brown, S.D., Site variation in littoral periphyton populations: Correlation and regression with environmental factors (1973) Int. Revue. Ges. Hydrobiol., 58 (3), pp. 437-461
Burns, A., Ryder, D.S., Potential for biofilms as biological indicator in Australian riverine systems (2001) Ecological Management & Restoration, 2 (1), pp. 53-64
Cattaneo, A., Legendre, P., Niyonsenga, T., Exploring periphyton unpredictability (1993) J.N. Am. Benthol. Soc., 12 (4), pp. 418-430
Conforti, V., Taxonomic study of the Euglenophyta of a highly polluted river of Argentina (1991) Nova Hedwigia, 53, pp. 73-78
Comforti, V., Alberghina, J., Gonzelez Urda, E., Structural changes and dynamics of the phytoplankton along a highly polluted lowland river of Argentina (1995) J. of Aquatic Ecosystem Health, 4, pp. 59-75
Del Giorgio, P.A., Vinocur, A.L., Lombardo, R.J., Tell, H.G., Progressive changes in the structure and dynamics of the phytoplankton community along a pollution gradient in a lowland river - A multivariate approach (1991) Hidrobiología, 224, pp. 129-154
Dodds, W.K., Smith, V.H., Lohman, K., Nitrogen and phosphorous relationships to benthic algal biomass in temperate streams (2002) Can. J. Fish. Aquat. Sci., 59, pp. 865-874
Dokulil, M., Evaluation of eutrophication potential in rivers: The Danube example, a review (1996) Use of Algae for Monitoring Rivers II, pp. 173-179. , BA Whitton & E Rott (Eds.). Innsbruck 196 pp
Feijjóo, C.S., Giorgi, A., García, M.E., Momo, F., Temporal and spatial variability of a pampean basin (1999) Hydrobiología, 394, pp. 41-52
Fernández, V.O., Estévez, F.A., The use of indices for evaluating the periphytic community in two kinds of substrate in Imbossica Lagoon, Rio de Janeiro, Brazil (2003) Braz. J. of Biol., 63 (2), pp. 233-243
Gómez, N., Use of epipelic diatoms for evaluation of water quality in the Matanza-Riachuelo (Argentina), a pampean plain river (1998) Wat. Res., 32 (7), pp. 2029-2034
Gómez, N., Licursi, M., The Pampean Index for assesment of rivers and streams in Argentina (2001) Aquatic Ecology, 35, pp. 173-181
Hynes, H.B.N., (1970) The Ecology of Running Waters, p. 555. , Univ. Press. Liverpool, UK
Koroleff, F., Simultaneous oxidation of nitrogen and phosphorous compounds by persulfate (1983) Methods of Seawater Analysis, pp. 168-169. , K Grosshoff; H Eberhadt & K Kremling (eds.). Verlag Chemie. Weinheimer, Germany
Lakatos, G., Composition of reed periphyton (biotecton) in the Hungarian part of lake Fertö (1989) Biol. Forschung. Für Burg., 71, pp. 125-134
Lakatos, G., Grigorszky, I., Biró, P., Reed-periphyton complex in the littoral of shallow lakes (1998) Verh. Int. Ver. Limnol., 26, pp. 1852-1856
Leviel, R., (1973) Manual Técnico Del Agua, , Degrémont, Paris, Francia
Loez, C., Premières données sur le phytoplancton et les caractéristiques physicochimiques du rio Reconquista (Buenos Aires, Argentine) (1990) Rev. Hydrobiol. Trop., 23 (4), pp. 283-296
Loez, C., Salibián, A., Premieres dones sur le phytoplancton et les caractéristiques physico-chimiques de río Reconquista (Buenos Aires, Argentina): Une riviere urbaine pollué (1990) Revue Du Hydrobiologie Tropicale, 23, pp. 283-296
Loez, C., Topalián, M.L., Use of algae for monitoring rivers in Argentina with special enphasis for the Reconquista River (region of Buenos Aires) (1999) Use of Algae for Monitoring Rivers III, pp. 72-83. , J Prygiel; BA Whitton & J Bukowska (Eds.). Douai Cedes, Francia 271 pp
Lowe, R., Pan, Y., Benthic algal communities as biological monitors (1996) Algal Ecology. Freshwater Benthic Ecosystems, pp. 705-739. , RJ Stevenson; ML Bothwell & RJ Lowe (Eds.). Academic press. San Diego, New York, Boston, Sydney, Tokio, Toronto 753 pp
Marker, A.F.H., Crowther, C.A., Gunn, R.J.M., Methanol and acetone as solvents for estimating chlorophyll a and phaeopigments by spectrophotometry (1980) Ergebnisse Der Limnologie, 14, pp. 52-69
Moschini-Carlos, V., Dinâmica e Estructura da Comunidade Perifítica (substratos artificial e natural), na Zona de Desembocadura do Rio Paranapanema, represa de Jurumirim-SP (1996), Tesis doctoral. Universidad Federal de Brasil. Sao Carlos, Brasil; Moschini-Carlos, V., Henry, R., Pompêo, M.L.M., Seasonal variation of biomass and productivity of the periphyton community on artificial substrata in the Jurumirim Reservoir (Sao Paulo, Brazil) (2000) Hydrobiologia, 434 (1-3), pp. 35-40
O'Farrell, I., Lombardo, R., de Tezanos Pinto, P., Loez, C., The assessment of water quality in the Lower Lujan River (Buenos Aires, Argentina): Phytoplankton and algal bioassays (2002) Environmental Pollution, 120 (2), pp. 207-218
Pesson, P., La contaminación de las aguas continentales. Incidencias sobre las biocenosis acuáticas (1979), p. 335. , Mundi Prensa. Madrid; Pizarro, H., Periphyton biomass on Echinochloa polystachya (HBK) Hitch, of a lake of the Lower Paraná River floodplain, Argentina (1999) Hidrobiología, 397, pp. 227-239
Pizarro, H., Vinocur, A., Epilithic biomass in an outflow stream at Potter Peninsula, King George Island, Antarctica (2000) Polar Biology, 23, pp. 851-857
Rodríguez, P., Pizarro, H., Maidana, N., Dos Santos, M.A., Bonaventura, S.M., Environmental factors affecting the epixylic algae from a polluted lowland river of Buenos Aires province (Argentina) Cryptogamie, Algologie, , (en prensa)
Rovedatti, M.G., Castañé, P.M., Topalián, M.L., Salibián, A., Monitoring of organochlorine and organophosphorus pesticides in the water of the Reconquista river (Buenos Aires, Argentina) (2001) Water Research, 35 (14), pp. 3457-3461
Sand-Jensen, K., Physical and chemical parameters regulating growth of periphytic communities (1983) Periphy-Ton of Freshwater Ecosystems, pp. 63-71. , RG Wetzel (Ed.). Dr. W Junk. Publi-shers. The Hague
Stevenson, R.J., An introduction to algal ecology in freshwater benthic habitats (1996) Algal Ecology. Freshwater Benthic Ecosystems, pp. 3-30. , RJ Stevenson; ML Bothwell & RL Lowe (eds.). Academic press. San Diego, New York, Boston, London, Sydney, Tokio, Toronto. 753 pp
Sokal, R.R., Rohlf, F.J., Biometry. The principles and Practice of Statistics in Biological Research (1980), p. 859. , W.H. Freeman and Company. New York; Stumm, W., Morgan, J.J., (1996) Aquatic Chemistry. Chemical Equilibria and Rates in Natural Waters, , John Wiley & Sons, Inc. New York, Toronto, Singapore
Weber, C.I., Recent developments in the measurements of the response of plankton and periphyton to changes in their environment (1973) Bioassay Techniques and Environmental Chemistry, pp. 132-138. , GE Glass (ed.). Ann Arbor Sci. Pub. Ann Arbor, USA. 138 pp
Welch, E.B., Jacoby, J.M., Horner, R.R., Seeley, M.R., Nuisance biomass levels of periphytic algae in streams (1988) Hydrobiologia, 157, pp. 161-168
Wetzel, R.G., (1981) Limnología, p. 679. , Omega. Barcelona
Wetzel, R.G., Opening remarks (1983) Periphyton of Freshwater Ecosystems, pp. 3-4. , RG Wetzel (Ed.) Dr. W. Junk. The Hague. 346 pp
Whitton, B., (1975) River Ecology, , University of California Press. Berkeley, California, USA
Zar, J.H., (1996) Biostatistical Analysis, p. 662. , Prentice Hall. Upper Saddle River, New Jersey, USA

Citas:

---------- APA ----------

Pizarro, H. & Alemanni, M.E. (2005) . Physical and chemical variables of the water and its influence on the periphytic biomass on the lower parts of the Luján river (Buenos Aires Province) . Ecologia Austral, 15(1), 73-88.
Recuperado de https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_03275477_v15_n1_p73_Pizarro [ ]

---------- CHICAGO ----------

Pizarro, H., Alemanni, M.E. "Physical and chemical variables of the water and its influence on the periphytic biomass on the lower parts of the Luján river (Buenos Aires Province) " . Ecologia Austral 15, no. 1 (2005) : 73-88.
Recuperado de https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_03275477_v15_n1_p73_Pizarro [ ]

---------- MLA ----------

Pizarro, H., Alemanni, M.E. "Physical and chemical variables of the water and its influence on the periphytic biomass on the lower parts of the Luján river (Buenos Aires Province) " . Ecologia Austral, vol. 15, no. 1, 2005, pp. 73-88.
Recuperado de https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_03275477_v15_n1_p73_Pizarro [ ]

---------- VANCOUVER ----------

Pizarro, H., Alemanni, M.E. Physical and chemical variables of the water and its influence on the periphytic biomass on the lower parts of the Luján river (Buenos Aires Province) . Ecol. Austral. 2005;15(1):73-88.
Available from: https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_03275477_v15_n1_p73_Pizarro [ ]