LIMNOLOGICAL AND ECOTOXICOLOGICAL STUDIES IN THE CASCADE OF RESERVOIRS IN THE TIETÊ RIVER ( SÃO PAULO , BRAZIL )

An evaluation was made of the quality of samples of water and sediment collected from a series of reservoirs in the Tietê River (SP), based on limnological and ecotoxicological analyses. The samples were collected during two periods (Feb and Jul 2000) from 15 sampling stations. Acute toxicity bioassays were performed using the test organism Daphnia similis, while chronic bioassays were carried out with Ceriodaphnia dubia and Danio rerio larvae. The water samples were analyzed for total nutrients, total suspended matter and total cadmium, chromium, copper and zinc concentrations, while the sediment samples were examined for organic matter, granulometry and potentially bioavailable metals (cadmium, chromium, copper and zinc). The results obtained for the limnological variable, revealed differences in the water quality, with high contribution of nutrients and metals for Tietê and Piracicaba rivers, besides the incorporation and sedimentation, consequently causing a reduction of materials in Barra Bonita reservoir, thus promoting the improvement of the water quality in the other reservoirs. The toxicity bioassays revealed acute toxicity for Daphnia similis only in the reservoirs located below Barra Bonita dam. On the other hand, chronic toxicity for Ceriodaphnia dubia and acute for Danio rerio showed a different pattern, decreasing in magnitude from Barra Bonita to Três Irmãos, demonstrating an environmental degradation gradient in the reservoirs.


INTRODUCTION
The construction of reservoirs for a variety of purposes represents one of the greatest human experiences in the modification of the natural ecosystems.Making use of rivers by building a series of reservoirs is a common practice in large Brazilian rivers.In the state of São Paulo (southeastern Brazil) this system is commonly adopted for maximum exploitation of hydroelectric energy potential.Numerous consecutive dams create a group of reservoirs that receive and accumulate organic and inorganic matter from adjacent systems.Exemplifying this kind of system, along its length, the Tietê River comprises the reservoirs of Barra Bonita, Álvaro de Souza Lima (Bariri), Ibitinga, Mário Lopes Leão (Promissão), Nova Avanhandava and Três Irmãos.
These six reservoirs were built between the 1960's and 90's.The first of the series was concluded in 1964 (Barra Bonita reservoir) and the last one in 1991 (Três Irmãos reservoir).They were built in response to the growing demand for electric energy in southeastern Brazil, as well as for urban, industrial and agricultural use, including recreation and navigation.According to the National Environmental Council (CONAMA -Resolution 20/1986), which establishes Brazil's water quality standards based on predominant usage, the water in the middle and lower Tietê reservoirs was classified under Category 2 (water suitable for domestic consumption, recreation, irrigation, and protection of aquatic communities).
An important point for consideration in the evaluation of this system is the reservoirs' cascade-like arrangement, since any modification in the reservoirs upstream affects the ones downstream.Studies developed by Armengol (1977), Margalef (1983), andStraškraba (1994) demonstrated that this physical arrangement should result in increasingly improved water quality, since part of the nutrients and pollutants may be retained in the uppermost portion of the system.Matsumura- Tundisi et al., (1981) observed decreasing eutrophication in the Tietê River's reservoirs from Barra Bonita to Nova Avanhandava.However, this pattern was not observed by Barbosa et al. (1999) in the Tietê system.The latter authors demonstrated that approximately 20 years after the Matsumura- Tundisi et al. (1981) study, the reservoirs downstream of Barra Bonita had a higher trophic level than that reported in the earlier study.
Increased agricultural and industrial activity allied with intensive use and occasional spillage of agrotoxic and toxic substances in general in the vicinity of aquatic ecosystems have caused river, dam and pond contamination worldwide.In response, several water quality programs have been implemented, involving methods of chemical, physical, and biological analysis.While such analyses reveal the contents of chemical substances in absolute quantities, they cannot identify fractions responsible for toxic effects in organisms.To expand these studies, ecotoxicological evaluations have been made in recent decades to investigate the effects of pollutants on the aquatic biota (Rand et al., 1995).
The present work was designed to evaluate the water and sediment quality of the Tietê River's series of dams through limnological analyses and toxicity bioassays with microcrustaceans and fish larvae as test organisms, in order to better evaluate the impacts currently affecting this system.
Palavras-chave: ecologia de reservatórios, limnologia, ecotoxicologia, Rio Tietê.from the Bauru River (station 5), a highly impacted tributary and, consequently, a significant source of pollutants for the water of Bariri Reservoir.
Sampling was carried out in two different periods: February and July of 2000, representing, respectively, the rainy (February) and dry (July) seasons.Water transparency was measured using a Secchi disk.A single vertically integrated sample of water was collected with a suction pump from each sampling station.Temperature, pH, conductivity and dissolved oxygen were measured at 0.5 m depth intervals using a Horiba U-10 field meter.Water samples were transferred to previously washed and dried plastic bottles and stored at 4 °C until the moment they were analyzed.Total organic nitrogen (Golterman et al., 1978), total phosphorus (Standard Methods, 1995), total cadmium, chromium, copper and zinc (Standard Methods, 1995), as well as total suspended matter (Teixeira et al., 1978) were analyzed.
Sediment samples were collected with an Eckman dredge and immediately stored in plastic containers inside styrofoam boxes containing ice until their analysis in the laboratory.Analyses were made of the organic matter (Fonseca, 1997), granulometry (ABNT, 1968), and concentration of potentially bioavailable metals (Cd, Cr, Cu and Zn) (Tessier & Campbell, 1987).
For the bioassays, the sediment samples were kept refrigerated at 4 °C prior to the experiments.The toxicity bioassays were conducted with the test organisms Daphnia similis and Ceriodaphnia dubia (Crustacea, Cladocera) neonates and with Danio rerio (Cypriniforme, Cyprinidae) larvae.The test organisms used in the toxicity bioassays were kept according to the recommendations of CETESB (1991a).
The acute toxicity bioassays were conducted with water samples collected at different sampling stations.Newborn Daphnia similis were exposed to undiluted water and the immobile organisms counted after 48 h.Acute toxicity bioassays were considered valid when the immobile individuals among the organisms in the control treatment did not exceed 10% (CETESB, 1991a).For the chronic toxicity bioassays of water samples, newborn Ceriodaphnia dubia, 1 per test tube, were exposed to 15 mL of undiluted water in 10 test tubes for each sampling station.The bioassay lasted from seven to ten days, the period required for the third brood to hatch, and the number of newborns produced throughout the experiment was recorded (CETESB, 1991b).
The acute toxicity bioassays were conducted with Daphnia similis in sediment samples.Chronic toxicity bioassays were done with Ceriodaphnia dubia and Danio rerio larvae (24 h after hatching), following the protocol of Burton & Macpherson (1995), which calls for a 1:4 ratio of sediment and water.The duration and the parameter evaluated in the acute and chronic toxicity bioassays with zooplankton were similar to those described for the water samples.The fish larvae bioassays lasted seven days, during which the organisms fed on nothing but their own vitelluses.
The following criteria were adopted to evaluate the results of the acute toxicity bioassays with Daphnia similis: a) nontoxic sample: immobility in the test organisms ranging from 0 to 10% of the test; b) toxicity trace: immobility ranging from 10 to 40% in test organisms, and c) toxic: immobility equal to or above 40% of the organisms (Barbosa, 2000).The results of the chronic toxicity bioassays for Ceriodapnhia dubia were analyzed for normality.Tukey's test (parametric) was applied for normal distributions, while the Kruskall-Wallis test (nonparametric) was applied to verify the occurrence of each sample's significant differences in relation to the control.
As for the organism Danio rerio, the toxicity evaluation of the environmental samples was based on the mortality percentage proposed by Prater & Anderson (1977), which considers that mortality percentages of 1 to 25% indicate low environmental toxicity; 26 to 50%: medium toxicity, and 51 to 100%: high toxicity.
Pearson correlation analyses were applied to detect correlations between metal concentrations in the water and sediment, and between the results of acute and chronic toxicity bioassays.

RESULTS
Table 1 lists the results of physicochemical variables monitored in the reservoirs' water samples.The water temperature revealed two very defined stations during the study period.The temperatures during the rainy period (Feb 2000) were higher, i.e., a minimum of 24.48 °C in the Piracicaba River and a maximum of 28.03 °C in Três Irmãos upstream.During the dry period (Jul 2000), the lowest temperature was 19 °C in the Piracicaba River and the highest temperature recorded was 22.78 °C in Três Irmãos upstream.
With regard to pH, the lowest values were found in Feb 2000, varying from 5.65 to 6.70, The dissolved oxygen concentrations were higher in Feb 2000 at most of the sampling stations, with a minimum concentration of 7.17 mg/L (Três Irmãos downstream) and a maximum of 8.33 mg/L (Bariri downstream).In July 2000, the lowest concentration was 1.25 mg/L (Piracicaba River) and the highest was 9.98 mg/L in Bariri upstream.In July 2000, low dissolved oxygen concentrations were also found in the Tietê (3.31 mg/L) and Bauru (2.63 mg/L) river water and in Barra Bonita reservoir upstream (5.85 mg/L).These values fell below those established by CONAMA Resolution 20/1986 for category 2 (5-9 mg/L) rivers.
As for the Secchi disk results, the best visibility at most of the sampling stations was found in the dry period, with a minimum of 0.35 m in the Piracicaba River and a maximum of 9.3 m in the Três Irmãos reservoir.The lowest values were recorded in the rainy season (0.1 m to 3.5 m) in the Piracicaba River and upstream and the downstream, respectively, from Nova Avanhandava dam.The values of total suspended matter were inversely related to the visibility obtained by Secchi disk: higher concentrations of total suspended matter in the rainy season caused lower visibility values obtained by Secchi disk (Fig. 2).
As for total organic nitrogen, the Tietê River water consistently showed the highest concentrations, and the highest values were generally found in July 2000, varying from 0.093 mg/L to 5.32 mg/L (Nova Avanhandava upstream and in Tietê River, respectively).The lowest concentrations were found in Feb 2000 (from 0.05 mg/L to 1.77 mg/L, in Nova Avanhandava and Três Irmãos reservoirs and in the Tietê River, respectively) (Fig. 3).As Fig. 4 indicates, the highest total phosphorus concentrations were recorded in the wet season (Feb 2000), with values varying from 0.02 mg/L to 0.23 mg/L (Três Irmãos upstream and Barra Bonita downstream, respectively).The concentrations in most of the sampling stations were lowest in July 2000 (from 0.01 mg/L to 0.75 mg/L, Promissão downstream to Piracicaba River, respectively).In Feb 2000, all the values exceeded the limit established by CONAMA Resolution 20/1986 (0.02 mg/L) except for Três Irmãos upstream, while in July 2000, total phosphorus exceeding the limit included the sampling stations of the Tietê River downstream to the Ibitinga reservoir.
As for the total metal concentrations in the water (  Feb 2000.Chromium exceeded the limit established by CONAMA in Feb 2000 in the Piracicaba River (0.056 mg/L), while copper concentrations were lower than the legal limit.The lowest zinc concentration was 0.035 mg/L in the Tietê River and the highest -1.215 mg/L -was found in Feb 2000 in the Piracicaba River (exceeding CONAMA's limit for Class 2 rivers, i.e., above 0.18 mg/L).
The lowest concentrations of organic matter in sediment were found in Feb 2000, varying from 0.1% (in Nova Avanhandava reservoir downstream) to 15.34% (in the Bauru River).In July 2000, these concentrations varied from 0.5% (upstream and downstream from the Três Irmãos Dam) to 16.73% (in Promissão reservoir upstream).As for granulometry, there was a prevalence of clay and silt in the Tietê and Piracicaba Rivers and in the Barra Bonita to Promissão reservoirs, while sand was prevalent in the Nova Avanhandava and Três Irmãos reservoirs (Table 3).
Our findings for potentially bioavailable metals in the sediment are listed in Table 4.In July 2000, the highest values were found for cadmium (1.67 mg/Kg to 5.00 mg/Kg (in the Tietê and Bauru rivers, respectively), copper (3.33 mg/Kg to 97.57mg/Kg, in Nova Avanhandava and Bariri reservoirs, respectively), and zinc (1.60 mg/Kg to 224.93 mg/Kg, in Três Irmãos reservoir and the Tietê River, respectively).In Feb 2000, the highest chromium concentrations detected varied from 3.60 mg/Kg (Barra Bonita reservoir) to 11.40 mg/Kg (Piracicaba River).
In Feb 2000, Daphnia similis showed acute toxicity when exposed to a water sample from downstream Bariri and upstream Nova Avanhandava, as was the case in July 2000 with the water samples from upstream Promissão to downstream Nova Avanhandava.A statistical analysis of reproduction data from the chronic toxicity bioassays with Ceriodaphnia dubia revealed chronic effects on the test organisms exposed to water samples from the Tietê (Feb and Jul 2000), Piracicaba River (Feb 2000), upstream Barra Bonita reservoir (Feb and Jul 2000), downstream Barra Bonita (Feb 2000), Bauru River (Feb 2000), upstream Bariri (Feb and Jul 2000), downstream Bariri (Feb 2000), upstream Ibitinga (Feb 2000) and upstream Promissão (Feb and Jul 2000) (Table 5).
The toxicity bioassays on sediment samples showed acute toxicity for D. similis in sediment from downstream Ibitinga and upstream Promissão reservoirs in Feb 2000, and chronic toxicity for C. dubia exposed to sediment from the Tietê river (Feb and Jul 2000) and the reservoirs from Barra Bonita to Ibitinga (Feb 2000).Danio rerio displayed acute toxicity in sediments from the Tietê and Piracicaba    6).An analysis of the correlation between metal concentrations and bioassayed toxicity revealed that cadmium, copper and zinc concentrations in the sediment correlated positively (r > 0.5 and p < 0.05) with the data from chronic toxicity bioassays on sediment samples.However, no correlation was found between metal concentrations and acute and chronic toxicity in water samples (r < 0.5 and p > 0.05).

DISCUSSION
Reservoirs built in cascade arrangements to generate electricity are usually operated as simple units, but from the standpoint of physical, chemical and biological characteristics, each reservoir can behave as a separate unit with unique characteristics, e.g., residence time, tributaries and usage of its hydrographic basin.However, understanding the limnology of a specific reservoir is not easy, particularly if it is one of a series, without first understanding the processes that take place in the chain of reservoirs located upstream from it (Straškraba, 1994).
According to Tundisi (1999), the main components and forces that govern the conditions in a reservoir operation, whose measuring is essential, include the area's climatic characteristics, the time of residence of the water, and the position of the reservoir (since a reservoir causes and receives effects from other reservoirs up and downstream from it).
In the reservoirs of the middle and lower Tietê river, for example, the contribution of suspended matter coming from the Tietê and Piracicaba rivers (precise sources) and from the reservoirs' banks (diffuse sources) in the wet season (Feb 2000) exceeds that of the dry season (Jul 2000).This seasonalness of matter generated by rainfall produces a pulse of nutrients and inorganic matter within the reservoirs, which is confirmed by the highest concentrations of suspended matter in the wet season causing the lowest Secchi disk visibility values in the reservoirs.The decreasing penetration of light revealed by Secchi disk measurements was attributed to the greater dispersion of suspended particulate matter (Wetzel, 1993).
With respect to spatial variations, a generally increasing gradient of water transparency was found along the cascade of reservoirs in the two sampled periods.This finding coincides with that of Tundisi et al. (1991) and Güntzel (2000) in the middle and low Tietê reservoirs.According to Straškraba (1994), in the upper reservoirs of the cascade system, the presence of abundant suspended matter causes decreased light penetration and, hence, lower visibility of the Secchi disk, which is not the case in the lower reservoirs, thanks to the sedimentation of suspended matter in the system's upper portion.
In terms of water temperature, the study period showed two well-defined seasons, with higher temperatures in the wet season (summer) and lower temperatures in the dry season (winter).The dissolved gas concentration in water is one of the most important environmental variables in the dynamics and characterization of aquatic ecosystems.This variable is influenced by seasonal alterations in rainfall, temperature, water flow, and retention time indices.The low dissolved oxygen concentrations found in the Tietê, Piracicaba and Bauru rivers and Barra Bonita reservoir in July 2000 indicated anoxia resulting from intensive decomposition of organic matter, which reduces oxygen concentrations.
Persistent anoxia is a negative factor in water quality because, under such conditions, the chemical compounds in sediment, as well as toxic gases, e.g., methane and hydrosulfide, tend to be released into the water (Esteves, 1988).In the Segredo reservoir, the second of a series of four reservoirs in the middle Iguaçu river (Paraná State), Thomaz et al. (1997) found anoxia occurring throughout most of the year, when the reservoir was thermally stratified.According to these authors, anoxic conditions can favor the release of phosphorus from sediment, contributing to the reservoir's eutrophication.
The values of pH were close to the limit established by CONAMA Resolution 20/1986 for Category 2 rivers in Feb 2000 in the Tietê, Piracicaba and Bauru rivers and in the Bariri and Promissão reservoirs.Aquatic ecosystems with  low pH show high concentrations of organic acids.The lowest pH values were recorded in the wet season, demonstrating the seasonal influence on the system's pH, since rainwater is usually acid (pH 5-6) and can also affect the pH of aquatic ecosystems (Esteves, 1988).
Conductivity was higher in the dry season, with the lowest values recorded in the wet season.Seasonal variations in this variable were attributed to diluted ion concentrations resulting from higher rainfall in the wet season, resulting in the lowest conductivity values, a phenomenon not found in the dry season.Güntzel (2000) found high conductivity values in the 1998 rainy season in the same reservoirs, ascribing this finding to greater input of nutrients and sediment, resulting in higher dissolved ion concentrations in the water.A generally high concentration of ions was found in the Tietê River and in the first two reservoirs of the cascade (Barra Bonita and Bariri), and high deposition and consumption along the series of reservoirs in Jul 2000, although some intermediary reservoirs showed higher values than those found in February in the Tietê River.Thomaz et al. (1997) found low electric conductivity values in July and August and high values in January in the Segredo reservoir (Paraná River), which ranged from 20 µS/cm to 50 µS/cm.In the cascading reservoirs of the São Francisco River, Severi et al. (2000) found conductivity values varying from 62 µS/cm to 74 µS/cm.
Nutrient concentrations were also related to conductivity.The total organic nitrogen concentrations were generally higher in the dry season, which may be attributed to greater water retention in the reservoirs and, hence, to higher nitrogen compound concentrations.The lowest values were found in the wet season, evidencing the diluting effect of rainwater flowing into the system.During the period of this study, high total organic nitrogen concentrations were detected in the reservoirs of the middle and lower Tietê, in the Tietê, Piracicaba and Bauru rivers, and in the cascade system's upper reservoirs.In the wet season of 1999, Barbosa et al. (1999) also found lower nitrogen concentrations in the Tietê River than in the Barra Bonita Reservoir.
As for total phosphorus, the wet season showed higher concentrations than the dry season.The highest concentrations were found in the Tietê and Piracicaba rivers and in the reservoirs from Barra Bonita down to Promissão.Thus, a comparison of the legal limits and the values found in this study indicates that most of the latter exceeded the limit, mainly in the upper and middle portion of the cascade system, indicating the reservoirs' eutrophication.
As for the absence of a decrease in total phosphorus concentrations found throughout the cascade system studied here, Sandes (1990) also found higher phosphorus concentrations in the Bariri reservoir than in Barra Bonita reservoir.The presence of easily identifiable sources (domestic and industrial waste) and diffuse sources (agricultural activities) of discharge into the drainage basin, as well as favorable conditions for sediment resuspension, likely contributed to this finding.Barbosa et al. (1999) noted high total phosphorus concentrations in the Tietê River (0.28 mg/L), and a decrease in this nutrient in the first reservoir of the series (0.06 mg/L), followed by an increase in the second reservoir (0.09 mg/L) and a decrease throughout the other reservoirs.
In the cascade reservoirs of the lower San Francisco River, Rocha et al. (2000) found retention of nutrients in the lateral parts of the system; however, the central body did not show such retention due to the low retention time and to suspended matter.According to these authors, the system as a whole acts to conserve the physical, biological and chemical characteristics, and visible alterations in the water were not seen from the beginning to the end of the cascade.However, that was not the case in the middle and lower Tietê reservoirs.
Metals are extremely important elements in aquatic ecosystems because, albeit essential in small concentrations, many are toxic at high levels, and can bioaccumulate and biomagnify in food webs, ultimately presenting risks to predators at the top of the food chain, including humans.In the present study, total metals concentrations in water were close to or exceeded the limits established by CONAMA Resolution 20/1986 for Category 2 rivers.Our findings indicated metal contamination in both water and sediment caused by domestic sewage and industrial and agricultural effluents flowing into these aquatic ecosystems.
Metals are also significant pollutants of aquatic sediments.The highest potentially bioavailable metal concentrations were found in the Tietê, Piracicaba and Bauru rivers, demonstrating anthropic influence and foreshadowing its consequences on the environmental quality of the Tietê reservoirs.These values showed a rising tendency over time, indicating that these reservoirs are undergoing a process of deterioration (Esteves et al., 1981).The Pearson correlation revealed a significant correlation between cadmium, copper and zinc in the sediment and in the chronic toxicity bioassays.
As for potentially bioavailable metals in the sediment, the cascade of reservoirs showed a decreasing gradient of zinc concentrations.On the other hand, cadmium and chromium were found to increase from Barra Bonita reservoir towards Nova Avanhandava and Três Irmãos reservoirs, likely because of diffuse sources of pollution in the lower reservoirs.
Another important factor is the bioavailability of metals.The prevalence of clay and silt fractions over sand and the higher percentages of organic matter in the cascade's upper reservoirs may lead to a large number of connection loci to metals.Because of their large superficial area to volume ratio, fine-textured sediments (containing high percentages of clay and silt) have a greater capacity to retain chemicals than do thicker-textured sediments containing fewer metals connection loci (Rand et al., 1995) The toxicity bioassays indicated that a large proportion of the water and sediment samples collected in Feb 2000 caused toxic effects in the test organisms, possibly resulting from the input of abundant matter from the surrounding areas into the reservoirs.Despite the high total metal concentrations in the water and potentially bioavailable in the Tietê and Piracicaba river sediment and in that of the upper reservoirs of the Tietê cascade system, no acute effects on Daphnia similis were recorded for those stations, while the chronic toxicity tests with Ceriodaphnia dubia and Danio rerio indicated a decrease in toxicity along the cascade.According to Cooney (1995), really significant differences have been found among different groups of organisms, and many authors have recently suggested that pollutants should be tested on algae, on one or more invertebrate groups, or on fish in order to get the most complete picture of existing toxicity.
Using Ceriodaphnia silvestrii (a native species) and Daphnia similis to evaluate the quality of water in the Piracicaba River basin, Fonseca (1997) also found considerable differences among the tested species when exposed to a water sample with high zinc content.Fonseca (1997) found no effect on Daphnia similis, while Ceriodaphnia silvestrii showed a chronic effect.In an evaluation of sediment quality at a sampling station in the Piracicaba River basin, Melleti (1997) identified a sign of toxicity in a fish species (Prochilodus scrofa), which was not observed in Ceriodaphnia silvestrii and Daphnia similis when exposed to the same sample by Fonseca (1997).
The results of our acute toxicity bioassays with Daphnia similis refute the theory that the quality of the water improves along the cascade of reservoirs, possibly because of the presence of pollutants.According to Weltens et al. (2000), many pollutants are retained in suspended solids present in water, which may decrease their toxicity.Metals in water are commonly analyzed by atomic absorption spectrometry, which leads to findings that sometimes contradict those of toxicity bioassays, which can express equivalent toxicity in much lower concentrations of metal due to the complexity of those elements (Conney, 1995).No significant correlation was found between the metals in the water samples and the acute and chronic toxicity test data.
Another important class of ecosystem pollutants is persistent organic pollutants (POPs), such as dioxins and organochloric pesticides, which were not evaluated in this study.In their analysis of water samples from 38 reservoirs in 7 hydrographic basins in the state of São Paulo (Paranapanema, Paraná, Iguape, Tietê, Paraíba, Pardo and Grande rivers), Cáceres et al. (1987) found BHC and DDT residues (organochloric pesticides) in all of them.
According to Larsson et al. (2000), eutrophic lakes contain a great phytoplanktonic biomass due to the excess of nutrients, causing POP retention and greater sedimentation of these pollutants, unlike oligotrophic lakes, where POP is more readily transferred to the food web.Thus, in the Tietê reservoirs, possible organic pollutants would not be totally available in the waters of the Tietê and Piracicaba rivers and in the first reservoir of the cascade (Barra Bonita), which are considered eutrophic, unlike the reservoirs downstream (mesotrophic and oligotrophic).The high values of total suspended matter found in the Tietê and Piracicaba river water and in the upper reservoirs of the cascade may have prevented the availability of certain metals and other pollutants from affecting Daphnia similis and, hence, from causing a toxic effect in these organisms.
The study reported here found that water quality in the middle and lower Tietê watershed is degraded.Large amounts of pollutants such as heavy metals, pesticides and barely degradable organic compounds can affect water quality in reservoirs.Toxicity bioassays are important in evaluating the degree of environmental toxicity.However, once toxicity is proven, the Toxicity Identification and Evaluation (TIE) approach must be incorporated into water resources monitoring because of its importance in identifying compounds responsible for toxicity (Paschoal, 2002).The TIE method is a tool serving to isolate and characterize the physicochemical nature of toxicants in complex samples based on knowledge of how factors such as pH and hardness modify toxicity (Rand et al., 1995).

Fig. 1 -
Fig. 1 -Location of sampling stations in the reservoirs of the middle and lower Tietê River.

Fig. 2 -
Fig. 2 -Variation of total suspended matter and visibility of the Secchi disk of the reservoirs of the Tietê River.

Fig. 3 -Fig. 4 -
Fig.3-Variation of total organic nitrogen in the water samples from the reservoirs of the Tietê River.

TABLE 1 Average values of the physicochemical variables in the water column of the dams in the Tietê River.
, in Ibitinga and Promissão, both downstream, while the lowest pH in July 2000 was 6.07 (Ibitinga downstream) and the highest was 7.13 (Promissão downstream).The pH values below or close to the lower limit established by CONAMA 20/1986 were found in the rainy season in the Tietê, Piracicaba and Bauru rivers and in Bariri and Promissão reservoirs.Water conductivity showed the highest values in July 2000, with a minimum of 51 µS/cm (Três Irmãos downstream) and a maximum of 411 µS/cm (Tietê River).The lowest values were recorded in the rainy period, with a minimum of 58 µS/cm in Três Irmãos downstream and a maximum of 178 µS/cm in Ibitinga upstream.
The values in bold exceed the maximum limit established by CONAMA Resolution 20/1986 for Category 2 rivers.respectively