Avaliação da influência da estação de tratamento de efluente de Catanduva (SP) na qualidade da água do rio São Domingos / Evaluation of influence of the Catanduva (SP) Wastewater Treatment Plant (WWTP) in São Domingos river water quality

RESUMO O efluente sanitário bruto é um dos responsáveis pela poluição de rios urbanos, e a instalação de estações de tratamento de efluentes (ETE) exige uma avaliação comparativa do comportamento desses rios antes e depois da ETE. Este trabalho objetivou avaliar a qualidade da água do rio São Domingos (RSD) após o início da operação da ETE Catanduva (SP), cujas eficiências médias de remoção foram: demanda bioquímica de oxigênio (93,71%), nitrogênio amoniacal (73,12%), fósforo total (25,70%), turbidez (85,16%) e ST (31,75%). Foram utilizados 768 dados coletados pela Companhia Ambiental do Estado de São Paulo a montante e a jusante de Catanduva (SP). Obras de dragagem realizadas durante o período avaliado foram responsáveis por um significativo decréscimo temporário na qualidade da água do RSD em Catanduva. Após dois anos do início da operação da ETE, houve significativa melhoria na qualidade do RSD, com redução das concentrações médias de DBO (de 20,97 para 5,73 mg.L−1), nitrogênio amoniacal (de 3,84 para 0,99 mg.L−1) e Escherichia coli (de 105 para 104 UFC.100 mL−1) e aumento da concentração de oxigênio dissolvido (de 0,90 para 3,12 mg.L−1). A análise de componentes principais indicou que a qualidade do rio a jusante de Catanduva está-se aproximando da boa qualidade verificada a montante da cidade. Esses dados sugerem que o RSD pode futuramente ser classificado como Classe 3 (Resolução do Conselho Nacional do Meio Ambiente — CONAMA n° 357/05) e até ser utilizado para abastecimento humano, reduzindo a elevada demanda de água subterrânea na região.

ABSTRACT Non-treated wastewater is responsible for the pollution of urban rivers, and it is mandatory to evaluate the behavior of these rivers before and after the construction of a Wastewater Treatment Plant (WWTP). The aim of this study was to evaluate the water quality of São Domingos River (SDR) after the start of the Catanduva/SP WWTP operation, whose average removal efficiencies were: biochemical oxygen demand (BOD; 93.71%), ammonia nitrogen (73.12%), total phosphorus (25.70%), turbidity (85.16%), and total solids (31.75%). We used 768 data collected upstream and downstream of the city of Catanduva/SP, previously analyzed by CETESB (state environmental agency). Dredging works carried out during the evaluated period were responsible for a significant temporary worsening in the water quality of the SDR in Catanduva. Two years after the beginning of the Catanduva WWTP, there was a significant improvement in SDR water quality, with a reduction in the average concentrations of BOD (20.97 to 5.73 mg.L−1), ammonia nitrogen (3.84 for 0.99 mg.L−1), and Escherichia coli (105 to 104 CFU.100 mL−1) were reduced; and DO concentration (0.90 to 3.12 mg.L−1) increased. The Principal Component Analysis (PCA) indicated that the water quality of the river downstream of Catanduva is approaching the same quality verified upstream of the city. These data suggest that SDR may be considered a Class 3 river (Resolution CONAMA 357/05) in the future and may even be used for human supply, reducing the high demand for groundwater in the region.

Diversity and Toxicity of the Genus Coolia Meunier in Brazil, and Detection of 44-Methyl Gambierone in Coolia tropicalis.

Coolia is a genus of marine benthic dinoflagellates which is widely distributed in tropical and temperate zones. Toxicity has been reported in selected Coolia species, although the identity of causative compounds is still controversial. In this study, we investigated the taxonomical and toxicological aspects of Coolia species from Brazil. Since light- and electron microscopy-based morphology was not enough to distinguish small-celled species, ITS and LSU D1-D3 phylogenetic analyses were used for species definition. Cultures of Coolia palmyrensis and Coolia santacroce were established from samples collected along the northeastern Brazilian coast, the first record of both species in South Atlantic waters. Cultures of Coolia malayensis and Coolia tropicalis were also established and exhibited acute in vivo toxicity to adults of Artemia salina, while C. palmyrensis and C. santacroce were non-toxic. The presence of 30 yessotoxin analogues, 7 metabolites of Coolia and 44 Gambierdiscus metabolites was screened in 14 strains of Coolia. 44-methyl gambierone (formerly referred to as MTX3) and a new isomer of this compound were detected only in C. tropicalis, using both low- and high-resolution LC-MS/MS. To our knowledge, this is the first report of gambierone analogues in dinoflagellates other than Gambierdiscus; the role of C. tropicalis in ciguatera poisoning thus deserves to be considered in further investigations.