Evaluation and monitoring of the water quality of an Argentinian urban river applying multivariate statistics.

In this work, we present the water quality assessment of an urban river, the San Luis River, located in San Luis Province, Argentina. The San Luis River flows through two developing cities; hence, urban anthropic activities affect its water quality. The river was sampled spatially and temporally, evaluating ten physicochemical variables on each water sample. These data were used to calculate a Simplified Index of Water Quality in order to estimate river water quality and infer possible contamination sources. Data were statistically analyzed with the opensource software R, 4.1.0 version. Principal component analysis, cluster analysis, correlation matrices, and heatmap analysis were performed. Results indicated that water quality decreases in areas where anthropogenic activities take place. Robust inferential statistical analysis was performed, employing an alternative of multivariate analysis of variance (MANOVA), MANOVA.wide function. The most statistically relevant physicochemical variables associated with water quality decrease were used to develop a multiple linear regression model to estimate organic matter, reducing the variables necessary for continuous monitoring of the river and, hence, reducing costs. Given the limited information available in the region about the characteristics and recovery of this specific river category, the model developed is of vital importance since it can quickly detect anthropic alterations and contribute to the environmental management of the rivers. This model was also used to estimate organic matter at sites located in other similar rivers, obtaining satisfactory results.

Phytoremediation of metals by colonizing plants developed in point bars in the channeled bed of the Dilúvio Stream, Southern Brazil.

Urban rivers are intensely impacted by pollution with metals resulting from anthropogenic activities, and these elements present in water and sediments can be ecofriendly phytoremediated. This study aimed to evaluate the levels of metals in the sediments and colonizing plants growing in point bars in the channeled bed of the Dilúvio Stream, Southern Brazil. Sediment and plants were sampled at five-point bars with consolidated vegetation. These point bars are formed mainly by sand, with increasing concentrations of clay plus silt, carbon, nitrogen, and metals (Zn, Cu, Cr, Ni, Pb, and Cd) downstream. The concentration of Zn (338 µg/g) and Cu (219 µg/g) in sediments were 1.6 and 1.11 above the probable effect level at the most downstream site. The translocation factor was low in all sites and for all potentially toxic metals evaluated (ranging from 0.01 to 0.63). However, bioaccumulation factor exhibited high values, especially for Cd (average of 2.51), Ni (1.62), Zn (1.49), and Cr (1.25), suggesting that the colonizing plants have more potential for phytostabilization and phytoaccumulation than phytoextraction. These plants can be considered as natural filtering reducing the environmental contamination and the flow of these contaminants in the drainage network. Statement of novelty: Colonizing plants growing in point bars of urban rivers are common around the world; however, their phytoremediation potential is poorly studied. Colonizing plants may be useful for phytoremediation of water, effluents, and sediments of the Dilúvio Stream (Southern Brazil), polluted by potentially toxic metals that originated from the urbanization.

Influence of different types of margins in the fish assemblage from an urban river / Influência de diferentes tipos de margens na assembleia de peixes de um rio urbano

The presence or absence of a fish species may be associated with the physical and chemical characteristics of the water, in addition to the state of preservation of the riparian zone. This study examined whether the taxonomic fish composition in an urban river varies along three riparian zone preservation conditions: preserved, intermediate preservation and degraded. Six urban stretches of the Sorocaba/São Paulo River were selected for this study, with monthly sampling being carried out from June 2019 to February 2020. The samplings were carried out with the aid of a sieve, dip net, and trawl. Regarding the types of margins and environmental variables, the Principal Component Analysis explained 97.49% of the data variation, axis 1, which explained 91.85% of the total variation, was formed by the variables conductivity and total dissolved solids. Axis 2, which explained 5.64% of the variation, was formed by Sun Rays% and Siltation%, being inversely proportional to Riparian Forest%. For the ichthyofauna, the samples consisted in 50,983 fish distributed in 5 orders, 8 families, and 12 species. Cyprinodontiformes had the highest abundance, with 96.96% of the total number of individuals, followed by Siluriformes (2.39%), and the sum of the other orders did not reach 1% of the total collected. According to each type of margin, it was possible to register 11,592 individuals for the Margin A ­ preserved, with S=8 species, being 2 exclusive (Corydoras flaveolus and Hoplosternum littorale) and 3 exotic (Coptodon rendalli, Pterygoplichthys ambrosettii, and Poecilia reticulata), the latter was dominant in all types of margins. For Margin B ­ intermediate preservation, 19,645 individuals were sampled, with S=5 species, no exclusive species, only exotic and more tolerant native species such as Hoplias malabaricus and Hypostomus ancistroides. For Margin C ­ degraded, 19,746 individuals were recorded, the largest number of species (S=10), 3 were exclusive to this type of mar-gin (Psalidodon fasciatus, Rhamdia Quelen, and Geophagus brasiliensis). The pairwise comparison (similarity percentage) showed that the assemblage structure was different for the types of margins. The Canonical Cor-respondence Analysis explained 92.46% of the total data variation, showing the relationship of species to envi-ronmental data. It is evident the importance of preservation of micro-habitats still present in the locals sampled, since different anthropic pressures cause great loss of diversity, especially for native and more sensitive species.

A presença ou ausência de uma espécie de peixe que vive em rios urbanos pode estar associada às características físicas e químicas da água, além do estado de preservação da zona ripária. O presente estudo verificou se a composição taxonômica de peixes de um rio urbano varia em três condições de preservação da zona ripária: preservada, preservação intermediária e degradada. Seis trechos urbanos do rio Sorocaba, localizado no estado de São Paulo, foram selecionados para este estudo, com coletas mensais de junho de 2019 a fevereiro de 2020 com auxílio de peneira, puçá e rede de arrasto. Com relação aos tipos de margens e às variáveis ambientais, a análise de componentes principais explicou 97,49% da variação dos dados. O eixo 1, que explicou 91,85% da variação total, foi formado pelas variáveis condutividade e total de sólidos dissolvidos. O eixo 2, que explicou 5,64% da variação, foi formado pelo percentual das variáveis raios solares e assoreamento, revelando-se inversamente proporcional ao de mata ripária. Para a ictiofauna, foram amostrados 50.983 indivíduos compreendidos em cinco ordens, oito famílias e 12 espécies. Cyprinodontiformes apresentou maior abundância, com 96,96% do total de indivíduos, seguida de siluriformes (2,39%); a soma das demais ordens não atingiu 1% do total coletado. De acordo com cada tipo de margem, foi possível registrar 11.592 indivíduos para a margem A preservada, com a s=8 espécies, das quais duas foram exclusivas (C. flaveolus e H. littorale) e três exóticas (C. rendalli, P. ambrosettii e P. reticulata), sendo esta última dominante em todos os tipos de margens. Para a margem B intermediária, foram amostrados 19.645 indivíduos, com S=5 espécies, dos quais nenhum representante de espécie exclusiva, apenas espécies exóticas e nativas mais tolerantes, como H. malabaricus e H. ancistroides. Já para margem C degradada, foram registrados 19.746 exemplares, maior número de espécies (s=10), três delas exclusivas desse tipo de margem (P. fasciatus, R. quelen e G. brasiliensis). A comparação par a par (porcentagem similar) mostrou que a estrutura da assembleia se apresentou distinta para os tipos de margens. A análise de correspondência canônica explicou 92,46% da variação total dos dados, evidenciando a relação das espécies com os dados ambientais. Torna-se evidente a importância da preservação dos micro-habitatsainda presentes nas margens amostradas, visto que diferentes pressões antrópicas causam grande perda de diversidade, sobretudo para espécies nativas e espécies mais sensíveis a essas alterações.

Dredging on water bodies and margin interventions: effects on fish / Dragagem de corpos hídricos e intervenções em margens: efeitos nos peixes

The urbanization process deeply affects rivers and streams, with numerous impacts, such as the dis-charge of sewers, dams, and pipework, causing profound changes in the water bodies characteristics and in their biota. In this scenario, the silting of rivers suffers one of the most impactful changes, as it undergoes a reduction in the depth and width of the rivers, triggering physical and chemical changes in the water, as well as in the structure of fish population, its feeding and reproduction habitats. As a palliative measure, it is normal to carry out the desilting (dredging) of rivers, an activity that is also very impacting. Floodings are one of the main factors that demand dredging to be carried out. This re-view was made to analyze desilting activities, their effects on biota and migratory fish, as well as to evaluate the best management strategies and mitigation of impacts on fish population. The shifting and removal of sediment from the riverbed can cause burial and massive death of eggs and larvae, in addition to interfering in the upward and downward migration of eggs, larvae, and adults of migratory fish. In addition, breeding and feeding sites can be impacted by sediment movement, dredging, and deposition. Some actions minimize the impacts of the silting activity recovering riparian forests, ins-pect the use of soil on the banks, move urban settlements away, assess the dredging site, consider the spawning sites and reduce the suspension of bottom sediments, as well as choose the best equipment and time for the performance of activities. Therefore, the development of research on the effect of dredging of water bodies on fish would contribute to a better management of the activity.(AU)

O processo de urbanização afeta diretamente os rios e riachos com inúmeros impactos, como lançamento de esgotos, barramentos e canalizações, que causam profundas alterações em suas características e tam-bém na sua biota. O assoreamento dos rios se caracteriza como uma das mais impactantes alterações, pois acarreta redução da profundidade e largura dos rios, pode provacar alterações físicas e químicas na água, bem como na estrutura de hábitats de alimentação e reprodução dos peixes. Como medida paleativa, é normal realizar a execução de desassoreamento (dragagem) dos rios, atividade esta também muito impac-tante. As enchentes é um dos principais fatores que fazem com que a dragagem seja executada. No intuito de analisar as atividades de desassoreamentos, seus efeitos na biota e nos peixes migradores, bem como avaliar as melhores estratégias de gestão e mitigação dos impactos nos peixes, foi elaborado a presente revisão. Como constatado a movimentação e a remoção de sedimento do leito do rio podem causar soter-ramento e morte massiva de ovos e larvas, além de interferir na migração ascendente e descendente de ovos, larvas e adultos de peixes migradores. Além disso, sítios de reprodução e alimentação podem ser im-pactados pela movimentação, dragagem e deposição do sedimento. Recuperar as matas ripárias, realizar a fiscalização do uso do solo nas margens, afastar os assentamentos urbanos, fazer a avaliação do local de dragagem considerando os locais de desova e diminuindo a suspensão de sedimentos de fundo, bem como escolher o melhor equipamento e época para a realização das atividades, são medidas que minimizam os impactos da atividade de desassoreamento. Sendo assim, o desenvolvimento de pesquisas sobre o efeito da dragagem em peixes contribuiria com uma melhor gestão desta atividade.(AU)

A review of the current environmental status and human health implications of one of the most polluted rivers of Mexico: The Atoyac River, Puebla.

For more than 4 decades, the Atoyac River in central Mexico has been subjected to anthropogenic stresses driven by the urban and industrial wastewater discharges, as well as leachates coming from intensive peri-urban agricultural practices. This review provides an overview of the levels of organic, inorganic and microbiological contaminants found during the past 10 years in waters and bed sediments of the Atoyac system, and the implication of this pollution over the human health. Overall, the Atoyac waters present high loads of nutrients, BOD5, COD, TDS and trace elements (Al, Fe, Zn, Pb, Cr, Cu). The bacteriological pollution is extremely high; with total coliform values of up to 1012 MPN/100 mL. Anthropogenic organics such as PAHs, PCBs and organophosphate and organochlorine pesticides have been also found in river waters. Although pharmaceuticals have not been surveyed in a broad range, considerable concentrations of Triclosan, Naproxen and Diclofenac have been detected in river waters. Regarding sediments, anoxic conditions promote the precipitation/enrichment of sulfides and associated trace elements (As, Fe, Mo, Pb, Zn, Cu, Cr). Microplastics in sediments included films (25.9%), fragments (22.2%), fibers (14.8%) and pellets (11.1%). Fibers from the textile industry were found to accumulate in the aquatic biota of the Valsequillo reservoir. Quality indexes demonstrated that waters and sediments in the Puebla City are the most contaminated. The water of this zone reached the classification of strongly contaminated, whereas the sediments showed the most accumulation/enrichment of major and trace elements of the riverine zones. The main pathologies found in humans were gastrointestinal diseases, whereas children living in vulnerable zones showed elevated levels of cancer biomarkers. Studies have indicated a high risk of suffering cancerous diseases in children that consume contaminated groundwater and high risks for developing non-cancerous diseases in adults working with river-irrigated soils and children consuming milk with high content of river-derived Arsenic.

Impact of anthropogenic activities on an urban river through a comprehensive analysis of water and sediments.

The aim of this study was to assess the impact of urban and industrial areas on an urban river through a comprehensive analysis of water and sediments. Six different sites along the San Luis River, Argentina, were characterized by measuring 12 physical-chemical parameters and nine heavy metals according to standard protocols. Metal pollution in sediment samples was evaluated with several indices. Cluster analysis was applied to standardized experimental data in order to study spatial variability. As, Cu, Cr, Mn, Pb, and Zn were the main contributors to sediment pollution, and the industrial zone studied showed moderate enrichment of Co, Cu, and Zn, probably due to anthropogenic activities. Cluster analysis allowed the grouping of the sites: sediment samples were classified into two clusters according to the metal content; water samples were arranged into three groups according to organic matter content. The results were compared with sediment and water quality guidelines. They indicated progressive deterioration of water and sediment quality compared with the background area, mainly in the sites following the industrial park and domestic discharge areas. Moreover, the results showed that the analysis of both water and sediment should be considered to achieve a watershed contamination profile.

Shifts in bacterial communities and antibiotic resistance genes in surface water and gut microbiota of guppies (Poecilia reticulata) in the upper Rio Uberabinha, Brazil.

Anthropogenic activities especially water pollution can affect the diversity and composition of microbial communities and promote the spread of antibiotic resistance genes (ARGs). In this study, water samples and guppies (Poecilia reticulata) were sampled from six sampling sites along the Uberabinha River in southeastern Brazil, both microbial communities and ARGs of surface waters and intestinal microbiota of guppies (Poecilia reticulata) were detected. According to the results of 16S rRNA amplicon sequencing, Proteobacteria, Bacteroidetes, Firmicutes and Actinobacteria were dominant phyla in both water and intestinal microbiota, but the abundance of putative pathogens was higher at heavily polluted sites. Up to 83% of bacteria in intestinal microbiota originated from water microbiota; this proportion was relatively higher in less polluted compared to polluted environments. ARGs providing resistance of tetracyclines and quinolones were dominant in both water and gut microbiota. The relative abundances of class I integrons and ARGs were as high as 1.74 × 10-1/16S rRNA copies and 3.61 × 10-1/16S rRNA copies, respectively, at heavily polluted sites. Correlation analysis suggests that integrons and bacteria play key roles in explaining the widespread occurrence of ARGs in the surface, but not in intestinal microbiota. We could rule out the class I integrons a potential intermediary bridge for ARGs between both types of microbiomes. Our results highlight the tight link in microbial communities and ARGs between ambient microbiota of stream ecosystems and intestinal microbiota of fish. Our study could have far-reaching consequences for fisheries and consumer safety and calls for investigations of gut microbiota of target species of both commercial fisheries and recreational (hobby) angling.

Distribution of antibiotics in water, sediments and biofilm in an urban river (Córdoba, Argentina, LA).

In this study, we evaluated the distribution of up to forty-three antibiotics and 4 metabolites residues in different environmental compartments of an urban river receiving both diffuse and point sources of pollution. This is the first study to assess the fate of different antibiotic families in water, biofilms and sediments simultaneously under a real urban river scenario. Solid phase extraction, bead-beating disruption and pressurized liquid extraction were applied for sample preparation of water, biofilm and sediment respectively, followed by the quantification of target antibiotics by UPLC-ESI-MS/MS. Twelve antibiotics belonging to eight chemical families were detected in Suquía River samples (67% positive samples). Sites downstream the WWTP discharge were the most polluted ones. Concentrations of positive samples ranged 0.003-0.29 µg L-1 in water (max. cephalexin), 2-652 µg kg-1d.w. in biofilm (max. ciprofloxacin) and 2-34 µg kg-1d.w. in sediment (max. ofloxacin). Fluoroquinolones, macrolides and trimethoprim were the most frequently detected antibiotics in the three compartments. However cephalexin was the prevalent antibiotic in water. Antibiotics exhibited preference for their accumulation from water into biofilms rather than in sediments (bioaccumulation factors > 1,000 L kg-1d.w. in biofilms, while pseudo-partition coefficients in sediments < 1,000 L kg-1d.w.). Downstream the WWTP there was an association of antibiotics levels in biofilms with ash-free dry weight, opposite to chlorophyll-a (indicative of heterotrophic communities). Cephalexin and clarithromycin in river water were found to pose high risk for the aquatic ecosystem, while ciprofloxacin presented high risk for development of antimicrobial resistance. This study contributes to the understanding of the fate and distribution of antibiotic pollution in urban rivers, reveals biofilm accumulation as an important environmental fate, and calls for attention to government authorities to manage identified highly risk antibiotics.

Exploring antibiotic resistance in environmental integron-cassettes through intI-attC amplicons deep sequencing.

INTRODUCTION: Freshwater ecosystems provide propitious conditions for the acquisition and spread of antibiotic resistance genes (ARGs), and integrons play an important role in this process. MATERIAL AND METHODS: In the present study, the diversity of putative environmental integron-cassettes, as well as their potential bacterial hosts in the Velhas River (Brazil), was explored through intI-attC and 16S rRNA amplicons deep sequencing. RESULTS AND DISCUSSION: ORFs related to different biological processes were observed, from DNA integration to oxidation-reduction. ARGs-cassettes were mainly associated with class 1 mobile integrons carried by pathogenic Gammaproteobacteria, and possibly sedentary chromosomal integrons hosted by Proteobacteria and Actinobacteria. Two putative novel ARG-cassettes homologs to fosB3 and novA were detected. Regarding 16SrRNA gene analysis, taxonomic and functional profiles unveiled Proteobacteria, Bacteroidetes, Firmicutes, and Actinobacteria as dominant phyla. Betaproteobacteria, Alphaproteobacteria, and Actinobacteria classes were the main contributors for KEGG orthologs associated with resistance. CONCLUSIONS: Overall, these results provide new information about environmental integrons as a source of resistance determinants outside clinical settings and the bacterial community in the Velhas River.

CrAssphage for fecal source tracking in Chile: Covariation with norovirus, HF183, and bacterial indicators.

Anthropogenic fecal pollution in urban waterbodies can promote the spread of waterborne disease. The objective of this study was to test crAssphage, a novel viral human fecal marker not previously applied for fecal source tracking in Latin America, as a fecal pollution marker in an urban river in Chile. Human fecal markers crAssphage CPQ_064 and Bacteroides HF183, the human pathogen norovirus GII, and culturable fecal indicator bacteria (FIB) were quantified at six locations spanning reaches of the Mapocho River from upstream to downstream of Santiago, as well as in repeated sub-daily frequency samples at two urban locations. Norovirus showed positive correlation trends with crAssphage (τ = 0.57, p = 0.06) and HF183 (τ = 0.64, p = 0.03) in river water, but not with E. coli or enterococci. CrAssphage and HF183 concentrations were strongly linearly related (slope = 0.97, p < 0.001). Chlorinated wastewater effluent was an important source of norovirus GII genes to the Mapocho. Precipitation showed non-significant positive relationships with human and general fecal indicators. Concentrations of crAssphage and HF183 in untreated sewage were 8.35 and 8.07 log10 copy/100 ml, respectively. Preliminary specificity testing did not detect crAssphage or HF183 in bird or dog feces, which are predominant non-human fecal sources in the urban Mapocho watershed. This study is the first to test crAssphage for microbial source tracking in Latin America, provides insight into fecal pollution dynamics in a highly engineered natural system, and indicates river reaches where exposure to human fecal pollution may pose a public health risk.

Draft genome sequences of KPC-2- and CTX-M-15-producing Klebsiella pneumoniae ST437 isolated from a clinical sample and urban rivers in Sao Paulo, Brazil.

OBJECTIVES: KPC-producing Klebsiella pneumoniae is considered one of the most worrisome multidrug-resistant micro-organisms in nosocomial infections. It has also been reported in wastewater and urban rivers in the city of Sao Paulo, Brazil. Here we report the draft genome sequences of three KPC-2- and CTX-M-15-producing K. pneumoniae sequence type 437 (ST437) isolates obtained from two urban rivers and from a clinical sample of a patient in Sao Paulo. METHODS: A genomic library was constructed using a Nextera XT Kit. An Illumina platform was used to perform whole-genome sequencing (WGS). RESULTS: WGS of environmental isolates Kp148/PINH-4900 and Kp196/TIET-4200 and clinical isolate Kp314/11 resulted in estimated genome sizes of 5464058, 5437723 and 5319218bp, respectively. Resistome analysis of the environmental and clinical strains revealed the presence of resistance genes to the following antimicrobials in all strains: aminoglycosides [aac(6')-Ib-cr]; ß-lactams (blaOXA-1, blaSHV-11, blaCTX-M-15 and blaKPC-2); fluoroquinolones [aac(6')-Ib-cr, oqxA and oqxB]; fosfomycin (fosAKP); macrolides [mph(A)]; phenicols (catB4); sulfonamides (sul1); and trimethoprim (dfrA30). The tetracycline resistance gene tetA was identified in Kp148/PINH-4900 and Kp314/11 only; the aminoglycoside resistance gene aph(3')-Ia was found only in environmental isolates, and aadA2 only in Kp314/11; and the phenicol resistance gene catA1 was identified only in Kp148/PINH-4900. CONCLUSIONS: The draft genome sequences of these strains help us to elucidate the dissemination of resistance genes in micro-organisms inside and outside the hospital and are useful for further comparisons between clinical and environmental strains.

Quito's virome: Metagenomic analysis of viral diversity in urban streams of Ecuador's capital city.

In Quito, the microbiological contamination of surface water represents a public health problem, mainly due to the lack of sewage treatment from urban wastewater. Contaminated water contributes to the transmission of many enteric pathogens through direct consumption, agricultural and recreational use. Among the different pathogens present in urban discharges, viruses play an important role on disease, being causes of gastroenteritis, hepatitis, meningitis, respiratory infections, among others. This study analyzes the presence of viruses in highly impacted surface waters of urban rivers using next-generation sequencing techniques. Three representative locations of urban rivers, receiving the main discharges from Quito sewerage system, were selected. Water samples of 500 mL were concentrated by skimmed-milk flocculation method and the viral nucleic acid was extracted and processed for high throughput sequencing using Illumina MiSeq. The results yielded very relevant data of circulating viruses in the capital of Ecuador. A total of 29 viral families were obtained, of which 26 species were associated with infections in humans. Among the 26 species identified, several were related to gastroenteritis: Human Mastadenovirus F, Bufavirus, Sapporovirus, Norwalk virus and Mamastrovirus 1. Also detected were: Gammapapillomavirus associated with skin infections, Polyomavirus 1 related to cases of kidney damage, Parechovirus A described as cause of neonatal sepsis with neurological affectations and Hepatovirus A, the etiologic agent of Hepatitis A. Other emergent viruses identified, of which its pathogenicity remains to be fully clarified, were: Bocavirus, Circovirus, Aichi Virus and Cosavirus. The wide diversity of species detected through metagenomics gives us key information about the public health risks present in the urban rivers of Quito. In addition, this study describes for the first time the presence of important infectious agents not previously reported in Ecuador and with very little reports in Latin America.

Draft genome sequence of an environmental multidrug-resistant Klebsiella pneumoniae ST340/CC258 harbouring blaCTX-M-15 and blaKPC-2 genes.

Anthropogenic activities, including the release of wastewater and sewage from hospitals, have contributed to the contamination of aquatic environments, raising a concern to public health. In this study, we present the first draft genome sequence of a Klebsiella pneumoniae strain (Kp171, TIET-4200) belonging to the high-risk hospital-associated clonal lineage ST340/CC258, which was recovered from a water sample collected in an urban river in Brazil.

El hallazgo de bacterias patógenas en ríos urbanos y su relación con el cambio climático / Pathogenic bacteria found in urban rivers and its relation to climate change

Se analiza la importancia de las bacterias acuáticas y su relación con el ambiente humano. Se definen y caracterizan los ríos urbanos, las modificaciones en su calidad y los hallazgos de patógenos transportados por estos cursos. Se discute la evolución y adaptación de los microorganismos al ambiente acuático, con énfasis en el caso particular de los ríos del conurbano bonaerense. Se presenta y discute la posible relación entre el cambio climático y algunos hallazgos recientes de patógenos en estos ríos urbanos

Water microorganisms importance and its relation with human environment are analyzed. So are defined and characterized urban rivers, qualities alterations and finding of pathogens transported by them. Evolution and adaptation of microorganisms are discussed emphasizing its importance in Buenos Aires suburban rivers. Recent pathogen changes detected in this courses and its relationship with climate changes are discussed

Analisa-se a importância das bactérias aquáticas e sua relação com o ambiente humano e os achados de patogênicos transportados por estes cursos. Discute-se a evolução e adaptação dos microorganismos ao ambiente aquático, com ênfase no caso peculiar dos rios do Conurbano Bonaerense. Apresenta-se e discute-se a possível relação entre a mudança climática e alguns achados de patogênicos nestes rios urbanos

Water quality of the Luján river, a lowland watercourse near the metropolitan area of Buenos Aires (Argentina).

Luján river is a lowland watercourse which runs 130 km before flowing into the Río de la Plata Estuary, and receives a mixture of domestic and industrial wastewaters originating at its margins. In order to know the physicochemical profile of its surface water, 36 physical-chemical variables were analyzed in samples collected seasonally between 2004 and 2006 at three sampling stations. The results obtained through the principal component analysis (PCA) suggest that the variations in water quality are explained by natural components (soluble salts; metals), nonpoint inputs (nutrients), and anthropogenic (organic and bacterial) and industrial (toxic heavy metals) pollutants. The cases did not fit a clear spatial or seasonal pattern when plotted against the first two PCA axes. The three water quality indices calculated gave middle scores; Sampling station 1 gave a baseline for the comparison of the river's water quality along its course while Sampling station 3 (downriver) was the most degraded. A variety of pollution pulses reach and affect the watercourse downstream. Cities' sewage discharges into the river seem to be the major polluting factor, together with natural metals and other solutes loads that are present from the headwaters. The results may be useful for the development of local and regional mitigation and remediation programs regarding toxic and eutrophying loads in the upper basin of the river.