Pesquisa de bioagentes na água do Rio Pardo, Brasil, e estimativa de risco de infecção e de doença por Cryptosporidium spp. e Giardia spp / Research on bioagents in the Pardo river water, Brazil, and estimated risk of infection and disease by Cryptosporidium spp. and Giardia spp

Brisa Maria Fregonesi

21 November 2017

O lançamento de esgotos domésticos in natura, efluentes das estações de tratamento de esgoto e escoamento superficial, são relatados como importantes causas de poluição das águas superficiais. Sabe-se que a alteração da qualidade das águas dos rios restringe seus múltiplos usos e contribui para o aumento de doenças de veiculação hídrica, em decorrência da exposição oral a bioagentes patogênicos. Neste contexto, o objetivo do presente estudo foi identificar e quantificar bioagentes presentes na água do rio Pardo, Brasil, e estimar o risco de infecção e de doença por Cryptosporidium spp. e Giardia spp. para a população, devido ao uso do rio como fonte de abastecimento público e recreação de contato primário, por meio da abordagem da Avaliação Quantitativa de Risco Microbiológico (AQRM). Durante os anos de 2015 e 2016, foram realizadas seis coletas de amostras da água do rio Pardo (período chuvoso e período seco) em seis pontos, totalizando 36 amostras. Foram realizadas análises de identificação e quantificação de E. coli, Salmonella Não Tifóide, Cryptosporidium spp. e Giardia spp. Para estimativa de risco de infecção e de doença por Cryptosporidium spp. e Giardia spp. (AQRM), foram considerados diferentes populações (crianças e adultos), volumes de água ingerido, concentração de (oo)cistos e duração e frequência da exposição, de acordo com o cenário estabelecido. Os valores médios para E. coli variaram de 6,57 x 101 UFC/100 mL a 6,07 x 103 UFC/100 mL, apresentando diferenças estatisticamente significantes (p < 0,05) entre os períodos chuvoso e seco. As densidades de Salmonella Não Tifóide foram baixas (<0,6473 a 1,55 NMP/100 mL), com frequência de 13,9% das amostras positivas, evidenciando a circulação desse patógeno no ambiente. A concentração de (oo)cistos de Cryptosporidium spp. e Giardia spp. variou de <0,1 a 0,4 oocistos/L e <0,1 a 4,4 cistos/L, respectivamente. Para abordagem da AQRM devido a ingestão da água do rio Pardo usada para abastecimento público, a probabilidade anual de infecção por Cryptosporidium spp. e Giardia spp. foi maior para adultos do que para crianças, sendo que na maioria dos pontos apresentou resultados superiores ao risco anual tolerável pela USEPA (1 x 10-4). No que diz respeito ao uso da água do rio Pardo para recreação de contato primário, a probabilidade diária e anual de infecção, bem como a probabilidade de doenças, foi maior para crianças, seguida de adultos/homens e adultos/mulheres. A probabilidade de criptosporidiose e giardíase esteve abaixo do limite tolerável pela USEPA (3,6 x 10-2), exceto no Ponto 4, em que a estimativa de risco de doença por Giardia spp. para crianças esteve acima deste valor. A presença de bioagentes em amostras de água do rio Pardo pode estar relacionada à poluição das águas por fontes pontuais e difusas. Esses achados refletem a importância de priorizar os recursos para implantação e complementação das Estações de Tratamento de Esgoto na UGRHI 4, a fim de prevenir as doenças de veiculação hídrica em populações que utilizam a água do rio Pardo para abastecimento público e recreação de contato primário / The discharge of domestic sewage, effluents of wastewater treatment plants and surface runoff, are reported as important causes of surface water pollution. It is known that the alteration of river water quality restricts its multiple uses and contributes to the increase of waterborne diseases, due to oral exposure to pathogenic bioagents. In this context, the aim of the present study was to identify and quantify bioagents present in Pardo river water, Brazil, and to estimate the risk of infection and disease by Cryptosporidium spp. and Giardia spp. for the population, due to the use of the river as source of public supply and primary contact recreation, through the approach of Quantitative Microbial Risk Assessment (QMRA). During the years of 2015 and 2016, six samples of water from the Pardo river (rainy and dry season) were collected at six points, totaling 36 samples. Identification and quantification analyzes of E. coli, Non-typhoid Salmonella, Cryptosporidium spp. and Giardia spp. To estimate the risk of infection and disease by Cryptosporidium spp. and Giardia spp. (QMRA), different populations (children and adults), volumes of ingested water, concentration of (oo) cysts, duration and frequency of exposure were considered according to the established scenario. Mean values for E. coli varied from 6.57 x 101 CFU / 100 mL to 6.07 x 103 CFU / 100 mL, showing statistically significant differences (p <0.05) between the rainy and dry season. Non-typhoid Salmonella densities were low (<0.6473 at 1.55 MPN / 100 mL), with a frequency of 13.9% of the positive samples, evidencing the circulation of this pathogen in the environment. Cryptosporidium spp. and Giardia spp. concentration ranged from <0.1 to 0.4 oocysts / L and <0.1 to 4.4 cysts / L, respectively. In order to approach the QMRA due to the ingestion of Pardo river water used for public supply, the probability of annual infection by Cryptosporidium spp. and Giardia spp. was higher for adults than for children, and in most points presented results higher than the risk tolerable by USEPA (1 x 10-4). Regarding the use of Pardo river water for primary contact recreation, the daily and annual probability of infection, as well as the probability of illness, was higher for children, followed by adults / men and adults / women. The probability of cryptosporidiosis and giardiasis was below the limit tolerable by USEPA (3.6 x 10-2), except in Point 4, where the estimated risk of disease by Giardia spp. for children was above this value. The presence of bioagents in Pardo river water may be related to water pollution by point and diffuse sources. These findings reflect the importance of prioritizing the resources for implementation and complementation of wastewater treatment plants at UGRHI 4, in order to prevent waterborne diseases in populations that use Pardo river water for public supply and primary contact recreation

Fate and Transport of Avian-Associated Pathogens in Western Lake Erie Beaches

Rea, Christopher L.

January 2013

No description available.

Animal Diseases

Environmental Health

Freshwater Ecology

Health Sciences

Public Health

wetland

ecosystem services

recreational water quality

avian-associated pathogens

Lake Erie

beach water

quantitative microbial risk assessment

QMRA

Arcobacter

ecoservices

Ottawa National Wildlife Refuge

Canada Goose

phosphorus

E coli

Hydraulic Modeling and Quantitative Microbial Risk Assessment of Intrusionin Water Distribution Networks Under Sustained Low-Pressure Situations / Hydraulisk modellering och kvantitativ mikrobiell riskbedömning av inläckage i vattendistributionsnät under ihållande lågtryckssituationer

Shakibi, Maryam

January 2022

Drinking water systems aim to remove, reduce, and prevent microbial contamination in water by usingmultiple barriers from catchments to consumers. Water distribution networks are vulnerable tocontamination from external sources if they lose their physical or hydraulic integrity. The leading causeof intrusion is losing hydraulic integrity due to low pressure in the water distribution networks. Eventsthat lead to low pressure in the water distribution networks can result in transient or sustained lowpressure lasting from milliseconds in a transient to hours and days in sustained low-pressure events.This study studied two sustained low-pressure events with durations of one to five hours, leading tointrusion in the water distribution network. The first event was the pump shut down, and the secondwas the pipe repair. Different durations, start times, and locations were simulated for the pumpshutdown and pipe repair events. Hydraulic and water quality modelling using EPANET 2.2 was usedto simulate low-pressure events and intrusion of microbial contamination in the drinking waterdistribution networks. Quantitative microbial risk assessment (QMRA) was used to estimate potentialpublic health risks using the Swedish QMRA tool. Campylobacter, Norovirus, and Cryptosporidiumwere selected as reference pathogens for simulating intrusion transport within the drinking waternetwork based on their health problem severity, persistence in water supplies, and resistance to chlorinecompound disinfectants. The study area was taken from the virtual network files generated usingHydroGen. This study showed that the volume of intrusion depended on the magnitude but mainly onthe duration of pressure drop. Also, the length of the pipes experiencing pressure drop and the numberof intrusion nodes affected the volume of intrusion. The location and magnitude of maximum nodalpathogen concentration changed significantly by changing the pump shutdown's start time and locationof pipe repair. Generally, the pump shutdown event affected extended areas with low pressure in thewater distribution network than the pipe repair. The QMRA results showed a considerable infection riskin all studied pump shutdown scenarios. The pipe repair duration was crucial in increasing or decreasingthe infection probability. The findings of hydraulic modelling and QMRA could benefit the watermanagers in deciding mitigation strategies.

drinking water distribution network

EPANET

hydraulic modelling

low pressure

pathogen intrusion

distributionsnät för dricksvatten

EPANET

hydraulisk modellering

lågtryck

patogen inläckage

Water Engineering

Vattenteknik