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Resumo Analisaram-se indicadores de vigilância da qualidade da água para consumo humano no Amazonas, de 2016 a 2020, utilizando 185.528 amostras provenientes de 11 microrregiões. Das amostras analisadas, 93,20% são da área urbana, 66,65% provinham do sistema público (SAA), 31,02% da Solução Alternativa Coletiva (SAC) e 2,33% da Solução de Alternativa Individual (SAI). Observou-se aumento do número de registros pelo SAA, com tendência de queda e oscilações de registros para a SAC e a SAI. Os indicadores de qualidade dos parâmetros químicos e físicos da área urbana foram superiores aos das áreas rurais e de comunidades tradicionais. A maior parte das amostras apresentou valores de pH abaixo do recomendado. Na quantificação dos parâmetros microbiológicos, identificou-se maior presença de coliformes totais e E.coli na área rural e em comunidades tradicionais. Em conclusão, verificaram-se inadequações nos parâmetros químicos, físicos e microbiológicos, assim como problemas relativos ao abastecimento, armazenamento e à vigilância da água distribuída para consumo humano. Tais achados indicam a necessidade de construir uma agenda, pela gestão pública, para o enfrentamento da insegurança hídrica e seus prováveis efeitos sobre a insegurança alimentar existente na região.
Abstract Surveillance indicators of the quality of water for human consumption in the Amazon were analysed from 2016 to 2020 using 185,528 samples from 11 microregions. Of the samples analysed, 93.20% were from urban areas, 66.65% were from the public water supply system (WSS), 31.02% were from the Collective Alternative Solution-CAS, and 2.33% from the Individual Alternative Solution-IAS. There was an increase in the number of records by the WSS, with a downwards trend and fluctuations in records for the CAS and the IAS. The quality indicators of chemical and physical parameters for urban areas were higher than those for rural areas and traditional communities. Most of the samples presented pH values below the recommended level. In the quantification of microbiological parameters, a higher presence of total coliforms and E. coli was identified in samples from rural areas and in traditional communities. In conclusion, there were inadequacies in the chemical, physical and microbiological parameters as well as problems related to the supply, storage and surveillance of water distributed for human consumption. These findings indicate the need to build an agenda for public management to address water insecurity and its likely effects on food insecurity in the region.
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El suicidio es un fenómeno que además de las pérdidas humanas que involucra, repercute negativamente en familiares y allegados, produciendo a su vez enormes gastos en el sistema sanitario. En Uruguay, la tasa de suicidio no solo ha experimentado un aumento sostenido, representando una preocupación constante para las autoridades, sino que suele ser una de la más altas de Latinoamérica, en 2022 fue de 23,08 cada 100.000 habitantes. Reconociendo que el suicidio es un fenómeno multifactorial grave, diversos estudios han indagado sobre la posible correlación entre la presencia de litio en agua corriente y tasas de suicidio, habiéndose observado una relación inversa, lo que permitiría considerar el litio como eventualmente protector de la conducta suicida. El presente estudio pretende abordar dicha correlación en los departamentos de Rocha y Montevideo, de Uruguay. Los resultados obtenidos no son concluyentes. En cuanto a las concentraciones de litio presentes en agua corriente, en general son menores a las señaladas en otros estudios como protectoras (30 µ/L). Es necesario profundizar en este eje de discusión, como en otros, para obtener un diagnóstico más detallado de este complejo y sentido fenómeno.
Suicide is a phenomenon that, in addition to the human losses it involves, has a negative impact on family members and acquaintances, leading to enormous costs in the healthcare system. In Uruguay, the suicide rate has not only experienced a sustained increase, representing a constant concern for authorities, but it also tends to be one of the highest in Latin America, reaching 23.08 per 100,000 inhabitants in 2022. Recognizing that suicide is a serious multifactorial phenomenon, several studies have investigated the possible correlation between the presence of lithium in tap water and suicide rates, noting an inverse relationship. This suggests that lithium could potentially be considered protective against suicidal behavior. This study aims to address this correlation in the departments of Rocha and Montevideo, Uruguay. The results obtained are inconclusive. Regarding the concentrations of lithium present in tap water, they are generally lower than those indicated in other studies as protective (30 µg/L). It is necessary to delve deeper into this axis of discussion, as in others, to obtain a more detailed diagnosis of this complex and profound phenomenon.
O suicídio é um fenómeno que, além das perdas humanas que envolve, tem um impacto negativo nos familiares e amigos, produzindo enormes gastos no sistema de saúde. No Uruguai, a taxa de suicídio não só tem registado um aumento sustentado, representando uma preocupação constante para as autoridades, mas geralmente é uma das mais altas da América Latina, sendo de 23,08 por 100.000 habitantes em 2022. Reconhecendo que o suicídio é um fenómeno multifatorial grave, vários estudos têm investigado a possível correlação entre a presença de lítio na água encanada e as taxas de suicídio; observa-se uma relação inversa, o que permitiria considerá-lo como um possível protetor do comportamento suicida. O presente estudo visa abordar esta correlação nos departamentos de Rocha e Montevidéu no Uruguai. Os resultados obtidos não são conclusivos. Quanto às concentrações de litio presentes na água corrente, são geralmente inferiores às indicadas em outros estudos como protetoras (30 µ/L). É necessário aprofundar esta área de discussão como em outras linhas de pesquisa, e obter um diagnóstico mais detalhado deste fenômeno complexo e significativo.
Subject(s)
Suicide , Drinking Water , Lithium/therapeutic use , Uruguay/epidemiologyABSTRACT
Objective To investigate the radioactivity levels of total α and total β in drinking water in nine districts of Chongqing City from 2019 to 2021, and to provide reference for the risk monitoring of drinking water in the metropolitan areas of Chongqing. Methods The total α and total β radioactivity levels in water samples were determined by the comparative measurement method and the thin source deposit method in GB/T5750.13-2006 “Standard Examination Methods for Drinking Water-Radiological Parameters”. The monitoring results were assessed according to GB5749-2006 “Standards for Drinking Water Quality” and the fourth edition of the WHO Guidelines for Drinking Water Quality. Results From 2019 to 2021, the total α activity concentration of the water samples measured in the nine districts of metropolitan Chongqing ranged from 0.002 to 0.039 Bq /L, and the total β activity concentration ranged from 0.015 to 0.190 Bq /L. There was no significant difference in the activity concentration (tα=0.545, Pα=0.591; tβ=-1.438, Pβ=0.163>0.05). From 2019 to 2021, the average value of total α radioactivity decreased year by year and its activity value was relatively low, indicating a low health risk. However, the average value of total β radioactivity increased year by year, which should be paid attention to. Conclusion The total α and total β radioactivity in water samples measured in the present study are lower than the standard recommended limits. The estimated annual average effective dose of radiation caused by drinking water is 0.005-0.010 mSv, which is lower than the limit of 0.1 mSv recommended by WHO, and this radioactivity level will not have an impact on the health of residents. However, the total β radioactivity level of the monitoring points in Banan and Shapingba is relatively high compared to other jurisdictions, and further tracking and monitoring should be carried out.
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Background The Qingcaosha Reservoir is facing issues of algal blooms and eutrophication, and the resulting increase in the level of chlorination disinfection by-products in the water has been a major concern. Objective To evaluate the impact of "Algae Monitoring and Control Program in Qingcaosha Reservoir" (hereinafter referred to as the program) on the control of trihalomethanes (THMs) in conventional finished water. Methods From 2011 to 2019, water samples were collected from the Lujiazui Water Plant once per season, one sample each time, and the concentrations of four THMs (trichloromethane, dichlorobromomethane, monochlorodibromomethane, and tribromomethane) were measured in the samples. Using 2014 when the program was implemented as a cut-off point, the entire study period was divided into two phases: pre-implementation (2011–2013) and post-implementation(2014–2019). Segmented linear regression with interrupted time series analysis was applied to assess the concentrations and trends of THMs in the finished water before and after the program launch. Results The concentration of total THMs in finished water increased by 1.561 µg·L−1 (P=0.010) for each season of time extension before launching the program. The change in the concentration of total THMs in finished water was not statistically significant after the program launch, but the THMs concentration showed a decreasing trend as the slope was −0.626 (P=0.001). From 2017 until the end of 2019, the average concentration of THMs in finished water of Lujiazui Water Plant dropped to 10 μg·L−1 or less. Conclusions The algae and eutrophication control measures in Qingcaosha Reservoir have achieved good results, controlling THMs in finished water at a low level, and the trend of THMs has changed from a yearly increase pattern before the program to a yearly decrease pattern after the program.
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Objective@#To evaluate the health risk of drinking water in Ningbo City, Zhejiang Province from 2021 to 2022, so as to provide insights into ensuring the safety of drinking water.@*Methods@#The monitoring data of drinking water from 2021 to 2022 in Ningbo City were collected from the Chinese Disease Prevention and Control Information System. The routine indicators and disinfectant indicators (radioactivity indicators were excluded) of drinking water were evaluated according to the reference limits issued by Standards for Drinking Water Quality (GB 5749-2006), and the qualification rates were calculated. The indicators with detection rate higher than 50% were selected, and assessed the carcinogenic and non-carcinogenic risks via drinking water using the risk assessment model recommended by the United States Environmental Protection Agency.@*Results@#A total of 1 678 samples were monitored in Ningbo City from 2021 to 2022. Sodium hypochlorite was the main disinfectant among 1 558 samples from centralized water supply (1 079 samples, 64.30%), and none of the 120 samples from decentralized water supply underwent disinfection treatment. The qualification rate of 88.38%, and the pollutants with a detection rate higher than 50% were nitrate, fluoride, trichloromethane and aluminum. The median carcinogenic risk value of trichloromethane was 2.964×10-6 (interquartile range, 3.909×10-6), and the median hazard quotient values of nitrate, fluoride, trichloromethane and aluminum were 1.631×10-2 (interquartile range, 1.361×10-2), 3.955×10-2 (3.164×10-2), 2.231×10-2 (2.942×10-2) and 2.136×10-4 (6.573×10-4), respectively.@*Conclusion@#The carcinogenic and non-carcinogenic risks through drinking water for 17 pollutants in drinking water of Ningbo City from 2021 to 2022 were at low levels.
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Objective To explore the uranium concentration in surface water and drinking water in Beijing, China and the relationship between uranium concentration and gross α activity concentration. Methods Water samples were collected from 16 districts in Beijing. Uranium concentration and gross α activity concentration were measured with WGJ-III trace uranium analyzer and LB6008 six-channel α/β counter using the ultraviolet fluorescence and thick source methods. Results The uranium concentrations in surface water and drinking water were 1.131 and 1.572 μg/L, respectively. The gross α activity concentrations in surface water and drinking water were 0.059 and 0.074 Bq/L, respectively. There were no significant differences in uranium concentration and gross α activity concentration between surface water and drinking water (P > 0.05). The uranium concentration was positively correlated with the gross α activity concentration, with a correlation coefficient of 0.700 (P < 0.05). The gross α activity concentration was determined by the uranium concentration with a determination coefficient of 48%. The committed effective dose of 238U in drinking water was between 3.284 × 10−5 and 1.640 × 10−3 mSv, with an average value of 5.400 × 10−4 mSv. Conclusion The uranium concentration and gross α activity in the surface water and drinking water in Beijing fluctuate and remain in the background range. These values are much lower than the recommended limits of 0.03 mg/L and 0.5 Bq/L stipulated in the GB 5749-2021 Standard for Drinking Water Quality. The annual committed effective dose of 238U through drinking water ingestion is very small.
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Objective:To investigate the iodine nutritional status of children and the consumption condition of non-iodized salt in Henan Province after implementation of the new standard of "Definition and demarcation of water-borne iodine-excess areas and iodine-excess endemial areas" (GB/T 19380-2016, hereinafter referred to as new standard) for four years (2021), and to provide a basis for scientific adjustment of intervention strategies.Methods:In 2021, according to the requirements of the new standard and based on the results of the water iodine survey in Henan Province from 2017 to 2020, a survey was conducted on the iodine nutrition status of children in water-borne high iodine areas in 47 counties (cities, districts, hereinafter referred to as counties) with high iodine administrative village (neighborhood committee, hereinafter referred to as administrative village). In each county, 5 administrative villages with median water iodine > 100 μg/L were selected as the investigation villages, and water samples were collected to determine the water iodine value. Forty non-boarding students aged 8 - 10 (age balanced, half male and half female, age increased to 6 - 12 when less than 40) were selected from each village as investigation subjects. Salt samples from their homes and urine samples were collected to detect salt iodine and urine iodine content, and thyroid volume of children was measured. And the monitoring results of areas where the supply of iodized salt had been suspended for less than 4 years (in newly high iodine areas) and more than 10 years (in previously high iodine areas) were further compared and analyzed.Results:A total of 257 administrative villages in the province were monitored, and the range of water iodine was 1.6 - 609.5 μg/L, with a median of 132.5 μg/L. A total of 8 611 children were tested for salt iodine, urine iodine and thyroid volume. The non-iodized salt rate was 58.3% (5 017/8 611), and the median urine iodine was 342.2 μg/L, thyroid enlargement rate was 2.9% (250/8 611). The median water iodine (153.0 vs 118.4 μg/L), the median urine iodine in children (371.6 vs 287.7 μg/L) and the goiter rate [3.8% (211/5 537) vs 1.3% (39/3 074)] in the newly high iodine areas were higher than those in the previously high iodine areas, and the differences were statistically significant ( Z = 583.12, - 14.09, P < 0.001; χ 2 = 44.40, P < 0.001); the non-iodized salt rate was lower than that of the previously high iodine areas [37.2% (2 057/5 537) vs 96.3% (2 960/3 074)], and the difference was statistically significant (χ 2 = 2 841.37, P < 0.001). Conclusions:The iodine nutrition level of children in water-borne high iodine areas of Henan Province in 2021 is at an excess level, but the non-iodized salt rate in residential households is low. We should make every effort to ensure the precise supply of non-iodized salt in high iodine areas after implementation of the new standard, and strengthen iodine nutrition monitoring and health education for key populations to prevent the occurrence of high iodine hazards.
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Objective To explore the effects of different types of drinking water on the growth and fecal flora of mice.Methods Specific pathogen-free NIH mice were randomly divided into five groups,32 mice each group,with half males and half females in each group.The group were given either purified water(control group),acidified water,alkalized water,weakly acidic water or solid water.Diet and body weight were monitored continuously for 20 days.After the experiment,animal fecal samples were collected,and the V3-V4 region was amplified with bacterial 16S rDNA universal primers.An Illumina Miseq high-throughput sequencing platform was used for high-throughput sequencing,and microbial community,α diversity and β diversity were analyzed by bioinformatics method.Results The body weight of female mice given different pH values of weakly acidic water was higher,while the weight of the other groups was lower,than that of the control group(P>0.05).The body weight of male mice in the acidified water group was higher,while that of other groups was lower,than that of control group,but there was no statistical difference between the groups(P>0.05).The body weights of male and female mice in the solid water group were lower than those in the control group(P<0.05).The food and water intake of the female animals in the alkaline water group and the water intake of female animals in the solid water group were lower than those of the other groups.OTU clustering analysis showed that the data volume of the sequencing was reasonable,and the fecal flora species of NIH mice were divided into five phyla,among which Bacteroides and Firmicutes were dominant.Unclassified Pseudopurpuromonas,Lactobacillus and Alistipes were the main genera.There were differences in fecal flora abundance and diversity among the mice given the five drinking water types.α analysis showed that the acidified water group had the highest flora abundance and diversity,while the solid water group had the lowest flora diversity.β analysis showed that the fecal flora composition in the solid water group was the closest to that of the control group,followed by the alkalized water group,acidified water group and weakly acidic water group.Conclusions Through an exploration of the effects of consuming different forms of water,this study revealed that solid water consumption had the greatest effects on body weight,feed intake,water consumption,and fecal flora of mice.The abundance and diversity of fecal flora in mice were affected by different pH values of drinking water,especially acidified water.
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@#Water pollution in developing countries continues to be a major health problem due to various anthropological activities that contribute to the spread of many parasitic diseases, including those caused by helminths. The aim of this study is to explore the ability of ozone and peroxone to disinfect drinking water contaminated samples with Toxocara canis eggs. The oxidants used were ozone and ozone-hydrogen peroxide combination. The treatment of Toxocara canis eggs was carried out in a 50 ml reactor with an operating volume of 10 ml. The pH conditions (5, 7 and 10) were varied for each treatment. The treatment effect was calculated by counting eggs and examining the condition of the larvae larval condition (whole, broken and hatched larvae) using an optical microscope. The experiment was carried out by exposing the eggs for 60 and 120 minutes to ozone and peroxone. The best results were obtained for helminths treated with the ozone/hydrogen peroxide combination at pH 10, with an inactivation of 79.2%. The synergistic effect of ozone combined with hydrogen peroxide allows higher helminth egg inactivation rates, demonstrating that advanced oxidation processes are a real alternative to apply in the inactivation of Toxocara canis eggs. The results obtained in this study show that the ozone and peroxone treatment could be a useful disinfection process to destroy or inactivate Toxocara canis eggs in processes commonly applied in water treatment.
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RESUMEN Esta reflexión emerge de un proyecto educativo orientado a mejorar algunos aspectos relacionados con el acceso y manejo del agua en tres barrios informales. El objetivo es reflexionar acerca de las nociones de territorio que se construyen en el contexto de proyectos educativos en comunidades que habitan barrios informales. El proyecto inició con la conformación de un grupo de participantes quienes realizaron la cartografía social de sus barrios para identificar aspectos críticos sobre agua y saneamiento. La validación de los mapas y los recorridos por cada sector aportaron elementos para los talleres relacionados con acceso, manejo, cuidado y derecho al agua, que posteriormente fueron multiplicados en cada comunidad. Este proceso permitió reconocer situaciones relacionadas con la negación del derecho al agua, el malestar, la tensión entre ilegalidad e informalidad, las maneras en que las comunidades resuelven sus necesidades y las relaciones que establecen con su territorio, en medio de grandes inequidades. En conclusión, existe una relación profunda entre salud y territorio, que se hace más evidente en comunidades en condiciones críticas. Los proyectos de educación para la salud requieren hacer un trabajo situado y establecer una mirada interdisciplinaria, que reconozca la complejidad e interdependencia de las dinámicas sociales y ambientales.
ABSTRACT This reflection derives from an educational project focused on raising awareness about some aspects related to the access and management of water in three disadvantaged neighborhoods. The objective is to reflect on the notions of territory build in the context of educational projects in communities inhabiting disadvantaged neighborhoods. The project began with the formation of a group of participants who carried out social mapping of their neighborhoods to identify critical aspects of water and sanitation. Map validation and the paths followed in each sector provided the input to design the workshops, related to access, management, care and the right to water, which were subsequently multiplied in each community. This process allowed us to understand the situations derived from the denial of access to water, discomfort, and tension between illegality and informality as the modes people in these communities have chosen to address their needs, and the relationships they establish with their territory in the midst of huge inequalities. In conclusion, there is a deep relationship between health and territory which is blatant in communities that face critical life conditions. The projects on health education require situated work and to define an interdisciplinary perspective that acknowledges the complexity and interdependence of social and environmental dynamics.
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Resumo: Este estudo analisa a insegurança alimentar e os fatores a ela associados na área urbana de um município na bacia hidrográfica do Rio Amazonas, Amazônia Ocidental. Trata-se de pesquisa transversal, de base populacional, realizada de agosto a novembro de 2021, com 983 domicílios selecionados por amostragem probabilística estratificada. Empregou-se o modelo de regressão logística multinomial, adotando-se os seguintes critérios: valor de p < 20% na análise bivariada e valor de p < 5% para o ajuste multivariado. Os resultados das análises foram descritos como odds ratios (OR) e intervalo de 95% de confiança (IC95%). Foram significantemente associadas à insegurança alimentar leve ou moderada as seguintes variáveis: insegurança hídrica domiciliar, número de moradores ≥ 5 no domicílio, pertencer à classe socioeconômica D ou E, ter pai, mãe ou outro, como chefe da família e ter algum morador beneficiário do Programa Bolsa Família. No modelo de análise para a insegurança alimentar grave constatou-se que viver em insegurança hídrica domiciliar, pertencer à classe socioeconômica D ou E, ter pai, mãe ou outro chefe da família, e tendo este menos que 55 anos, e renda familiar menor que dois salários mínimos aumentaram as chances de insegurança alimentar grave, comparativamente àqueles em segurança alimentar. Em conclusão, verificou-se alta prevalência de insegurança alimentar no Município de Itapiranga, Amazonas, Região Norte do Brasil, associada à situação de vulnerabilidade social e econômica, à falta de serviços públicos e à insegurança hídrica domiciliar.
Abstract: This study analyzed food insecurity and associated factors in the urban area of a municipality in the Amazon River basin, Western Amazon. This is a cross-sectional population-based study conducted from August to November 2021 with 983 households selected by stratified probability sampling. A multinomial logistic regression model was used, adopting the following criteria: p-value < 20% in the bivariate analysis and p-value < 5% for the multivariate adjustment. The results of the analyses were described as odds ratio (OR) and 95% confidence interval (95%CI). The following variables were significantly associated with mild or moderate food insecurity: household water insecurity; number of residents ≥ 5 in the household; belonging to socioeconomic class D or E; having a father, mother or another as the head of the family; and having any resident as a beneficiary of the Brazilian Income Transfer Program. The analysis model for severe food insecurity showed that living with household water insecurity; belonging to socioeconomic class D or E; having a father, mother or another as the head of the family; age of the head of the family < 55 years; and family income lower that two minimum wages increased the chances of severe food insecurity when compared to those with food security. In conclusion, this study found a high prevalence of food insecurity in the Municipality of Itapiranga, State of Amazonas, North Region of Brazil, associated with social and economic vulnerability, lack of public services, and household water insecurity.
Resumen: Este estudio analiza la inseguridad alimentaria y los factores asociados, en el área urbana de un municipio de la cuenca hidrográfica del río Amazonas, Amazonia occidental. Se trata de una encuesta transversal, de base poblacional, realizada en el período de agosto a noviembre del 2021, con 983 hogares seleccionados mediante muestreo probabilístico estratificado. Se utilizó el modelo de regresión logística multinomial, adoptando los siguientes criterios: valor de p < 20% en el análisis bivariado y valor de p < 5% para el ajuste multivariado. Los resultados de los análisis se describieron como odds ratios (OR) e intervalo de 95% de confianza (IC95%). Las siguientes variables se asociaron significativamente con la inseguridad alimentaria leve o moderada: inseguridad hídrica en el hogar, número de residentes ≥ 5 en el hogar, pertenecer a la clase socioeconómica "D" o "E", tener padre, madre u otra persona como cabeza de familia y tener a algún residente como beneficiario del Programa Bolsa Familia. En el modelo de análisis para la inseguridad alimentaria severa se encontró que vivir en hogar con inseguridad hídrica, pertenecer a la clase socioeconómica D o E, tener padre, madre u otra persona como cabeza de familia, edad del jefe de familia < 55 años, y un ingreso familiar más bajo que dos salarios mínimos aumentó las probabilidades de sufrir inseguridad alimentaria grave, en comparación con aquellos en situación de seguridad alimentaria. En conclusión, se constató una alta prevalencia de inseguridad alimentaria en el Municipio de Itapiranga, en el interior del Amazonas, Región Norte de Brasil, asociada a la situación de vulnerabilidad social y económica, a la falta de servicios públicos y a la inseguridad hídrica de los hogares.
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Background: Access to potable water is a human right that plays a significant role in maintaining health and sanitation. Its limited supply in oil-producing areas has been variously linked to diverse pollutants in crude oil-producing communities, in Nigeria’s Niger Delta region. This cross-sectional study analysed and compared the physico-chemistry of drinking water sources in high and low crude oil-producing communities in the Niger Delta region between January to February 2023. Methods: Water samples were collected from a total of 28 samples from geo-referenced points in 10 communities. Analysis was done using the approved APHA and ASTM methods and assessed based on the recommended World Health Organization (WHO) permissible limits of detection for water quality. Data were analyzed using the statistical package for social science (SPSS) version-26. Test of significance and associations were set at p<0.05 and 95% confidence level. Results: There were significant differences in the mean concentrations of water alkalinity, chromium (Cr), barium (Ba), total petroleum hydrocarbons (TPH), polyaromatic hydrocarbons (PAH), and TOG in water sources of the high and low oil-producing communities. Other mean concentrations of the analysed physicochemical parameters were found to be within normal limits for pH, salinity, turbidity, EC, total dissolved solids (TDS), total suspended solid (TSS), DO, and BOD, below the limit for alkalinity, chemical oxygen demand (COD), nitrate (NO3), ammonia (NH3), sulphate (SO4), bicarbonates (HCO3), chromium (Cr), copper (Cu), iron (Fe), TPH and above recommended limits for temperature, PAH and TOG. Conclusions: The study showed that both high and low oil-producing communities had contaminated ground and surface water sources, although the high oil-producing areas were much more polluted. It is, therefore, necessary to enhance the national oil pollution regulatory mechanisms and remediation activities in heavily polluted sites to safeguard community water sources and protect human health.
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Background: Groundwater is important source of drinking water particularly in rural communities though river, dam water too is also used globally. Many sicknesses, deaths are due to water, major media for carrying causes of illnesses. Community based study was carried out to know about drinking water sources, action before consumption by rural communities.Methods: Community based qualitative study using predesigned tool was carried out in tribal communities of 140 villages of forestry hilly region over one year with 25 women of 15 to 60 years randomly included from each village, total 4500. Results: Reported sources of drinking water at home were public taps in 1671 (37.1%), public borewells 1195 (26.6%), wells in outskirts of villages 929 (20.6%), rivers 381 (8.5%), other sources 324 (7.2%) (harvested rainwater, dams). Of 4500 study subjects, total 1522 (33.8%) women reported no road for going to collect water. Only 1936 (43.0%) women had drinking water at work places, (310 (16.0%) borewell, 313 (16.2%) matka (mud pot), 999 (51.6%) well, 314 (16.2%) other sources. Those who did not have water at work places, 393 (15.3%) took water from home, 767 (29.9%) went to river. Before use at home, 3510 (78.0%) women did filtration, usually with cloth torn from old saree, 690 (15.3%) boiled, 300 (7.3%) used other methods (bleaching powder or alum).Conclusions: In present era in well doing province untreated river water for drinking at home, work places are real dangerous practices, much more dangerous at work places as water is consumed directly from river without any action.
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In India, diarrhea prevalence among under 5 years children remains high and is associated with a wide range of bacteria, parasites, and viruses, transmitted through contaminated food and water. The present study aimed at the detection of enteric pathogens in children with diarrhea and its relationship to the source of drinking water. Fecal samples were collected from 157 children from July 2021 to July 2022. Among 157 children, parasitic and bacterial pathogens were detected in 4.5% (7/157). Parasites were detected in 2% (Giardia 67%, H nana in 33%) and bacteria in 2.5% (Ecoli O157 in 75% and salmonella in 25%) cases. Specific sources of drinking water more often associated with diarrhea were hand pumps (43%), house tap water (28.6%), bore well (14.2%), and well (14.2%) cases. Thus, demonstrating the persistence of significant pathogens and re-emphasizing that diarrheal illnesses are preventable through safe drinking water practices.
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Introduction: Early introduction of fluids and water affects the duration of breastfeeding, the infant immune system, and possibly causes infants to consume less breast milk, which may, in turn, affect their nutritional and immune status. Objective: This study was carried out to determine water consumption in 0-6-month-old infants and the factors affecting this consumption. Materials and methods: A literature review was conducted in seven electronic databases (Medline, Web of Science, PubMed, ScienceDirect, Scopus, Cochrane Library, and TÜBITAK) for studies published until April 25, 2022, using the keywords: drinking water, infant, and breastfeeding. Results: The systematic review included 13 studies. Five studies were crosssectional, three were descriptive and quasi-experimental, and the others were case-control and cohort studies. It was reported in the examined studies that 86.2% of the infants were around 6 weeks old, 44 % of the infants were 1 month old, 77% were 3 months old, 2.5% were 4 months old, and 2.5 to 85% of the infants were around 6 months old when they first consumed water. The prominent reasons for making the infants drink water are the thought that they need it and cultural reasons. Conclusions: The exclusive breastfeeding of 0-6-month-old infants is the recommendation of reliable health authorities. Nurses play a key role in implementing this practice. In this systematic review, it was seen that families gave their infants water at varying rates in the 0-6-month period, and the factors affecting this situation were revealed. If nurses determine which factors affect families in terms of the early introduction of fluids, they could be able to plan the necessary education and interventions.
Introducción. La introducción temprana de líquidos y agua afecta la duración de la lactancia, el sistema inmune del lactante y posiblemente hace que los lactantes consuman menos leche materna, lo que a su vez puede afectar su estado nutricional e inmunitario. Objetivo. Este estudio se realizó para determinar el consumo de agua en bebés de cero a seis meses y los factores que inciden en este consumo. Materiales y métodos. Se hizo una revisión de la literatura en siete bases de dato electrónicas (Medline, Web of Science, PubMed, ScienceDirect, Scopus, Cochrane Library y TÜBITAK) para estudios publicados hasta el 25 de abril de 2022, utilizando las palabras clave: agua potable, lactante y lactancia. Resultados. La revisión sistemática incluyó 13 estudios. Cinco fueron estudios transversales, tres fueron descriptivos, cuasiexperimentales y los restantes fueron estudios de casos y controles, y de cohortes. En los estudios examinados se informó que le dieron agua al 86,2 % de los lactantes de seis semanas, al 44 % de los lactantes de un mes, al 77 % de los lactantes de tres meses, al 2,5 % de los lactantes de cuatro meses y al 2,5 % a 85 % de los lactantes de seis meses. Las razones principales para dar agua a los bebés son la idea de que los bebés necesitan agua y razones culturales. Conclusiones. La lactancia materna exclusiva es la recomendación de las autoridades sanitarias para los bebés de cero a seis meses. Las enfermeras juegan un papel clave en la implementación de esta práctica. En esta revisión sistemática se observó que las familias daban agua a sus bebés en proporciones variables durante el período de cero a seis meses y se revelaron los factores que inciden en esta situación. Si las enfermeras determinan qué factores afectan a las familias en cuanto a la introducción temprana de líquidos, podrían planificar las medidas educativas y las intervenciones necesarias.
Subject(s)
Drinking , Infant , Drinking Water , Breast Feeding , Systematic ReviewABSTRACT
Abstract Background: Organic acids and ammonium salts added to drinking water can optimize productivity of broiler chickens. Objective: To evaluate the effect of acidifying drinking water on productive performance, blood and intestinal pH, and intestinal morphology of broilers. Methods: 1,400 one-day-old broiler chicks were used to evaluate two pH levels (4 and 6) of drinking water during three periods (1-21, 1-28, and 1-42 days of age). The treatments consisted of water added with a blend of formic acid (31%), propionic acid (19%), and their salts ammonium formate (26%), and ammonium propionate (6%) compared to a control group (pH 8). Results: Compared to the control, the groups consuming water at pH 6 (0.038 moles) continuously for 42 days improved (p≤0.01) live weight (2.785 vs 2.691 kg), feed conversion ratio (1.430 vs 1.463 kg/kg), and increased the number of intestinal villi (59.0 vs 55.7). Additionally, blood and intestinal pH was reduced vs the control group (7.75 vs 7.89; 6.32 vs 6.41, respectively). Conclusion: The blend of formic and propionic acids and their ammonium salts in drinking water at pH 6 during the complete production cycle of broilers improves performance, increases the number of intestinal villi, and reduces the pH of blood, duodenum, and ileum.
Resumen Antecedentes: Agregar ácidos orgánicos y sus sales amoniacales en el agua de bebida de pollos de engorde puede optimizar su productividad. Objetivo: Evaluar el efecto de la acidificación del agua de bebida sobre el rendimiento productivo, pH sanguíneo e intestinal, y morfología intestinal del pollo de engorde. Métodos: Se utilizaron 1.400 pollos de engorde de un día de edad para evaluar dos niveles de pH (4 y 6) en agua de bebida durante tres períodos (1-21, 1-28 y 1-42 días de edad). Los tratamientos consistieron en agua con una mezcla de ácido fórmico (31%), ácido propiónico (19%) y sus sales formiato de amonio (26%) y propionato de amonio (6%) en comparación con un grupo control (pH 8). Resultados: En comparación con el control, los grupos que recibieron agua a pH 6 (0,038 moles) continuamente durante 42 días tuvieron mejor (p≤0,01) rendimiento en términos de peso vivo (2,785 vs 2,691 kg) y conversión alimenticia (1,430 vs 1,463 kg/kg) así como un mayor número de vellosidades intestinales (59,0 vs 55,7). Adicionalmente, el pH sanguíneo e intestinal disminuyó vs el grupo control (7,75 vs 7,89; 6,32 vs 6,41, respectivamente). Conclusión: La mezcla de ácidos fórmico y propiónico y sus sales de amonio en el agua de bebida a pH 6 durante todo el ciclo productivo mejora los parámetros productivos en pollos de engorde, aumenta el número de vellosidades intestinales y reduce el pH de la sangre, duodeno e íleon.
Resumo Antecedentes: Recomendações para a aplicação de mistura de ácidos orgânicos e sais de amônio na água potável são necessárias para otimizar a produtividade em frangos de corte. Objetivo: Avaliar o efeito da acidificação da água de bebida no desempenho produtivo, pH sanguíneo e intestinal e morfologia intestinal. Métodos: 1.400 pintos de corte entre 1 e 42 dias de idade foram utilizados para avaliar dois níveis de pH (4 e 6) na água de beber entre três períodos (1-21, 1-28 e 1-42 dias de idade) de tratamentos em água com uma mistura de ácido fórmico 31%, ácido propiônico 19%, e seus sais formato de amônio 26% e propionato de amônio 6% em relação ao controle (pH 8). Resultados: Os grupos que receberam água continuamente pH 6 (0,038 mols), por 42 dias tiveram melhor desempenho em relação ao controle (p≤0,01) em termos de peso vivo (2,785 vs 2,691 kg) e conversão alimentar (1,430 vs 1,463 kg/kg), bem como aumento do número de vilosidades intestinais (59,0 vs 55,7), sangue e pH intestinal reduzidos vs controle (7,75 vs 7,89; 6,32 vs 6,41). Conclusão: A mistura dos ácidos fórmico e propiônico e seus sais de amônio na água de bebida em pH 6 durante o ciclo completo de produção melhorou os parâmetros de produção em frangos de 42 dias de idade e aumentou o número de vilosidades intestinais e uma redução no sangue, duodeno, e pH do íleo.
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Abstract This study aimed to explore the association between water, sanitation, and the prevalence of schistosomiasis mansoni in students aged 7 to 17 years from all 27 federative units in Brazil. It was a cross-sectional study conducted based on data on the prevalence of schistosomiasis mansoni referring to 197,567 students from 521 Brazilian municipalities, who participated in the National Survey on the Prevalence of Schistosomiasis Mansoni and Soil-transmitted Helminth Infections (2011-2015). Univariable and multivariable generalized linear models of the negative binomial type were adjusted using 25 and 5% significance levels, respectively, considering municipalities as the unit of analysis. While a protective association was found between access to filtered water in schools and schistosomiasis mansoni prevalence, sanitation in schools was indicated as a risk factor. The collection of wastewater through a network is not universal in Brazil, and even when present, it is not necessarily carried out by the treatment of collected effluents, thus often resulting in the direct discharge of raw sewage into water resources. Regarding septic tanks, only the presence of infrastructure alone does not guarantee its correct use by the population.
Resumo O presente trabalho teve como objetivo explorar a associação entre água, saneamento e a prevalência de esquistossomose mansoni em estudantes de 7 a 17 anos de todas as 27 unidades federativas do Brasil. Tratou-se de um estudo transversal, conduzido com base nos dados de prevalência de esquistossomose mansoni referentes a 197.567 estudantes de 521 municípios brasileiros que participaram do Inquérito Nacional da Prevalência de Esquistossomose Mansoni e Geo-helmintoses (2011-2015). Modelos lineares generalizados do tipo binomial negativo, univariável e multivariável foram construídos considerando níveis de significância de 25% e 5%, respectivamente, e os municípios como unidade de análise. Embora os resultados tenham indicado associação protetora entre o acesso à água filtrada nas escolas e a prevalência de esquistossomose mansoni, o acesso ao saneamento nas escolas foi apontado como um fator de risco. A coleta de águas residuais por rede não é universal no Brasil e, mesmo quando presente, não é necessariamente procedida pelo tratamento dos efluentes coletados, resultando, muitas vezes, no lançamento direto do esgoto bruto em matrizes aquosas. Com relação a soluções individuais como fossa sépticas, a presença da infraestrutura por si só não garante o seu uso correto pela população.
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Background: Increasing population has led to increased water demand in major towns across the world. This study focused on Kitui Town in Kenya where about 80% of the inhabitants depend on Masinga-Kitui water supply system. There are limited alternative water sources including groundwater that are not reliable due high contamination with coliforms. The aim of this study was to determine bacteriological quality of Masinga-Kitui water and establish the potential sources of contaminants. Methods: A total of 90 water samples were collected for analysis whereby, 72 were from the households’ water storage facilities selected through stratified purposive sampling technique. Additional 18 samples were representatively collected from the main distribution network/including two community water points located in Kitui Town (Kalundu and Bondeni). Water quality analysis was performed at Kenya Water Institute water laboratory in Nairobi. Results: All the analyzed water samples were grossly contaminated with E. coli and total Coliforms which exceeded the acceptable WHO/KEBS limit of zero (0) CFU/100 ml of water sample. Majority of the Kitui Town residents associated poor water quality with poor sanitation, poor waste management, poorly maintained sewage and waste waters, contamination of water at the main distribution tank at Kwa-Ngindu, poor water storage at the household and unhygienic practices. About 34% of Kitui residents were at the risk of contracting waterborne diseases due to consumption of contaminated water. Conclusions: Regular monitoring of water quality, surveillance of Masinga-Kitui water infrastructure, and enhanced awareness programme should be adopted to encourage Kitui residents to treat drinking water.
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Background The concentrations of disinfection by-products (DBPs) are varied by different water sources, disinfectants, or treatment processes in Wuxi, and the associated health risks are also different. Objective To understand the levels of trihalomethanes (THMs) and haloacetamides (HAcAms) in drinking water in Wuxi, and their variations by water sources, seasons, disinfectants or treatment processes, aiming to provide technical support for ensuring the safety of drinking water. Methods In dry period (December 2019) and wet period (July 2020), the finished water and tap water (from the beginning, middle, and end of the drinking water distribution network) from 12 centralized water treatment plants in Wuxi were collected to detect the concentrations of THMs and HAcAms in water samples. A purge and trap-gas chromatography-mass spectrometry method was applied to detect trichloromethane (TCM), bromodichloromethane (BDCM), dibromochloromethane (DBCM), and tribromomethane (TBM), and a solid-phase extraction-gas chromatography-mass spectrometry method to detect dichloroacetamide (DCAcAm), trichloroacetamide (TCAcAm), bromochloroacetamide (BCAcAm), dibromoacetamide (DBAcAm), bromodichloroacetamide (BDCAcAm), dibromochloroacetamide (DBCAcAm), and tribromoacetamide (TBAcAm). Analyses and comparisons were made on the concentrations of THMs and HAcAms in drinking water by water sources (the Yangtze River/the Taihu Lake/reservoir), wet/dry seasons, disinfection methods (liquid chlorine/sodium hypochlorite), and treatment processes (conventional treatment/conventional+advanced treatment). Results A total of 96 drinking water samples were collected in Wuxi. THMs were positive in all the water samples (100%), with concentration ranging from 1.027 to 40.225 μg·L−1 and the M (P25, P75) concentration being 24.782 (17.784, 30.932) μg·L−1. None of the 4 THMs exceeded the standard limit of the Standards for drinking water quality (GB 5749-2022 ), and the order of the 4 THMs concentrations from high to low was TCM > BDCM > DBCM > TBM. Five of the 7 HAcAms were detected, the total concentration ranged from 0.137 to 3.288 μg·L−1, and the M (P25, P75) was 0.808 (0.482, 1.704) μg·L−1. The DCAcAm concentration was the highest (2.448 μg·L−1), followed by BCAcAm, while TCAcAm and DBCAcAm were not detected. The M (P25, P75) of the total concentration of THMs in the drinking water from the Taihu Lake was 33.353 (26.649, 36.217) μg·L−1, that of the Yangtze River was 27.448 (24.312, 31.393) μg·L−1, and both were higher than the level of the reservoir [16.359 (2.305, 21.553) μg·L−1] (P<0.05), while the M (P25, P75) of the total concentration of HAcAms in the drinking water from the Taihu Lake was 0.616 (0.363, 0.718) μg·L−1, which was lower than those of the Yangtze River [0.967 (0.355, 2.283) μg·L−1] and the reservoir [1.071 (0.686, 1.828) μg·L−1] (P<0.05). There were no statistically significant differences in the total concentrations of THMs and HAcAms between wet season and dry season, or between different disinfection methods (P>0.05). The M (P25, P75) concentrations of THMs and HAcAms in drinking water after advanced treatment process involving ozone, activated carbon, and membrane were 20.565 (3.316, 27.185) μg·L−1 and 0.623 (0.452, 1.286) μg·L−1 respectively, and were lower than the corresponding values after conventional treatment process, 28.740 (23.431, 35.085) μg·L−1 and 0.934 (0.490, 2.116) μg·L−1 respectively (P<0.05). Conclusion The concentrations of THMs and HAcAms in drinking water in Wuxi are generally at a low level. The levels of controlled THMs meet the requirements of national standards, and the levels of uncontrolled HAcAms as new DBPs are up to μg·L−1. The concentrations of the two kinds of DBPs in drinking water vary by water sources. The concentrations of THMs and HAcAms produced by the advanced treatment process are lower than that by the conventional treatment process.
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ObjectiveTo monitor the microbes in urban drinking water in Jiangxi from 2016 to 2020, to analyze the change in microbial qualification rate, and to provide a scientific basis for government decision-making. MethodsAccording to the Standard Examination Method for Drinking Water (GB/T 5750‒2006) and the Standards for Drinking Water Quality (GB 5749‒2006), the water samples were collected, tested and evaluated for hygienic safety. The chi-square test was used to compare the qualification rates among different water periods, water source types, water supply modes, water samples, treatment processes, and disinfection methods. ResultsA total of 10 584 water samples were collected and examined from 2016 to 2020,with a qualification rate of 97.72%. The qualified rate of the microbiological index increased gradually over the years. There was no statistically significant difference in the microbiological qualification rate of water samples monitored in different water periods (χ2=0.718,P=0.398), and the qualification rates were 97.85% and 97.60% in dry and abundant water periods respectively. There was a statistically significant difference in the qualification rates of water samples monitored in different water source types (χ2=79.560,P=0.398), with groundwater having a higher qualification rate of 98.83% than surface water (97.70%). The microbiological pass rate of water samples differed among different water supply methods (χ2=201.836,P<0.001). The microbiological pass rates of municipal centralized water supply, self-built centralized water supply and secondary water supply were 97.51%, 88.94% and 96.56% respectively. The microbiological pass rates of water samples differed among different treatment processes. There were differences in the qualification rates of the water samples between different treatment processes(χ2=855.034,P<0.001), with 98.22%, 67.19%, 95.60% and 53.13% of the conventionally treated, precipitated filtered, disinfected only and untreated water samples, respectively. The differences in the microbiological qualification rates of the monitored water samples between different disinfection methods were statistically significant (χ2=904.993,P<0.001). Chlorination disinfection, chlorine dioxide disinfection, other disinfection methods and non-disinfected water samples had the pass rates of 98.35%, 98.19%, 84.38% and 60.16%, respectively. ConclusionThe qualified rate of the microbiological index of drinking water in Jiangxi increases year by year, but there are still some drinking water without appropriate disinfectants and water quality treatment processes. There is still a need to strengthen the purification, disinfection and monitoring of drinking water.